Genetic variants that increase infectious diseases risk identified

May 20, 2010 By Leave a Comment

Washington, May 20 (ANI): Scientists have identified new genetic variants that increase susceptibility to several infectious diseases including tuberculosis and malaria.

With greater understanding of the role of the gene implicated, researchers from the Wellcome Trust Centre for Human Genetics at the University of Oxford, Singapore”s Agency for Science, Technology and Research (A*STAR) and National University Health System (NUHS) hope that the findings could one day lead to better therapies and vaccines.

Environmental factors such as malnutrition and poor hygiene can account for a large proportion of an individual person”s susceptibility to infectious diseases, but it”s clear that this is not the whole story. Studies of twins and adopted persons indicate that genetics also plays a role.

The team analysed genes from over 8,000 people at clinical sites in Malawi, Kenya, Vietnam, Hong Kong and The Gambia, over a period of 5 years. In particular, they were looking for genetic variants that might contribute to susceptibility to tuberculosis, malaria and serious bacterial infections of the blood, or bacteraemia.

Their findings reveal a striking association with a gene called CISH and increased risk of susceptibility to these infectious diseases.

CISH encodes a protein that is involved in the immune response to infectious diseases. It plays a role in dampening down messaging signals between cells of the immune system.

A panel of five different genetic variants was identified within the CISH gene. Within the population studied, having just one of these variants increased susceptibility to disease by 18 percent compared with somebody who does not have any ”risk” variants.

One variant in particular accounted for most of the genetic association with disease. Functional studies carried out in Singapore showed that blood cells from healthy Chinese volunteers carrying that variant had lower levels of the CISH protein overall than individuals with the normal variant.

This suggests that CISH exerts a significant genetic influence on our immune response.

Dr Chiea C. Khor from A*STAR”s Singapore Institute for Clinical Sciences (SICS), who co-led the studies in Singapore, commented: “It”s not clear from our study why having a reduced level of CISH associates with increased susceptibility to multiple infectious diseases, but it does suggest that CISH is a key regulator of the immune system. We hope that our findings will encourage clinical research to better understand the immunological processes that are going on, with a view to identifying targets for therapeutic intervention and the development of better therapies and vaccines.” (ANI)

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Infants ‘at risk for measles in first year’

May 19, 2010 By Leave a Comment

London, May 19 (ANI): A new research has found that young infants have a gap in their protection against measles, from around two to three months old until they are vaccinated at 12 months of age.

This is because the level of antibodies infants get from their mother drops over time, leaving them susceptible until they are vaccinated, says the study.

These findings underline the importance of measles vaccination at around 12 months of age and support ongoing research into earlier vaccination.

The study involved 207 healthy women-infant pairs recruited from five hospitals in the Province of Antwerp, Belgium from April 2006.

Medical records were used to divide women into two groups: those who had been vaccinated against measles during infancy and those with naturally acquired immunity from measles infection earlier in life.

Levels of measles antibodies were measured from blood samples taken during week 36 of pregnancy, at birth (cord blood), in all infants at 1, 3 and 12 months, and randomly at either 6 or 9 months.

Vaccinated women had significantly fewer antibodies than did naturally immune women. Similarly, infants of vaccinated women had significantly lower antibody levels than infants of naturally immune women.

The presence of maternal antibodies lasted a median time of 2.61 months – 3.78 months for infants of naturally immune women and 0.97 months for infants of vaccinated women.

At six months of age, over 99 percent of infants of vaccinated women and 95 percent of infants of naturally immune women had lost their maternal antibodies. And at 9 and 12 months, no positive samples were left in either group.

The researchers found no significant impact of breastfeeding, birth weight, educational level, caesarean section or day care attendance on the duration of maternal antibodies.

This study describes a very early susceptibility to measles in both infants of vaccinated women and women with naturally acquired immunity, say the authors.

If future studies show that measles vaccines can be offered with success at an age of less than nine months, policy makers could consider moving forward the routine measles vaccination programme.

The study has been published on bmj.com. (ANI)

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Sex infection gonorrhoea becoming “superbug”

March 30, 2010 By Leave a Comment

Washington, March 30 (ANI): Gonorrhoea-causing bacteria develops resistance to antibiotics quite quickly and if new treatment is not considered soon the sexually transmitted infection may become extremely difficult to treat, an expert has warned.

Addressing the Society for General Microbiology”s spring meeting in Edinburgh, professor Catherine Ison said it was quite possible that strains of Neisseria gonorrhoeae resistant to all current treatment options could emerge in the near future.

Prof Ison, from the Health Protection Agency (HPA) in London, explained how some strains of the gonococcal bacteria that cause the disease are now demonstrating decreased sensitivity to the current antibiotics used to treat them – ceftriaxone and cefixime.

Gonorrhoea is a common bacterial sexually-transmitted infection and if left untreated can lead to pelvic inflammatory disease, ectopic pregnancy and infertility in women.

