Stem cell transplantation may correct rare genetic disorder in kids

September 19, 2009 By Leave a Comment

Washington, Sep 18 (ANI): Scripps Research Institute scientists have offered new hope for parents whose children suffer from the rare genetic disorder ‘cystinosis’ by showing through an experiment on mice that stem cell transplantation can successfully correct the defect.

“After meeting the children who suffer from this disease, like an 18-year-old who has already had three kidney transplants, and the families who are desperately searching for help, our team is committed to moving toward a cure for cystinosis, a lysosomal storage disorder. This study is an important step toward that goal,” said principal investigator Stephanie Cherqui.

In the study, the researchers used bone marrow stem cell transplantation to address symptoms of cystinosis in a mouse model.

The procedure virtually halted the cystine accumulation responsible for the disease, and the cascade of cell death that follows.

Cystine is a by-product of the break down of cellular components the body no longer needs in the cell’s “housekeeping” organelles, called lysosomes.

Normally, cystine is shunted out of cells, but in cystinosis a gene defect of the lysosomal cystine transporter causes it to build up, forming crystals that are especially damaging to the kidneys and eyes.

Cystinosis is a rare but devastating disease affecting children as young as six months, who begin to suffer renal dysfunction, which grows progressively worse with time. Other symptoms include diabetes, muscular disease, neurological dysfunction, and retinopathy.

The only available drug to treat cystinosis, cysteamine, while slowing the progression of kidney degradation, does not prevent it, and end-stage kidney failure is inevitable.

In the new study, the researchers found that transplanted bone marrow stem cells carrying the normal lysosomal cystine transporter gene abundantly engrafted into every tissue of the experimental mice.

This led to an average drop in cystine levels of about 80 percent in every organ.

Not only it prevented kidney dysfunction, there was less deposition of cystine crystals in the cornea, less bone demineralization, and an improvement in motor function.

“The results really surprised and encouraged us. Because the defect is present in every cell of the body, we did not expect a bone marrow stem cell transplant to be so widespread and effective,” says Cherqui.

Cherqui said that adult bone marrow stem cell therapy is particularly well suited as a potential treatment for cystinosis because these cells target all types of tissues.

In addition, stem cells reside in the bone marrow for the duration of a patient’s life, becoming active as needed, a particular benefit for a progressive disease like cystinosis.

The study has been published in the journal Blood. (ANI)

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Master gene that switches on disease-fighting cells identified

September 14, 2009 By Leave a Comment

London, Sep 14 (ANI): British scientists have identified the master gene, called E4bp4, that causes blood stem cells to turn into disease-fighting ‘Natural Killer’ (NK) immune cells.

The discovery, by researchers at Imperial College London, UCL and the Medical Research Council’s National Institute for Medical Research, could one day help scientists boost the body’s production of these frontline tumour-killing cells, creating new ways to treat cancer.

By ‘knocking out’ E4bp4 in a mouse model, the researchers created the world’s first animal model entirely lacking NK cells, but with all other blood cells and immune cells intact.

The breakthrough model should help solve the mystery of the role that Natural Killer cells play in autoimmune diseases, such as diabetes and multiple sclerosis.

According to many scientists, these diseases are a result of malfunctioning NK cells that turn on the body and attack healthy cells, which cause disease instead of fighting it.

They believe that clarifying NK cells’ role could lead to new ways of treating these conditions.

Natural Killer cells – a type of white blood cell – are a major component of the human body’s innate, quick-response immune system, providing a fast frontline defence against tumours, viruses and bacterial infections.

The gene E4bp4 is the ‘master gene’ for NK cell production, which means it is the primary driver that causes blood stem cells in the bone marrow to differentiate into NK cells.

Led by Dr Hugh Brady, the researchers are hoping to progress with a drug treatment for cancer patients which reacts with the protein expressed by their E4bp4 gene, causing their bodies to produce a higher number of NK cells than normal, to increase the chances of successfully destroying tumours.

“If increased numbers of the patient’s own blood stem cells could be coerced into differentiating into NK cells, via drug treatment, we would be able to bolster the body’s cancer-fighting force, without having to deal with the problems of donor incompatibility,” Nature quoted Brady as saying.

The researchers proved the pivotal role E4bp4 plays in NK production when they knocked the gene out in a mouse model.

Without E4bp4 the mouse produced no NK cells whatsoever but other types of blood cell were unaffected.

