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On the trail of a targeted therapy for blood cancers
October 13, 2008INDIANAPOLIS - Investigators from the Herman B Wells Center for Pediatric Research at the Indiana University School of Medicine are focusing on a family of blood proteins that they hope holds a key to decreasing the toxic effects of chemotherapy in children and adults.
Their findings may one day help in the development of targeted therapies for leukemia, multiple myeloma and other cancers of the blood.
The researchers, led by Kristin T. Chun, Ph.D., assistant professor of pediatrics and of biochemistry and molecular biology, studied how the cullin family of proteins affects the degradation of proteins that control the development of blood cells. Their work was published in the July 15 issue of Blood, the journal of the American Society of Hematology.
The cullin family of proteins is involved in the degradation of proteins that control a myriad of cell functions, including those that determine whether a blood cell will eventually develop into a mature blood cell, will divide, or will undergo programmed cell death.
"How cullin 4A regulates other proteins that control the fate of blood cells is important because when cullin 4A fails to regulate their degradation properly, blood cells die and this leads to bone marrow failure. There are many reasons why this is significant." said Dr. Chun. "For example, when blood cells make wrong decisions the result can be a lack of a sufficient number of certain types of mature blood cells causing leukemia, anemia, or bone marrow failure."
Working with mice which had been genetically engineered to lack cullin 4A, the researchers found that within less than two weeks all blood cells disappeared because without this cullin, no new blood cells were being made.
"Our work is the first to show an effect in all blood cells and establishes that Cul4A is essential for the survival of blood cells and possibly other cells including cells of the intestine. It's still early in the scientific process but we know this protein is involved in many cellular pathways in the body. If we can learn about the pathway this protein takes, we may be able to develop targeted drug therapies that are better at attacking diseased blood cells and avoiding healthy ones," said Dr. Chun, who is a member of the IU Melvin and Bren Simon Cancer Center.
Indiana University
The cullin family of proteins is involved in the degradation of proteins that control a myriad of cell functions, including those that determine whether a blood cell will eventually develop into a mature blood cell, will divide, or will undergo programmed cell death.
"How cullin 4A regulates other proteins that control the fate of blood cells is important because when cullin 4A fails to regulate their degradation properly, blood cells die and this leads to bone marrow failure. There are many reasons why this is significant." said Dr. Chun. "For example, when blood cells make wrong decisions the result can be a lack of a sufficient number of certain types of mature blood cells causing leukemia, anemia, or bone marrow failure."
Working with mice which had been genetically engineered to lack cullin 4A, the researchers found that within less than two weeks all blood cells disappeared because without this cullin, no new blood cells were being made.
"Our work is the first to show an effect in all blood cells and establishes that Cul4A is essential for the survival of blood cells and possibly other cells including cells of the intestine. It's still early in the scientific process but we know this protein is involved in many cellular pathways in the body. If we can learn about the pathway this protein takes, we may be able to develop targeted drug therapies that are better at attacking diseased blood cells and avoiding healthy ones," said Dr. Chun, who is a member of the IU Melvin and Bren Simon Cancer Center.
Indiana University
Blood Cancer Current Events and Blood Cancer News RSSSilencing a protein could kill T-Cells, reverse leukemia
Blocking the signals from a protein that activates cells in the immune system could help kill cells that cause a rare form of blood cancer, according to physicists and oncologists who combined computer modeling and molecular biology in their discovery.
Stem cells make bone marrow cancer resistant to treatment
Scientists at the Johns Hopkins Kimmel Cancer Center say they have evidence that cancer stem cells for multiple myeloma share many properties with normal stem cells and have multiple ways of resisting chemotherapy and other treatments.
3-drug combination 'extremely promising' as first-line therapy for multiple myeloma
A new combination of bortezomib (Velcade) and two other drugs is showing a very high response rate in patients newly diagnosed with multiple myeloma, a team headed by Dana-Farber Cancer Institute investigators reported at the annual meeting of the American Society of Hematology.
OHSU Cancer Institute research discovery opens new window to understanding chronic myeloid leukemia
Oregon Health & Science University Cancer Institute researchers have opened a new window into the roots of chronic myeloid leukemia (CML).
Oral Drug Sets a New Survival Standard for Bone Marrow Cancer
Findings from two large, international clinical trials show "unprecedented" survival for patients with multiple myeloma, a blood cancer that occurs in the blood-making cells of bone marrow.
Daisies lead scientists down path to new leukemia drug
A new, easily ingested form of a compound that has already shown it can attack the roots of leukemia in laboratory studies is moving into human clinical trials, according to a new article by University of Rochester investigators in the journal, Blood.
How vitamin C stops the big 'C'
Nearly 30 years after Nobel laureate Linus Pauling famously and controversially suggested that vitamin C supplements can prevent cancer, a team of Johns Hopkins scientists have shown that in mice at least, vitamin C - and potentially other antioxidants - can indeed inhibit the growth of some tumors - just not in the manner suggested by years of investigation.
U of M begins nation's first clinical trial using T-reg cells from cord blood in leukemia treatment
University of Minnesota researchers have initiated a ground breaking clinical trial to determine the optimal dose and safety of T regulatory cells (T-regs) to decrease the risk of immune reactions common in patients undergoing blood and marrow transplantation.
Promising treatment target found in Hodgkin lymphoma
Dana-Farber Cancer Institute scientists have identified a protein that prevents the body's immune system from recognizing and attacking Hodgkin lymphoma cells.
Research shows cord blood comparable to matched bone marrow
University of Minnesota researchers report that umbilical cord blood transplants may offer blood cancer patients better outcomes than bone marrow transplants, according to an analysis of outcome data performed at the Center for International Blood and Marrow Transplant Research (CIBMTR), Medical College of Wisconsin, Milwaukee.
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