Current treatment consists of a single dose of antibiotic given in the clinic when prescribed, by mouth for cefixime and by injection for ceftriaxone.

Prof Ison said: “Choosing an effective antibiotic can be a challenge because the organism that causes gonorrhoea is very versatile and develops resistance to antibiotics very quickly.

“Penicillin was used for many years until it was no longer effective and a number of other agents have been used since. The current drugs of choice, ceftriaxone and cefixime, are still very effective but there are signs that resistance particularly to cefixime is emerging and soon these drugs may not be a good choice.”

Bacteria isolated from patients diagnosed with gonorrhoea are tested for their susceptibility to various antibiotics to monitor patterns of resistance at a local and national level.

Ongoing monitoring of antimicrobial resistance is critical to ensure that first-line treatments for gonorrhoea remain effective.

Professor Ison said: “There are few new drugs available and so it is probable that the current use of a single dose may soon need to be revised and treatment over several days or with more than one antibiotic will need to be considered.”

“If this problem isn”t addressed then there is a real possibility that gonorrhoea will become a very difficult infection to treat,” she added. (ANI)

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New way to fight fat with cold temperatures shows promise

March 24, 2010 By Leave a Comment

New York, March 24 (ANI): An experimental procedure has raised hopes of being a new way to decrease fatty deposits under the skin by applying cold temperatures.

The procedure, cryolipolysis, is yet to receive a green signal from the Food and Drug Administration but has been predicted as a potential “dermatologic weapon”.

Dr. Mathew Avram, director of the Massachusetts General Hospital Dermatology Laser and Cosmetic Center and author of a recent review of the procedure, told ABC News cryolipolysis “takes advantage of the differential in fat”s susceptibility to the cold.”

“Fat freezes at a higher temperature than the rest of the skin does. Thus, at a certain temperature, you can freeze the fat but not harm the skin,” the New York Daily News quoted him as telling ABC.

Avram further pointed out the results were “not comparable to liposuction, and … not a weight-loss device,” but held potential in the treatment.

Dr. Mark Berman, president of the American Academy of Cosmetic Surgery, said: “The good news is that there does not seem to be any problem caused when the body is reabsorbing the [fat]. I can see this becoming another dermatologic weapon. This is going to be a nice little device.” (ANI)

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Counting duplicated genome segments now possible with new computational method

September 1, 2009 By Leave a Comment

London, August 31 (ANI): Counting copies of duplicated genome sequences and doing initial analyses of their contents are possible with the aid of a new computational method, according to a study.

Led by scientists at the University of Washington (UW), the study suggests that the number of copies of particular DNA segments can differ from one person to the next.

The researchers use the term mrFAST, an acronym for micro-read Fast Alignment Search Tool, to refer to the novel method.

In their study report, they have highlighted the fact that segmental duplications in the human genome have been associated with susceptibility and resistance to disease.

The report points out that duplicated segments have been linked to such disorders as lupus, Crohn’s disease, mental retardation, schizophrenia, colour blindness, psoriasis, and age-related macular degeneration.

It adds that segmental duplications often contain duplicated genes, many of which have an unknown function, and that individuals have different numbers of copies of some of these duplications.

The researchers write that determining the number, content, and location of segmental duplications is an important step in understanding the health significance of gene copy-number variation.

“New computational methods, combined with next-generation DNA sequencing technology, has provided for the first time an accurate census of specific genes that exist in varying number of copies,” Nature magazine quoted Alkan as saying.

“This is a way to deal with some of the most complex regions of the human genome and do what might appear to be a simple thing: Count whether a person has one, two, three or more copies of a gene. In fact, such counting is surprisingly difficult,” said Kidd.

The researchers say that next-generation technology for sequencing the human genome has far greater detection power, and costs substantially less than the traditional sequencing method known as Sanger sequencing.

According to them, the new technologies are beginning to distinguish subtle dissimilarities between nearly identical gene copies.

“This can provide researchers with a more accurate assessment of specific gene content and insight into functional constraints,” Alkan said.

“The newer, faster genome sequencing platforms may eventually make it feasible to detect the full-spectrum of genomic variation among many individuals, including patients suffering from diseases of genetic origin. Next-generation technology and computational methods promise low cost, rapid sequencing of different individuals and may lead to a fuller understanding of the patterns and significance of human genetic variation,” Alkan added.

The analytical method they devised is already being tapped for the 1000 Genome Project, an international effort to catalog and compare the genomes of hundreds of people from around the world.

Alkan, Kidd, and their colleagues note that the ability to accurately and systematically determine the absolute copy number for any genomic segment is a notable step toward a true and complete picture of individual genomes, and how the genome shapes a person’s characteristics.

“The next challenge will be defining variation in the sequence content and the structural organization of these dynamic and important regions of the human genome,” they wrote.

A research article describing their study has been published in the journal Nature Genetics. (ANI)

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Kids more susceptible to headaches, migraine in new school year

August 30, 2009 By Leave a Comment

Washington, Aug 30 (ANI): A new study has revealed that children and teens become more susceptible to the pain and discomfort of headaches and migraines as the new school year begins.