“Now finally, with our discovery of the NK cell master gene and subsequent creation of our mouse model, we will be able to find out if the progression of these diseases is impeded or aided by the removal of NK cells from the equation. This will solve the often-debated question of whether NK cells are always the ‘good guys’, or if in certain circumstances they cause more harm than good,” said Brady.

The study has been published in Nature Immunology. (ANI)

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Milla Jovovich once ate curdled camel’s cheese!

September 2, 2009 By Leave a Comment

Washington, September 2 (ANI): Actress Milla Jovovich has confessed that she ate curdled camel’s cheese when she visited Mongolia.

“I had to try curdled camel’s cheese and it was pretty disgusting, but I was in Mongolia,” Contactmusic quoted her as telling Empire magazine.

The ‘Resident Evil’ star added that she did not wish to offend the locals who offered her the “disgusting” snack.

She said: “You have to be polite and take a bite of it because it’s all they have, and they want to share it with you because they’re generous people.”

And it isn’t the first occasion the beauty has eaten something unusual.

When she was pregnant in 2007, she searched all of Paris for “the leg of a cow”.

She said: “I was craving bone marrow one day, and I scoured the whole of Paris searching for the leg of a cow.

“When I finally found what I was looking for, I cut it in half, digging out the yellowish substance, slathering it all over bread.” (ANI)

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New stem cell op may prevent thousands from having hip replacements

September 1, 2009 By Leave a Comment

London, August 31 (ANI): British surgeons at the Spire Hospital in Southampton are using a novel technique that uses stem cells to repair damaged bones.

Media reports on this procedure suggest that it may prevent thousands of people from needing to have an artificial hip fitted.

Mark Venables, 39, is one patient on whom doctors at the Spire Hospital conducted one of their first operations.

He suffers from a condition where bone in his hip died, weakening his joint and causing pain on movement.

The surgeons at the hospital used his own stem cells to rejuvenate the affected bone.

“I just want to get back to an active life,” Sky News quoted Venables as saying before the operation.

For the operation, the surgeons first purified stem cells from bone marrow that they had extracted from Venables’ pelvis.

The doctors then mixed them with cleaned, ground-up bone from another patient, who had had their own hip replaced.

After removing the dead tissue from the ball of his hip, the doctors filled the cavity with the mixture of stem cells and donated bone.

Surgeon Doug Dunlop said that the bone would have collapsed without the stem cell treatment, and that Venables would have then needed an artificial hip joint.

“If this new procedure works, he won’t need a hip replacement. It will fix his hip for life,” said Dunlop.

To date, six patients have been operated using the new procedure, and only one surgery has failed.

Professor Richard Oreffo, of Southampton University, is now hoping to improve the technique further by replacing the donated bone with an artificial material containing chemicals that help the stem cells grow.(ANI)

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MRI methods can show bone marrow stem cells’ viability as brain-repairing therapy

August 20, 2009 By Leave a Comment

Washington, August 20 (ANI): Researchers at Tel Aviv University have offered new hope for people with incurable neurodegenerative diseases like Huntington’s, Alzheimer’s, and Parkinson’s by showing that the viability of stem cells created from a patient’s own bone marrow can be determined using MRI tracking methods.

Dr. Yoram Cohen, of TAU’s School of Chemistry, claims that he has been able to track the progress of the innovative cells called mesenchymal stem cells within the brain.

He says that initial studies indicate that it is possible to identify unhealthy or damaged tissues, migrate to them, and potentially repair or halt cell degeneration.

“By monitoring the motion of these cells, you get information about how viable they are, and how they can benefit the tissue. We have been able to prove that these stem cells travel within the brain, and only travel where they are needed. They read the chemical signalling of the tissue, which indicate areas of stress. And then they go and try to repair the situation,” he says.

During the study, Dr. Cohen and his colleagues tracked the activity of the live cells within the brain using the in-vivo MRI at the Strauss Centre for Computational Neuro-Imaging, with a view to establishing their viability as a therapy for neurodegenerative disease.

The researchers used magnetic iron oxide nanoparticles to label the stem cells, so that they could be identified as clear black dots on an MRI picture after being injected into the brain.

The stem cells were then injected into the brain of an animal that had an experimental model of Huntington’s disease, which suffered from a similar neuropathology as the one seen in human patients.

On MRI, it was possible to watch the stem cells migrating towards the diseased area of the brain.

