Targeted treatment for prostate cancer to be tested

April 17, 2010 By Leave a Comment

Washington, April 17 (ANI): Researchers at the University of Cincinnati are set to test targeted treatment for prostate cancer.

The partnership with Areva Med will see UC scientists using the lab of Zhongyun Dong, PhD, to test the efficacy of a new agent targeted against a specific protein on the surface of the tumour.

Dong, an associate professor of hematology oncology in the department of internal medicine, said: “It”s been shown that human prostate cancer cells overexpress some proteins on their surface.

“This overexpression presents a novel target for management of advanced prostate cancer.”

According to Dong, previous radiation therapy targeting these proteins has been shown to inhibit tumor growth in several animal models.

UC”s study will be the first to explore this approach for prostate tumours.

In the work, researchers will bind the isotope 212-lead to an antibody targeting one of these proteins.

Dong said: “When administered intravenously, the AREVA Med 2120lead-antibody is designed to bind to the tumor”s surface, emit alpha particles in and selectively destroy the tumor cells.”

In the study, expected to run through the end of the year, researchers will measure the toxicity of the treatment and its efficacy in inhibiting cancer cell growth.

Data will then be gathered to support phase-1 clinical trials in patients with advanced prostate cancer.

Hematology oncology professor Olivier Rixe said: “Targeting a monoclonal antibody against this protein is not new.

“What”s new is that we will load the antibody with an isotope that can directly target the protein on the cancer cell and deliver very localized radiation to this specific target of the cancer.”

“It”s a very interesting concept for drug delivery and a novel strategy for cancer treatment,” Rixe added. (ANI)

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Terrorism a by-product of Pak’s past mistakes: Zardari

September 19, 2009 By Leave a Comment

London, Sep. 19 (ANI): President Asif Ali Zardari has revealed that extremism was a by-product of Pakistan’s past mistakes and was deliberately created during the 1980s.

He said the employment of a liberal policy encouraged religious fanaticism and achieved of certain strategic objectives of terror perpetrators.

“What we are witnessing today is the outcome of that policy of the 80′s and even earlier.The policy of using religious extremism as an instrument of war. We in Pakistan have paid a very heavy price for this policy,” The News quoted Zardari, as saying.

Addressing a gathering at London’s International Institute of Strategic Studies (IISS), Zardari pointed out that militants and militancy were not created in a vacuum; they have been the product of a deliberate policy to fight the rival ideology.

The free world adopted a novel strategy that was based on the exploitation of religion to motivate Muslims around the world to wage jehad, he added.

Furthermore, Zardari pointed out that the strategy may have worked well but some serious mistakes were also made as the world abandoned Afghanistan in a hurry and no thought was given to its stability after the withdrawal of foreign forces.

“After the retreat of foreign forces, Afghanistan was abandoned and left at the mercy of the warlords and the jehadis…Pakistan has suffered more than others. For decades we had to host and continue to host millions of Afghan refugees,” he said. (ANI)

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Scientists describe novel strategy for phytoplankton growth in nutrient-poor areas of sea

March 11, 2009 By Leave a Comment

Washington, March 11 (ANI): An international team of scientists has described a novel strategy for phytoplankton growth in the vast nutrient-poor habitats of tropical and subtropical seas.

Until now, it was thought that all cells are surrounded by membranes containing molecules called phospholipids – oily compounds that contain phosphorus, as well as other basic elements including carbon and nitrogen.

These phospholipids are fundamental to the structure and function of the cell and for this reason had been thought to be an indispensable component of life.
hospholipids are one of several classes of molecules that contain the element phosphorus, which has been shown to be in very short supply in many marine ecosystems.

The deep sea contains ample phosphorus, but delivery to the surface waters where photosynthesis occurs is limited by temperature-induced stratification and the inability to mix the ocean to depths where phosphorus is available.

Research conducted at Station ALOHA near Hawaii during the past two decades has shown that phosphorus is rapidly becoming less abundant in the stratified regions of the North Pacific Ocean, possibly a result of changes in the marine habitat due to greenhouse gas warming.

Benjamin Van Mooy of the Woods Hole Oceanographic Institution and colleagues discovered that phytoplankton in the open ocean may be adapting to the low levels of phosphorus by making a fundamental change to their cell structure.

Rather than synthesizing the phosphorus-requiring phospholipids for use in their membranes, the plants appear to be using non-phosphorus containing “substitute lipids” that use the nearly unlimited element sulfur also found in seawater instead of phosphorus.

These substitute sulfolipids apparently allow the plants to continue to grow and survive under conditions of phosphorus stress, a unique strategy for life in the sea.

To test the generality of this biochemical strategy, the researchers compared the response of the phytoplankton communities in different ocean basins that experience varying levels of phosphorus stress.

In regions where phosphorus stress is extreme, such as the area dubbed the Sargasso Sea in the central North Atlantic Ocean, phospholipids were nearly nonexistent.

By comparison, in the South Pacific Ocean, where sufficient phosphorus exists, there were large amounts of phospholipids.

The region around Hawaii was intermediate, which is consistent with the long-term data sets from the Hawaii Ocean Time-series program showing that phosphorus is still measurable but is disappearing from the surface waters at an alarming rate.

One prediction from this initial study is that the phytoplankton in Hawaiian waters are likely to become more like those in the Sargasso Sea over time as phosphorus supplies dwindle further. (ANI)

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