More than a third of children suffer from recurrent headaches – headaches that occur more than once a month. Most are tension headaches, which are less severe and do not occur with nausea or vomiting.

“Try to get your kids back into a routine schedule at least two weeks before school starts,” said Dr Ann Pakalnis, neurologist at Nationwide Children’s Hospital.

“Begin enforcing earlier bedtimes, and make sure children are well-rested before beginning a new school year,” the expert added.

In the new study, researchers at Nationwide Children’s Hospital found that sleep and emotional disorders were common in adolescents with migraines.

Sleep disorders and mild, chronic depression became more common as headaches became more frequent.

In addition those who regularly consumed caffeine also reported more depression and were poorer sleepers.

“Our study indicates that patients with migraines should be monitored for sleep and emotional disorders,” said Pakalnis.

“These findings suggest that factors such as frequent migraines may play a role in the occurrence of these disorders.

“Also, minimizing caffeine consumption may benefit sleep and mood in headache patients and decrease susceptibility to migraine attacks,” she added.

In addition to making sure kids get plenty of sleep and minimize caffeine intake, parents should ensure their children are eating balanced meals and snacks regularly.

Also, limit their caffeine intake and monitor to check that they are getting the proper amount of fluids.

Over-the-counter medicines can provide relief but are sometimes difficult for children to swallow or digest, particularly if they have a migraine accompanied by nausea. Newer therapies such as triptans, which work on the brain’s serotonin system, are very specific for migraine treatment.

The study is published in journal Headache. (ANI)

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Marriage, the secret to ‘beating cancer’

August 25, 2009 By Leave a Comment

Washington, Aug 24 (ANI): They may joke that marriage raises their blood pressure but married people have the best chance of surviving cancer, a new study has found.

What’s more, those going through the pain of separation have the poorest survival rates, the study claimed.
The research will be published in the November 1, 2009 issue of Cancer, a peer-reviewed journal of the American Cancer Society.

According to the study’s authors, the results suggest that the stress associated with marital separation may compromise an individual’s immune system and lead to a greater susceptibility to cancer.

Research has shown that personal relationships have a significant role in physical health-specifically that good relationships are beneficial and poor relationships are deleterious.

Also, many studies of cancer prognosis have found that patients who are married live longer than those who are single. However, little information is available regarding differences in survival among the various types of people who are unmarried.

To look for trends in cancer survival among patients who are separated, divorced, widowed, and never married, researchers led by Gwen Sprehn, Ph.D., of the Indiana University School of Medicine in Indianapolis analyzed data from the Surveillance Epidemiology and End Results (SEER) database, a population-based cancer registry in the United States.

The researchers assessed the 5 and 10 year survival rates of 3.79 million patients diagnosed with cancer between 1973 and 2004.

They found that married patients had the highest 5 and 10 year survival rates, at 63.3 percent and 57.5 percent respectively. At the other end of the spectrum, separation carried the poorest survival outcome. Specifically, the 5 and 10 year survival rates for separated patients were 45.4 percent and 36.8 percent respectively.

The 5 and 10 year survival rates of widowed patients were the next lowest, at 47.2 percent and 40.9 percent respectively; for divorced patients, the respective survival rates were 52.4 percent and 45.6 percent; and for never married patients, they were 57.3 percent and 51.7 percent.

“Patients who are going through separation at the time of diagnosis may be a particularly vulnerable population for whom intervention could be prioritized,” says Sprehn.

“Identification of relationship-related stress at time of diagnosis could lead to early interventions which might favorably impact survival. Ideally, future research will study marital status in more detail over time and also address individual differences in genetic profile and biomarkers related to stress, immune, and cancer pathways in order to determine mechanisms which might underlie this possible critical period for cancer pathogenesis,” the expert added. (ANI)

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Friendly gut bacteria can help fight infection

August 20, 2009 By Leave a Comment

Washington, Aug 20 (ANI): Scientists from UT Southwestern Medical Centre have discovered friendly human gut bacteria that helps initiate body’s defence mechanisms to fight parasitic infection toxoplasmosis.

The bacteria triggers defence against Toxoplasma gondii, the parasite responsible for toxoplasmosis.

Toxoplasmosis is generally a mild infection, but it can have serious and potentially fatal effects in pregnant women, their fetuses and others with weakened immune systems.

Studies conducted over mice have shown that T gondii directly activates a specific immune protein in the host, called toll-like receptor 11 (TLR-11), which helps control the animals’ immune response to the parasite. Humans, however, don’t have an active form of this receptor.

In the new study, researchers suggest that instead of activating toll-like receptors directly, T gondii’s first interaction in the human gut is with the helpful bacteria that live inside the body.

Those bacteria then release signaling molecules, alerting the human host to the invader.