“Cells that go toward a certain position that needs to be rescued are the best indirect proof that they are live and viable. If they can migrate towards the target, they are alive and can read chemical signalling,” says Dr. Cohen.

He believes that the benefits of using differentiated mesenchymal cells (MSC) may be numerous.

“Bone marrow-derived MSCs bypass ethical and production complications, and in the long run, the cells are less likely to be rejected because they come from the patients themselves. This means you don’t need immunosuppressant therapy,” he says.

Dr. Cohen has revealed that the next step in his research will be to develop a real-life therapy for those suffering from neurodegenerative diseases.

A researcher article on his study has been published in the journal Stem Cells. (ANI)

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Genetic key to breast cancer’s ability to survive and spread identified

July 8, 2009 By Leave a Comment

Washington, July 7 (ANI): Scientists have found a genetic function behind breast cancer cells’ ability to survive and spread to the bone years after treatment has been administered.

Led by investigators at Memorial Sloan-Kettering Cancer Center (MSKCC), the study comes as scientists are looking for therapies to target this survival capacity and force the death of latent breast cancer cells before they get a chance to metastasize, or spread – a problem that accounts for a majority of breast cancer-related deaths.

The researchers used gene-expression profiling techniques, and found that breast cancer cells that infiltrate the bone marrow could survive over time, if they contained the gene product Src.

Src has known effects on cell mobility, invasion, and survival.

By genetically disabling Src activity in human breast cancer cells, it was possible to inhibit these cells from surviving in the bone marrow and forming metastases in mice.

The researchers also saw that treatment with the drug dasatinib inhibits the formation of bone metastasis by human breast cancer cells inoculated into mice.

“Our results should encourage oncologists to consider the study of Src inhibitors to attack reservoirs of disseminated, latent cancer cells and prevent metastasis in breast cancer patients after their tumour has been removed,” said the study’s senior author, Dr. Joan Massague.

The research has been published in the journal Cancer Cell. (ANI)

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Novel targeted therapy shows promise to eliminate leukaemia stem cells

July 3, 2009 By Leave a Comment

Washington, July 3 (ANI): A piece of research has shown that it is possible to eliminate stem cells related to human acute myeloid leukemia (AML), a notoriously treatment-resistant blood cancer, using a new targeted therapy.

Associate Professor Richard Lock, from the Children’s Cancer Institute Australia and the University of New South Wales, has revealed that the new therapeutic approach has been found to selectively attack human cancer cells grown in the lab as well as in animal models of leukaemia.

AML is a cancer of the white blood cells that has an extremely poor prognosis and does not respond well to conventional chemotherapy.

“The cellular and molecular basis for this dismal picture is unclear. However, previous research has suggested that leukaemia stem cells (LSCs) may lie at the heart of post-treatment relapse and chemoresistance,” says Lock.

LSCs are cells that can initiate AML and are critical for its long-term growth.

Lock and his colleagues exploited the fact that the molecule CD123 is expressed at very high levels on LSCs but not on normal blood cells.

The researchers created a therapeutic antibody that recognized and bound to CD123, hoping that the antibody would selectively interfere with AML-LSC survival.

When AML-LSCs from human patients were transplanted into mice treated with the antibody, called 7G3, cytokine signalling in the tumour cells was blocked.

The research team also observed that 7G3 impaired migration of the AML-LSCs to bone marrow, and activated the innate immune system of the host mouse to destroy the AML-LSCs.

They say that, overall, treatment with 7G3 substantially improved mouse survival when compared with control groups.

Lock and his colleagues are currently using a CD123-targeting antibody in phase 1 clinical trials of advanced AML. They say that there are no signs of treatment-related toxicity.

These results hold substantial promise for future cancer therapeutics.

“The recent characterization of defined populations of cancer stem cells in a range of human malignancies, as well as their relative resistance to conventional chemotherapy and radiotherapy, supports the broad applicability of our approach and provides rationale for the progression of AML-LSC-targeted therapeutics from preclinical evaluation to clinical trials,” concludes Associate Professor Lock.

A research article on the study has been published in the journal Cell Stem Cell. (ANI)

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Bone marrow extract therapy after heart attack improves cardiac function

June 30, 2009 By Leave a Comment

Washington, June 30 (ANI): A new study has found that an extract derived from bone marrow cells is as effective as therapy using bone marrow stem cells for improving cardiac function after a heart attack.

The study was conducted in mice using a novel stem cell delivery method developed by researchers to show that the extract from bone marrow cells is as beneficial to cardiac function as are intact, whole cells.

Both the cell and cell extract therapies resulted in the presence of more blood vessels and less cardiac cell death, or apoptosis, than no therapy.

The study also showed that heart function benefitted despite the finding that few of the injected cells remained in the heart at one month after therapy.

“Peer-reviewed medical literature is controversial as to whether bone marrow cells differentiate into cardiomyocytes, or cardiac muscle cells, but there is general agreement that stem cell therapy with these cells results in some level of functional improvement after a heart attack. The exact mechanism for this is not yet clear,” said Yerem Yeghiazarians, MD, study author, cardiologist and director of UCSF’s Translational Cardiac Stem Cell Development Program.

“Our results confirm that whole cells are not necessarily required in order to see the beneficial effects of bone marrow cell therapy,” Yeghiazarians added.

Researchers are investigating these new therapies to improve cardiac function after heart attack in an effort to prevent heart failure.

“Current therapies improve symptoms but do not replace scar tissue. Our hope is to use stem cells to decrease the scar, minimize the loss of cardiac muscle and maintain or even improve the cardiac function after a heart attack,” Yeghiazarians said.

The researchers are conducting further studies to evaluate bone marrow cell and extract therapies in order to identify the proteins and factors within the extract and gain insight into the possible mechanisms of cardiac functional improvement.

The findings were published online and in the July 2009 issue of the Journal of Molecular Therapy. (ANI)

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Non-invasive stem cell procedure shows promise to repair heart tissue

May 29, 2009 By Leave a Comment

Washington, May 29 (ANI): For the first time, researchers at the University at Buffalo have shown that it is possible to repair cardiac tissue and, in turn, reverse heart failure by injecting adult bone marrow stem cells into skeletal muscle.

The researchers used an animal model to demonstrate that the non-invasive procedure could increase myocytes, or heart cells, by two-fold and reduce cardiac tissue injury by 60 percent.

In addition, the therapy improved function of the left ventricle-the primary pumping chamber of the heart-by 40 percent.

It even reduced fibrosis-the hardening of the heart lining that impairs its ability to contract-by up to 50 percent.

“This work demonstrates a novel non-invasive mesenchymal stem cell (MSC) therapeutic regimen for heart failure based on an intramuscular delivery route,” said Dr. Techung Lee, UB associate professor of biochemistry and senior author on the paper.

Mesenchymal stem cells are found in the bone marrow, and can differentiate into a variety of cell types.

Lee said: “Injecting MSCs or factors released by MSCs improved ventricular function, promoted myocardial regeneration, lessened apoptosis (cell death) and fibrotic remodeling, recruited bone marrow progenitor cells and induced myocardial expression of multiple growth factor genes.

“These findings highlight the critical ‘cross-talks’ between the injected MSCs and host tissues, culminating in effective cardiac repair for the failing heart.

“An important feature of MSCs is their ability to produce a plethora of tissue healing effects, known as “tropic factors,” which can be harnessed for stem cell therapy for heart failure.

The multiple trophic factors produced by MSCs have already been shown to be capable of reducing tissue injury, inhibiting fibrosis, promoting angiogenesis, stimulating recruitment and proliferation of tissue stem cells, and reducing inflammatory oxidative stress, a common cause of cardiovascular disease and heart failure.

Lee added: “Since skeletal muscle is the most abundant tissue in the body and can withstand repeated injection of large number of stem cells, we thought it would be a good method to deliver MSCs. We hypothesized that MSCs, via secretion of these functionally synergistic trophic factors, would be able to rescue the failing heart even when delivered away from the myocardium.

“This study proves our hypothesis. We’ve demonstrated that injecting MSCs, or trophic factors released by MSCs, into skeletal muscle improved ventricular function, promoted regeneration of heart tissue, decreased cell death and improved other factors that cause heart failure.

“This non-invasive stem cell administration regimen, if validated clinically, is expected to facilitate future stem cell therapy for heart failure.”

The development has been reported in a paper appearing online in the Articles-in-Press section of the American Journal of Physiology-Heart Circulation Physiology. (ANI)

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Gene behind a rare form of congenital anaemia identified

May 9, 2009 By Leave a Comment

London, May 9 (ANI): Scientists have found the gene, called SLC25A38, which causes congenital sideroblastic anaemia-a rare disease mainly characterized by the presence of ringed sideroblasts in the patients’ bone marrow.