“While this is very early data, our results suggest that looking at the bacteria present in each patient’s gut could help physicians understand their susceptibility to infectious diseases,” said Dr. Felix Yarovinsky, assistant professor of immunology at UT Southwestern and senior author of the paper.

“It also suggests the possibility of developing novel probiotic strategies for treating parasitic infections such as toxoplasmosis and cryptosporidiosis, a related disease caused by the parasite Cryptosporidium,” Yarovinsky added.

The primary host of protozoan parasite is the house cat, which are generally infected with T gondii by ingesting contaminated meat, water or the feces of a cat that has recently been infected; however, the parasite also can be passed from mother to fetus. Once a person is infected, the parasite penetrates the intestine and spreads throughout all organs.

The researchers studied mice in which TLR-11 had been genetically eliminated. This mimics the human immune response to T gondii. They then infected the TRL-11-deficient mice with T gondii.

They found that the commensal – or good – bacteria in the gut activated their immune system, thereby inducing various inflammatory responses against the invading pathogen.

In humans it is those helpful bacteria that send activating signals to the three toll-like receptors that are functional, inducing various inflammatory responses against invading pathogens like T gondii.

The study appears in journal of Cell Host and Microbe. (ANI)

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Prenatal malaria exposure ‘ups malaria, anaemia risk in some kids’

July 29, 2009 By Leave a Comment

Washington, July 28 (ANI): A new study led by an Indian origin scientist has unravelled the mystery behind why some children are more susceptible to malaria infection and anaemia.

Lead researcher Indu Malhotra from Case Western Reserve University School of Medicine suggests that children who are exposed to Plasmodium falciparum (P. falciparum) malaria before birth become tolerant to the malaria parasites, or their soluble products.

This tolerance, which persists into childhood, reduces the ability of the immune system to attack and destroy parasites and increases the susceptibility of these children to develop a malaria infection.

It also increases their risk for anaemia.

“This is the first time it has been shown why some children are more susceptible to malaria and anaemia than other children,” said Malhotra.

“This study is timely given President Obama’s Global Health Initiative to assist developing countries to control malaria, one of the ‘big three’ diseases,” she added.

The researchers investigated how prenatal malaria exposure affects anti-malaria immunity in young children and their susceptibility to subsequent malaria infections.

They studied 586 Kenyan newborn babies, the researchers identified those children who had been exposed to P. falciparum malaria in utero.

The babies were classified into three groups: “sensitized” – those babies whose cord blood cells produce activating cytokines in response to the malaria antigens; “exposed, not-sensitized” – babies whose bodies did not produce activating cytokines but made an inhibitory cytokine; and “not-exposed”- babies born to mothers with no P. falciparum malaria infection at delivery.

The study involving Malhotra, Christopher King and colleagues from Case Western Reserve University School of Medicine and Kenya Medical Research Institute and Division of Vector Borne Diseases showed that in first three years of life, the “exposed, not-sensitized” group had a 60 percent greater risk of malaria infection than the “not-exposed” group and a slightly higher risk of malaria infection than the “sensitized” group.

They also had lower hemoglobulin levels, a sign of anaemia, than the other babies. The T cells of “exposed, not-sensitized” children were less likely to make activating cytokines in response to malaria antigens.

The study appears in the open access journal PLoS Medicine. (ANI)

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Schizophrenia linked to specific DNA region

July 10, 2009 By Leave a Comment

London, July 9 (ANI): An international group of researchers have for the first time come up with genetic evidence linking schizophrenia to a specific region of DNA – on chromosome 6.

Lead researcher Nancy Buccola, Assistant Professor of Clinical Nursing at LSU Health Sciences Center New Orleans, says that this is the same area where key genes for immune function are located.

The researchers recruited study participants, people with diagnoses of schizophrenia or schizoaffective disorder, as well as controls from the general population.

They analysed data collected and also conducted a meta-analysis of data from the Molecular Genetics of Schizophrenia, International Schizophrenia Consortium and SGENE data sets – thousands of DNA samples.

The team point out that while a single gene does not appear to be the source of the development of schizophrenia, variations on chromosome 6 appeared to be associated with higher risk.

According to them, these variations were found most often in people with schizophrenia, leading the scientists to believe that these common variations contribute to the development of schizophrenia.

They further said that the area of chromosome 6, in the same area where genes important to the immune system function, provokes questions about whether or not treatments for autoimmune disorders might also be helpful in treating schizophrenia.

“Schizophrenia can be a devastating disease, and while treatments are improving, there are still people who do not respond or only partially respond,” Nature magazine quoted Buccola, principal investigator on the LSUHSC study, as noting.

“Understanding the underpinnings of this illness will open doors to new and potentially better treatments,” the researcher added.

The research was supported by funding from the National Institute of Mental Health and the National Alliance for Research on Schizophrenia and Depression.