The research is a Genome Canada project, which is co-directed by Dr. Mark Samuels, an investigator with the Sainte-Justine University Hospital Research Center.

The team of scientists identified three families from Canada’s Maritime provinces, and all of them had a child suffering from this disease.

Although the families were not related officially, the researchers believed that it was possible to establish a genealogical link uniting them generations ago and that they exhibited what is called a founder effect.

By using new technologies developed by the Human Genome Project, the molecular analysis team succeeded in defining a genomic region, which was suspected to inhabit the gene responsible for congenital sideroblastic anaemia in these families.

Direct resequencing of the gene made it possible to identify a causal mutation in a gene to which no physiological role could have been attributed.

Later, the researchers identified 10 additional causal mutations of this gene in other unexplained cases of congenital sideroblastic anaemia, and also showed a direct role of the gene in haemoglobin synthesis in zebra fish.

This is the first disease of this type associated with the SLC25A38 gene, reports Nature magazine.

The discovery of the gene can now offer patients and their family members direct molecular confirmation of their condition, allowing them to know whether they are sufferers or asymptomatic carriers of the disease.

Generally speaking, the feat shows that even well known scientific processes, such as haemoglobin biosynthesis, still have surprises in store.

The study is published in the latest electronic edition of the journal Nature Genetics. (ANI)

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Has the cure for HIV been discovered?

May 2, 2009 By Leave a Comment

p
London, Apr 27 (ANI): Taking a major leap in AIDS research, scientists have claimed that they have found a cure for the HIV virus by using a long established cancer treatment to help destroy the killer disease-bone marrow transplants./pp
Doctors have successfully treated one patient using the method and are confident the process will work for other sufferers./pp
In their opinion, using of bone marrow transplants to cure HIV could become common in just five years./pp
The procedure involves using bone marrow stem cells already used to help beat blood cancers like leukaemia and lymphoma./pp
The man who was cured of HIV is 43 years old and had carried the virus for many years. He was also suffering from leukaemia./pp
He was treated after doctors exchanged his bone marrow with that of a donor with a rare natural resistance to HIV./pp
And since three years of treatment, he has no detectable signs of the disease in his body./pp
I can see the day when it might be possible to treat many HIV patients with a bone marrow transplant from people who have this natural resistance to the virus, The Daily Express quoted Professor Eckhard Thiel of the Charite University Hospital in Berlin, who led the research, as saying./pp
He added: We are convinced this treatment works. The patient we treated three years ago is perfectly healthy and we are sure the HIV virus has gone and will not come back. But we will want to carry out trials on other patients./pp
Our patient is doing very well and is completely clear of the virus and living a normal life./pp
At present treatment will be limited as only three per cent of the world’s population are immune from HIV./pp
But experts believe that they could take the bone marrow from a few donors and grow an inexhaustible supply of stem cells in the laboratory, thus treating many thousands of sufferers./pp
Details of the advance were revealed at the annual meeting of the European Group for Blood and Marrow Transplantation in Gothenburg, Sweden, and published in the New England Journal of Medicine. (ANI)/p

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Blood cells can be reprogrammed to act as embryonic stem cells

April 21, 2009 By Leave a Comment

Washington, Apr 21 (ANI): Embryonic stem cells have long been coveted for their potential to treat a multitude of diseases. Now, researchers have successfully reprogrammed cells found in circulating blood into cells that are molecularly and functionally indistinguishable from embryonic stem cells.

The new study may provide a readily accessible source of stem cells and an alternative to harvesting embryonic stem cells.

“Our findings provide the first proof that cells from human blood can morph into stem cells,” said senior study author Dr George Q. Daley, an investigator for the Howard Hughes Medical Institute at Children’s Hospital, Boston.

“Making pluripotent stem cells from blood, which is one of the easiest tissues to obtain, provides an easy strategy for generating patient-specific stem cells that are valuable research tools and may one day be used to treat a number of diseases,” he added.

To produce the new stem cells called pluripotent (iPS), the researchers collected the blood from a 26-year-old male donor.

From the blood sample, they isolated CD34+ cells, a type of stem cell that produces only blood cells, and cultured them in growth factors for six days to increase their number.

During the culture, the scientists infected the CD34+ cells with viruses carrying reprogramming factors, genes normally expressed in embryonic stem cells that can reset the blood cells to an embryonic state.

Colonies of cells exhibiting physical characteristics similar to embryonic stem (ES) cells appeared about two weeks after the procedure.

In further studies, the iPS cells readily developed into clusters of cells called embryoid bodies from which cells of virtually any type can develop.

“Not only has this work identified a new programmable cell type, but the cells are easy to obtain and analyze in many research laboratories and bone marrow transplantation centers around the world,” said Dr Grover C. Bagby, Professor of Medicine and Molecular and Medical Genetics at Oregon Health and Science University.

The study appears online in journal Blood. (ANI)

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Mumbai Becomes First Indian City To Have Bone Marrow Database

April 14, 2009 By Leave a Comment

Thus far, foreign countries had marrow donor registries, but now, India has also registered its name in the same list.

India’s Mumbai first became the first to join the league with the Marrow Donor Registry India (MDRI).

MDRI will be a database of bone marrow donors and the donor marrow can be used treating patients fighting life-threatening blood disorders in India or abroad.

Bone marrow transplants are still a rarity in India, mainly because no there’re no registries.

According to data, around 40,000 Indians suffering from blood disorders including leukaemia, aplastic anaemia, sickle-cell anaemia and such, lost their lives for want of donors, and just 30% of those have any chance of finding a match within their families, whereas the remaining have to depend upon unrelated donors.

At a seminar on Saturday, Dr. Sunil Parekh, haematologist at Bombay Hospital, stated, “The intention of setting up a bone marrow registry with a national reach was to eliminate these problems that patients encounter.”

The bone marrow registry is housed in Parel’s Tata Memorial Hospital, and has already recorded 1,349 donors. The All India Institute of Medical Science, Delhi started the first marrow donor registry in India.

The marrow donor registry at Tata has an advisory panel with specialists and will have access to international databases also.

“It is connected to registries in Australia, Japan, France, Germany, Scandinavia, Italy, Denmark, the US and UK,” said Dr. Ashok Kirpalani of the Indian Society of Organ Transplant, the NGO that worked closely with Tata Hospital to set up the registry.

Representatives from the registry will go to colleges and business houses in order to find donors.

According to Kirpalani, in the absence of donor registries in India, patients face two problems, “First it is hard to find a donor-match for a patient in India in western registries due to our genetic differences. Second Indians who are able to find a match, have to go abroad for the transplant costing Rs1 crore to Rs1.5 crore.”

Dr. Mammen Chandy of the CMC Hospital, Vellore, said there was a great requirement for an Indian registry.

During the last nine months, the CMC has carried out only nine transplants, and the bone marrow had to be brought in from Germany and the US.

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Key gene that protects against leukaemia identified

April 9, 2009 By Leave a Comment

Washington, Apr 9 (ANI): Paving the way for a targeted treatment for leukaemia and other blood cancers, scientists have found a gene called JunB that controls the rapid production and differentiation of the stem cells that produce all blood cell types.

The investigators have also uncovered evidence that could lead to a protocol for bone marrow transplants that could boost the chance of a cure in some patients.

Led by Dr. Emmanuelle Passegue, of the University of California, San Francisco, the research team has shown that the JunB gene is at the centre of a complex network of molecular and environmental signals that regulate the proliferation and differentiation of hematopoietic stem cells.

Hematopoietic stem cells are the multipotent, self-renewing cells that give rise to all blood cell types.

For the study, the researchers studied the behaviour of JunB-deficient HSCs in both the culture dish and when transplanted into mice.

In every case wherein engraftment of the HSCs occurred in the mice, the scientists noted a progressive expansion of the myeloidlineage, which constitutes a type of mature white blood cell that fights infection.

After 6 to 12 months of transplantation, the expansion led to the development of a myeloproliferative disease, which can evolve to leukaemia.

The finding indicated that the proliferating JunB-deficient HSCs causes leukaemia, say the researchers.

JunB curtails both the rate at which HSCs are proliferating and the rate of differentiation toward the myeloid lineage that ultimately results in leukaemia.

When JunB is absent, HSCs lose their ability to respond to signals from the protein receptors Notch and TGF-beta, which reside on the cells’ surface and play critical roles in determining cell fate.

“By uncovering this mechanism, we might one day be able to determine the difference between normal HSCs and leukemic stem cells in gene regulatory networks. This could allow us to develop more targeted therapies. These kinds of therapeutic applications are still down the road, but they can happen very quickly in the blood/leukemia field,” said Passegue.