“Scientists have been looking for schizophrenia susceptibility genes since the early 1900s. This study shows that these genes can be found and sets the stage for future research,” says Buccola. (ANI)

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Link between cancer and human evolution revealed

July 3, 2009 By Leave a Comment

Washington, July 3 (ANI): A new study conducted by researchers at Ben-Gurion University of the Negev (BGU) suggests a link between cancer and human evolution.

Writing about their work in the journal Genome Research, the researchers say that gene mutations that once helped humans survive may increase the possibility for diseases, including cancer.

They came to this conclusion after studying mutations in the genome of the mitochondria, a part of every cell responsible for energy production that is passed exclusively from mothers to their children.

The mitochondria are essential to every cell’s survival and our ability to perform the functions of living.

“Our ancestors responded to environmental changes, such as climate shift, with mutations that increased their chances of survival. But today, these same mutations predispose us toward complex diseases such as cancer,” says Dr. Dan Mishmar, a molecular biologist from the Department of Life Sciences at BGU.

“Although mitochondria’s role in the emergence of new species has been investigated recently, the idea that they are responsible for our susceptibility to illness startles many,” Dr. Mishmar adds.

During the study, the research team analysed the genome mitochondria mutations from 98 unrelated individuals.

According to them, combinations of mutations tended to occur in tumours in precisely the same DNA building blocks that changed during evolution.

The researchers also observed that the mitochondrial genome of humans, who had migrated out of Africa to Europe 100,000 years ago, carried seven mutations found in almost all of today’s Europeans.

“The concept that the same principles that drive evolution toward the emergence of new species govern the emergence of diseases is new.

A clinician looks at the genome of a tumor, or other disease, and compares it to the normal population, looking for new mutations that do not occur there. I assume the mutations are already part of the population and have had a survival function. When these same mutations reoccur in the correct environment, they can cause disease,” Dr. Mishmar says.

The team say in the research article: “We show, strikingly, that evolution repeated itself in cancer.

If we better understand how evolution moved, we can understand the genetic basis of many complex disorders. Since mitochondria play a central role in disease, if we understand how they work and the way they changed our ability to survive in different conditions in ancient times, we can understand the mechanics of the disease.

And we’ll understand a lot about the way certain people develop diseases and others have a lower tendency toward those same diseases. This may lead to new methods of disease prevention or cures.” (ANI)

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History of periodontitis linked to cerebrovascular disease in men

July 1, 2009 By Leave a Comment

Washington, July 1 (ANI): A new study has established a link between periodontitis history and cerebrovascular disease in men.

Background information in a research article describing the study, published in Annals of Neurology, describes periodontitis as an inflammatory disease of the gums, and cerebrovascular disease as a stroke or transient ischemic attack (TIA).

The article further reveals that this is the first prospective cohort study to use clinical measures of periodontitis to evaluate the association between this disease and the risk of cerebrovascular disease.

Thomas Dietrich of the University of Birmingham School of Dentistry, and Elizabeth Krall of the Boston VA and the Boston University School of Dental Medicine, analysed data from 1,137 men in the VA Normative Aging and Dental Longitudinal Study, an ongoing study begun in the 1960s with healthy male volunteers from the greater Boston area.

A trained periodontist conducted dental exams every three years that included full mouth X-rays and periodontal probing at each tooth. Follow-up lasted an average of 24 years.

The researchers observed that there was a significant association between periodontal bone loss and the incidence of stroke or TIA, independent of cardiovascular risk factors.

They say that the association was much stronger among men younger than 65 years old.

According to them, there are several possible pathways that could explain the association found in the study.

The team say that there could be direct or indirect effects of the periodontal infection and the inflammatory response, or some people may have an increased pro-inflammatory susceptibility that could contribute to both cerebrovascular disease and periodontal disease.

The study showed that only periodontal bone loss, which would indicate a history of periodontal disease, not probing depth, which would indicate current inflammation, was associated with the incidence of cerebrovascular disease.

The researchers say that the stronger association in younger men seen in this and other studies may indicate a pro-inflammatory susceptibility in some men that is reflected in periodontal destruction at a younger age.

They note that if periodontitis caused cerebrovascular disease, it could be an important risk factor, given its relatively high prevalence and the strength of the association in younger men.

They also see the possibility that people with periodontitis may pay less attention to health in general, for example, they may not take medications as regularly.

The authors conclude: “Large epidemiologic studies using molecular and genetic approaches in various populations are necessary to determine the strength of the association between periodontitis and cerebrovascular disease and to elucidate its biologic basis.” (ANI)

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Study links more gene mutations to autism risk

June 27, 2009 By Leave a Comment

Washington, June 26 (ANI): A collaborative team of geneticists from The Children’s Hospital of Philadelphia, the University of Pennsylvania School of Medicine, and several other institutions say that they have found more autism susceptibility genes.

The researchers said that they identified 27 different genetic regions where rare copy number variations – missing or extra copies of DNA segments – were found in the genes of children with autism spectrum disorders (ASDs), but not in the healthy controls.