The study demonstrated that JunB does not affect the cells’ potential for unlimited self-renewal.

The study has been published in the journal Cancer Cell. (ANI)

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Novel stem cell therapy may treat deafness

March 29, 2009 By Leave a Comment

Washington, Mar 29 (ANI): In a breakthrough study, researchers have developed a new stem cell therapy that may help in treating hearing impairment.

Deafness typically involves the loss of sensory receptors, called hair cells, for their “tufts” of hair-like protrusions, and their associated neurons.

Led by Dr. Marcelo N. Rivolta of the University of Sheffield, researchers have has successfully isolated human auditory stem cells from foetal cochleae (the auditory portion of the inner ear) and found that they could be differentiated into sensory hair cells and neurons.

The researchers carefully dissected and cultured cochlear cells from 9-11 week-old human fetuses.

They then expanded the cells and maintained in vitro for up to one year, with continued division for the first 7 to 8 months and up to 30 population doublings, which is similar to other non-embryonic stem cell populations, such as bone marrow.

Gene expression analysis showed that all cell lines expressed otic markers that lead to the development of the inner ear as well as markers expressed by pluripotent embryonic stem cells, from which all tissues and organs develop.

The researchers could formulate conditions that allowed for the progressive differentiation into neurons and hair cells with the same functional electrophysiological characteristics as cells seen in vivo.

“The results are the first in vitro renewable stem cell system derived from the human auditory organ and have the potential for a variety of applications, such as studying the development of human cochlear neurons and hair cells, as models for drug screening and helping to develop cell-based therapies for deafness,” said the authors.

Although the hair cell-like cells did not show the typical formation of a hair bundle, the authors suggest that future studies will aim to improve the differentiation system.

Now, the researchers are working on using the knowledge from this study to optimise the differentiation of human embryonic stem cells into ear cell types.

“Although considerable information has been obtained about the embryology of the ear using animal models, the lack of a human system has impaired the validation of such information,” noted the authors.

Dr Ralph Holme, director of biomedical research for Royal National Institute for Deaf and Hard of Hearing People, said: “There are currently no treatments to restore permanent hearing loss so this has the potential to make a difference to millions of deaf people.”

The study is published in the April issue of Stem Cells. (ANI)

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Novel technique uses stem cells to repair torn knee cartilage

March 25, 2009 By 1 Comment

London, Mar 25 (ANI): Scottish scientists are planning to test a new technique of “knitting together” torn knee tissue using stem cells in patients.

Professor Anthony Hollander said researchers hoped to mend torn knee cartilage – a common injury among young sportsmen and women.

It is being believed that the technique could prevent patients suffering serious knee problems, including osteoarthritis, for years to come.

Speaking at a Scottish Stem Cell Network conference in Edinburgh yesterday, Hollander, a Bristol University researcher, told scientists about the work.

The trials include patient tests of a stem cell technique to mend tears in the part of the knee cartilage known as the meniscus.

Hollander told The Scotsman: “At the moment, there’s no way to treat this (cartilage]. It is just cut out, and that leaves the patient very susceptible to osteoarthritis within a short number of years.”

He said the technique involves implanting stem cells on a membrane into the middle of the lesion and sewing it up.

“It is designed in a way that the cells will migrate across the lesion and literally knit it together. So, instead of growing new tissue, it’s healing the lesion itself,” he added.

The stem cells used will come from the patient’s own bone marrow, reducing the chance of them being rejected. (ANI)

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Chelsea football star Deco’s son battling a life threatening illness

February 23, 2009 By Leave a Comment

London, Feb.23 (ANI): Chelsea star Deco’s toddler son is battling a life-threatening illness.

According to The Sun, the midfielder has been told that his son David Luiz has a rare condition that weakens his immune system.

Doctors conducted tests on the youngster when he was rushed into intensive care with a fever while on holiday in Brazil with his mum.

Now, they have told Deco, 31, and his estranged wife Jaciara Diaz, 32, their son will need a painful bone marrow transplant in three or four years’ time unless his condition improves.

The Brazilian-born footballer has been making dozens of long-distance phone calls for updates on his son’s health.

Ex-model Jaciara, who split with Deco in March last year, said: “The doctors tell us that for now a bone-marrow transplant is not necessary.

“But when he is five or six, we’ll probably have to deal with it. I have to be vigilant all the time. I never know when he’s going to suffer a setback.”

Jaciara and both her children by Deco – David Luiz and daughter Yasmin, five, – now live in Barcelona but were on holiday in the coastal city of Salvador when the tot fell ill last month.

Now Jaciara is hoping he will be well enough to fly back to Spain next week after doctors complete their checks. (ANI)

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Study sheds light on the body’s healing secrets

February 14, 2009 By Leave a Comment

Washington, February 13 (ANI): Scientists at the Centenary Institute have found a mechanism that helps control the development of endothelial cells, which are critical to the regulation of the growth and function of blood vessels, which in turn play a key role in the prevention and treatment of conditions like cardiovascular disease and diabetes.

Professor Jenny Gamble, Head of the Vascular Biology program at Centenary, hightlights the fact that the process whereby endothelial progenitor cells (EPCs) change to mature endothelial cells is an important, but little understood, control.

“If endothelial cell lining is injured or damaged, for example during wound healing, an organ transplant or heart attack, the EPC leave the bone marrow, circulate in the blood and home to the site of the injury where they continue to repair and are induced to become mature cells,” she says.

She and her colleagues have found that this process, known as differentiation, is partly controlled by the enzyme sphingosine kinase-1.

“We found that high levels of SK-1 keep the cells as EPCs whereas a decrease in the amount of SK-1 allows the cell to differentiate to functionally mature endothelial cells,” say the researchers.

Writing about their work in the journal Blood, the researchers said that understanding the fundamental tools used by the body to heal itself could help manipulate this process to create new treatments.

They point out that the vascular complications of diabetes are attributed, in part, to the decreased numbers and function of EPCs, and that stents are used extensively for the treatment of cardiovascular disease.

However they can often be problematic because of a lack of good endothelial cell coverage.

Professor Mathew Vadas, the Executive Director of the Centenary Institute, says that an increased understanding of the process of differentiation may allow SK-1 to be manipulated to drive this process, and therefore improve treatments of these diseases in the future. (ANI)

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Osteoblast cell injections may speed up fracture healing

February 12, 2009 By Leave a Comment

Washington, Feb 12 (ANI): Osteoblast cell obtained from a patient’s own bone marrow can help quicken the healing of a long bone fracture, according to a new study.

Dr Seok-Jung Kim from the Catholic University College of Medicine, Seoul, involved 64 patients in their study, of which 31 were given the ‘Osteoblast’ treatment and 33 left to recover the normal way.

The researchers observed that the patients injected with the ‘osteoblast cell’ healed faster that the normally treated ones.

“The cultured osteoblast injection group showed fracture healing acceleration of statistical significance, and there were no specific patient complications when using this treatment. Cultured osteoblast injection should therefore be considered as a successful treatment option for long-bone fracture,” Dr. Kim said.

“There was significantly more bone growth in the experimental group, compared to the control group. Autologous cultured osteoblast transplant is a safe and effective method for accelerating the rate of fracture healing,” he added.

Dr. Kim points out that the bone union process is often left to natural healing, and such cases are generally so delayed that they eventually need bone transplants.

The researcher says that ‘Osteoblast cell’ injections can prove beneficial in such cases.

“Time has increasingly become the most important factor in clinical decision-making. While fractures generally will eventually heal, bone union can frequently be delayed to the extent that it requires bone transplantation. Not only does this cause psychological and physical pain to the individual patient, it’s also not economically viable,” Dr. Kim said.

“Although bone transplant remains the most effective method of bone union, osteoblast injections provide an alternative which can be performed under local anesthesia with no requirement for surgery,” Dr. Kim added.

The study has been published in the open access journal BMC Musculoskeletal Disorders. (ANI)

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Rihanna steps forward to help 5-year-old leukemia victim

February 9, 2009 By Leave a Comment

London, Feb 9 (ANI): Pop star Rihanna is helping a 5-year-old girl suffering from leukemia by finding a bone marrow donor for her.

Jasmina Amena has been struggling to find a donor, who can add relief to her life.

However, the ‘Umbrella’ hitmaker, who was deeply touched when she came to know about the New York girl’s plight, has taken the initiative to help the girl.

“When I saw her video, it broke my heart,” the Sun quoted Rihanna, as saying.
“It is so unfair that for a black patient it is so much harder to find a bone marrow match,” Rihanna added.

Jasmian, who has been in hospital since January 20, is touched by Rihanna’s gesture.

“Rihanna loves children. I’m so excited,” Jasmina said. (ANI)

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