The complex combination of multiple genetic duplications and deletions is thought to interfere with gene function, which can disrupt the production of proteins necessary for normal neurological development.

“We focused on changes in the exons of DNA-protein-coding areas in which deletions or duplications are more likely to directly disrupt biological functions,” said study leader Dr. Hakon Hakonarson, director of the Center for Applied Genomics at The Children’s Hospital of Philadelphia and associate professor of Pediatrics at the University of Pennsylvania School of Medicine.

“We identified additional autism susceptibility genes, many of which, as we previously found, belong to the neuronal cell adhesion molecule family involved in the development of brain circuitry in early childhood,” he added.

According to him, the study also revealed many “private” gene mutations, those found only in one or a few individuals or families-an indication of genetic complexity, in which many different gene changes may contribute to an autism spectrum disorder.

“We are finding that both inherited and new, or de novo, genetic mutations are scattered throughout the genome and we suspect that different combinations of these variations contribute to autism susceptibility,” said Dr. Maja Bucan, professor of Genetics at the University of Pennsylvania School of Medicine and Chair of the Steering committee for Autism Speaks’ Autism Genetic Resource Exchange (AGRE).

“We are grateful to families of children with autism spectrum disorders for their willingness to participate in genetic studies because family-based studies have many advantages. We have learned a lot both from genetic analyses of children with autism as well as analyses of their patents and their unaffected siblings,” the researcher added.

During the study, the researchers compared genetic samples of 3,832 individuals from 912 families with multiple children with ASDs from the AGRE cohort against genetic samples of 1,070 disease-free children from The Children’s Hospital of Philadelphia.

They said that their research also unveiled two novel genes in which variations were found, BZRAP1 and MDGA2. According to them, they were thought to be important in synaptic function and neurological development, respectively.

Key variants of these genes, say the researchers, were transmitted in some, but not all, of the affected individuals in families.

A research article on the findings has been published in the journal PloS Genetics. (ANI)

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Brain likely perceives cocaine to be a reward

May 20, 2009 By Leave a Comment

Washington, May 20 (ANI): McGill University researchers have opened up a new path for cocaine addiction research by suggesting that the brain likely perceives it to be a reward.

The researchers have found that sniffing cocaine triggers high levels of dopamine secretion in a central region of the brain called the striatum.

They say that the significance of this finding lies in the fact that dopamine is known to play a critical role in the brain’s response to reward and addictive drugs.

Lead researcher Dr. Marco Leyton, of the Montreal Neurological Institute (MNI), has revealed that the study involved 10 non-addicted users of cocaine, all of whom sniffed cocaine on one test day and placebo powder on another.

The participants underwent blood tests before and after taking the drug, and dopamine release in the brain was measured using PET scans.

“The ability of cocaine to activate dopamine release varies markedly from person to person. Our study suggests that this is related to how much of the drug the person consumed in the past,” said Dr. Leyton.

The more cocaine someone has used in his or her lifetime, the more the brain will secrete dopamine during subsequent cocaine use.

“It’s possible therefore that the intensity of the reward-circuit response is related to increased susceptibility to addiction,” said Dr. Leyton.

The researchers admit that though their study has demonstrated the relationship between the intensity of dopamine secretion and the frequency of drug use, they still do not fully understand its mechanism of action.

They, however, say that the relationship between dopamine and cocaine means that this hormone could be a potential target for treatment against addiction.

A research article on the study has been published in the journal Biological Psychiatry. (ANI)

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Darker-skinned smokers may be more prone to nicotine dependence

May 9, 2009 By Leave a Comment

Washington, May 9 (ANI): Penn State scientists say that it may be possible to gauge a person’s susceptibility to nicotine dependence by looking at his or her skin’s colour.

They believe that higher concentrations of melanin, the colour pigment in skin and hair, may be placing smokers with darker skins at increased susceptibility to nicotine dependence and tobacco-related carcinogens than lighter-skinned smokers.

“We have found that the concentration of melanin is directly related to the number of cigarettes smoked daily, levels of nicotine dependence, and nicotine exposure among African Americans,” said Gary King, professor of Biobehavioral Health.

Studies conducted in the past have already shown that nicotine has a biochemical affinity for melanin, says the researcher.

He reckons that this association may lead to an accumulation of the addictive agent in melanin-containing tissues of smokers with greater amounts of skin pigmentation.

“The point of the study is that, if in fact, nicotine does bind to melanin, populations with high levels of melanin could indicate certain types of smoking behaviour, dependence, and health outcomes that will be different from those in less pigmented populations. And the addiction process may very well be longer and more severe,” said King.

For their study, the researchers recruited 150 adult African American smokers from three sites in inner city Harrisburg during summer 2007.

The subjects provided the research team with the average number of cigarettes smoked each day, and answered a questionnaire that measured nicotine dependence – the Fagerstrom Test of Nicotine Dependence (FTND).

The researchers also measured amongst the smokers the levels of cotinine, a metabolic by-product of nicotine that can be used as a biomarker for tobacco use.

King and colleagues surmise that, along with tobacco toxicants, nicotine’s half-life may be extended due to the accumulation in melanin-containing tissues.

Statistical analyses of data on the three measures of smoking-cigarettes per day, FTND score, and cotinine levels-along with a host of other variables including age, education and social demographics of the smokers, reveal that facultative melanin-the total amount of melanin acquired genetically plus the amount from the tanning effect of sunlight-is significantly linked to the number of cigarettes smoked per day as well as the FTND score.

This link was not observed with constitutive melanin, which is the amount of melanin solely acquired genetically.

King, however, insists that further research with larger samples of smokers is needed to obtain a clearer picture of the link between skin colour and nicotine addiction.

“We also think that studies conducted at different times of the year and in different geographic regions would help avoid seasonal variations such as the effect of tanning during summer. Additionally, nicotine levels could also be influenced by factors such as consumption of alcohol, amount of exercise, diet, body fat and stress. Future studies will have to control for these factors as well,” King explained.

The findings appear in the June issue of the journal Pharmacology, Biochemistry and Behavior. (ANI)

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Genetic make-up may influence one’s economic decisions

May 6, 2009 By Leave a Comment

Washington, May 6 (ANI): It’s the genetic make-up of a person that determines how he or she would take economic decisions on the basis of whether the options have been framed negatively or positively, according to a study from University College London (UCL).

Decision-making is a complex process, particularly when we are uncertain about outcomes, which in turn depends on whether the options are phrased positively or negatively, known as the “framing effect”.

In earlier research, it was found that the amygdala, an area of the brain known to be involved in processing emotions, becomes active during decisions influenced by the framing effect.

And, in the new study, the researchers have shown that a person’s susceptibility to the framing effect – and the response of their amygdala – could be at least partially influenced by their genetic make-up.

“We know that people from across a variety of cultures are susceptible to biases when making decisions, and that even with training these biases are hard to overcome. This implies that hard-wired genetic influences might play an important role in determining how susceptible different individuals are to the framing effect,” said Dr Jonathan Roiser from the UCL Institute of Cognitive Neuroscience.

They showed that decision-making is affected by variation in the serotonin transporter gene, at a region known as the 5-HTTLPR, which has previously been reported to affect the response of the amygdala and is

The gene is involved in the recycling of serotonin, a neurotransmitter essential for communication between nerve cells.

The researchers analysed two common variants of this gene, known as the “short” and “long” versions and selected thirty healthy volunteers carrying a pair of either of the two variants.

Essentially, those participants with two copies of the short variant were found to be more susceptible to the framing effect.

“This doesn’t mean that people with the short variants are risk takers. In fact, they were risk averse in the ‘gain frame’ whilst risk seeking in the ‘loss frame’, which implies inconsistency in their decision-making,” explained Roiser.

On taking brain images, it was found that participants with two copies of the short genetic variant had greater amygdala responses than their counterparts when making decisions influenced by the frame effect.

They also measured the degree of interaction, or connectivity, between the amygdala and the prefrontal cortex, the brain region most implicated in human intelligence, personality and decision-making

And it was found that while resisting the frame effect, the participants with two copies of the long variant had stronger connectivity between the prefrontal cortex and amygdala, while those with a pair of short variants did not.

“This difference in connectivity is really interesting. It suggests that the volunteers carrying the long variant might regulate automatic emotional responses, which are driven by the amygdala, more efficiently, lessening their vulnerability to the framing effect,” said Roiser.

The study has been published in the Journal of Neuroscience. (ANI)

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Spraying DDT indoors to fight malaria may affect human health

May 5, 2009 By Leave a Comment

Washington, May 5 (ANI): A review of recent studies on the link between DDT and human health has determined that the current practice of spraying the pesticide DDT indoors to fight malaria is leading to unprecedented and insufficiently monitored levels of exposure to it.

The review was done by a panel of experts and citizens.

After a review of nearly 500 epidemiological studies, the researchers developed a consensus statement calling for increased efforts to reduce exposure to DDT, to understand the health effects of exposure to DDT, and to develop alternatives to using DDT so that other methods could ultimately be relied upon for malaria control.

Examples of non-chemical measures to control malaria include the use of bed nets, draining sources of standing water or filling them up with soil, and the rapid diagnosis and treatment of malaria cases.

“We have to put our concerns in the context of people dying of malaria,” said lead author Brenda Eskenazi, UC Berkeley professor of epidemiology and of maternal and child health at the School of Public Health.

“We know DDT can save lives by repelling and killing disease-spreading mosquitoes. But, evidence suggests that people living in areas where DDT is used are exposed to very high levels of the pesticide,” she added.

According to Eskenazi, the only published studies on health effects conducted in these populations have shown profound effects on male fertility.

“Clearly, more research is needed on the health of populations where indoor residual spraying is occurring, but in the meantime, DDT should really be the last resort against malaria rather than the first line of defense,” she said.

The researchers noted that the majority of studies on DDT have focused on the impact on wildlife and the environment.

Of the studies published on human health, almost all have dealt with populations exposed to low, background levels of DDT.

Nevertheless, some of those studies have suggested links between DDT and cancer risk, diabetes, developmental problems in fetuses and in children, and decreased fertility.

“Any studies conducted up to now on the human health effects from DDT exposure may not be relevant to the populations currently exposed to the pesticide through indoor residual spraying,” said Eskenazi.

Moreover, most of the studies on DDT and human health were done in developed countries where the pesticide was banned in the 1970s, the researchers said.

According to co-author Jonathan Chevrier “DDT is now used in countries where many of the people are malnourished, extremely poor and possibly suffering from immune-compromising diseases such as AIDS, which may increase their susceptibility to chemical exposures.” (ANI)

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Women ‘more vulnerable to tobacco carcinogens than men’

May 4, 2009 By Leave a Comment

Washington, May 04 (ANI): A new study, conducted by a team of Swiss researchers, has found that women may be more vulnerable than men to the cancer-causing effects of smoking tobacco.

For the study, the research team examined 683-lung cancer patients who were referred to a cancer centre in St Gallen between 2000 and 2005.

They found that women tended to be younger when they developed the cancer, despite having smoked on average significantly less than men.

“Our findings suggest that women may have an increased susceptibility to tobacco carcinogens,” report Dr Martin Frueh and colleagues.

Dr Enriqueta Felip from Val d’Hebron University Hospital in Barcelona, Spain, conference co-chair, said that the results of the study back a growing awareness that smoking presents greater risks to women than men.

“Lung cancer is not only a man’s disease, but women tend to be much more aware of other cancers, such as breast cancer. Several case-control studies seem to suggest that women are more vulnerable to tobacco carcinogens than men,” she said.

The study has been reported at the European Multidisciplinary Conference in Thoracic Oncology (EMCTO), Lugano, Switzerland. (ANI)

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New virus is not ‘swine flu’, Paris-based health organization says

May 3, 2009 By Leave a Comment

Paris – The virus currently circulating in Mexico and the United States and which has killed at least 20 people is not swine flu, the Paris-based World Organization for Animal Health (OIE) said Monday. “The virus has not been isolated in animals to date. Therefore, it is not justified to name this disease swine flu,” the OIE said in a press statement.

The virus “includes in its characteristics swine, avian and human virus components,” the OIE said, and urged that it be called “North American influenza,” after its geographic origin.

The OIE said it was “urgent” that scientific research be carried out to determine the susceptibility of animals to what it said was a “new virus.”

If animals were susceptible, “virus circulation could worsen the regional and global situation for public health,” the organization said.(dpa)

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NASA ‘nano satellite’ to study how effectively drugs work in space

May 2, 2009 By Leave a Comment

Washington, April 29 (ANI): NASA is preparing to fly a nano satellite about the size of a loaf of bread that could help scientists better understand how effectively drugs work in space.

The nanosatellite, known as PharmaSat, is a secondary payload aboard a U.S. Air Force four-stage Minotaur 1 rocket planned for launch the evening of May 5.

PharmaSat weighs approximately 10 pounds.

It contains a controlled environment micro-laboratory packed with sensors and optical systems that can detect the growth, density and health of yeast cells and transmit that data to scientists for analysis on Earth.

PharmaSat also will monitor the levels of pressure, temperature and acceleration the yeast and the satellite experience while circling Earth at 17,000 miles per hour.

Scientists will study how the yeast responds during and after an antifungal treatment is administered at three distinct dosage levels to learn more about drug action in space, the satellite’s primary goal.

“Secondary payload nanosatellites expand the number of opportunities available to conduct research in microgravity by providing an alternative to the International Space Station or space shuttle conducted investigations,” said Elwood Agasid, PharmaSat project manager at NASA’s Ames Research Center in Moffett Field, California.

“The PharmaSat spacecraft builds upon the GeneSat-1 legacy with enhanced monitoring and measurement capabilities, which will enable more extensive scientific investigation,” he added.

After PharmaSat separates from the Minotaur 1 rocket and successfully enters low Earth orbit at approximately 285 miles above Earth, it will activate and begin transmitting radio signals to two ground control stations.

When NASA spaceflight engineers make contact with PharmaSat, which could happen as soon as one hour after launch, the satellite will receive a command to initiate its experiment, which will last 96 hours.

Once the experiment begins, PharmaSat will relay data in near real-time to mission managers, engineers and project scientists for further analysis.

The nanosatellite could transmit data for as long as six months.

“PharmaSat is an important experiment that will yield new information about the susceptibility of microbes to antibiotics in the space environment,” said David Niesel, PharmaSat’s co-investigator from the University of Texas Medical Branch Department of Pathology and Microbiology and Immunology in Galveston.

“It also will prove that biological experiments can be conducted on sophisticated autonomous nanosatellites,” he added. (ANI)

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