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Stem cell protein offers a new cancer target
June 02, 2009LIN28, which maintains cell 'stemness,' is abundant in advanced cancers and transforms cells to cancerous state
A protein abundant in embryonic stem cells is now shown to be important in cancer, and offers a possible new target for drug development, report researchers from the Stem Cell Program at Children's Hospital Boston.
Last year, George Daley, MD, PhD, and graduate student Srinivas Viswanathan, in collaboration with Richard Gregory, PhD, also of the Stem Cell Program at Children's, showed that the protein LIN28 regulates an important group of tumor-suppressing microRNAs known as let-7. Increasing LIN28 production in a cell prevented let-7 from maturing, making the cell more immature and stem-like. Since these qualities also make a cell more cancerous, and because low levels of mature let-7 have been associated with breast and lung cancer, the discovery suggested that LIN28 might be oncogenic.
Now, publishing Advance Online in Nature Genetics on May 31, Daley, Viswanathan and colleagues show directly that LIN28 can transform cells to a cancerous state, and that it is abundant in a variety of advanced human cancers, particularly liver cancer, ovarian cancer, chronic myeloid leukemia, germ cell tumors and Wilm's tumor (a childhood kidney cancer). They believe that overall, LIN28 and a related protein, LIN28B, may be involved in some 15 percent of human cancers. By blocking or suppressing LIN28, it might be possible to revive the let-7 family's natural tumor-suppressing action.
"Linking this protein to advanced cancer is a very exciting new result," says Daley, Director of Stem Cell Transplantation at Children's, and also affiliated with Children's Division of Hematology/Oncology, the Dana-Farber Cancer Institute and the Harvard Stem Cell Institute. "It gives us a new target to attack, especially in the most resistant and hard-to-treat cases."
LIN28, which is abundant in embryonic stem cells and prevents them from differentiating into specific cell types, was originally discovered to influence embryonic development in worms some 25 years ago. Development, stem cell generation and carcinogenesis are known to be closely related, but until last year's study connected LIN28 to let-7, it hadn't been clear how.
"LIN28 is a fascinating protein that acts both in stem cells and cancers, and is teaching us that cancer is often a disease of stem cells," says Daley.
Viswanathan, Daley and colleagues are busily searching for ways to inhibit LIN28, which could provide promising new drugs for advanced cancer.
Children's Hospital Boston
Now, publishing Advance Online in Nature Genetics on May 31, Daley, Viswanathan and colleagues show directly that LIN28 can transform cells to a cancerous state, and that it is abundant in a variety of advanced human cancers, particularly liver cancer, ovarian cancer, chronic myeloid leukemia, germ cell tumors and Wilm's tumor (a childhood kidney cancer). They believe that overall, LIN28 and a related protein, LIN28B, may be involved in some 15 percent of human cancers. By blocking or suppressing LIN28, it might be possible to revive the let-7 family's natural tumor-suppressing action.
"Linking this protein to advanced cancer is a very exciting new result," says Daley, Director of Stem Cell Transplantation at Children's, and also affiliated with Children's Division of Hematology/Oncology, the Dana-Farber Cancer Institute and the Harvard Stem Cell Institute. "It gives us a new target to attack, especially in the most resistant and hard-to-treat cases."
LIN28, which is abundant in embryonic stem cells and prevents them from differentiating into specific cell types, was originally discovered to influence embryonic development in worms some 25 years ago. Development, stem cell generation and carcinogenesis are known to be closely related, but until last year's study connected LIN28 to let-7, it hadn't been clear how.
"LIN28 is a fascinating protein that acts both in stem cells and cancers, and is teaching us that cancer is often a disease of stem cells," says Daley.
Viswanathan, Daley and colleagues are busily searching for ways to inhibit LIN28, which could provide promising new drugs for advanced cancer.
Children's Hospital Boston
Stem Cell Current Events and Stem Cell News RSSFirst use of antibody and stem cell transplantation to successfully treat advanced leukemia
For the first time, researchers at Fred Hutchinson Cancer Research Center have reported the use of a radiolabeled antibody to deliver targeted doses of radiation, followed by a stem cell transplant, to successfully treat a group of leukemia and pre-leukemia patients for whom there previously had been no other curative treatment options.
Immune therapy can protect against or treat later lymphoma
Specially developed immune system cells that target the common Epstein-Barr virus can protect immune-suppressed bone marrow transplant recipients against lymph system disease and cancers that arise from the viral infection.
Immunotherapy demonstrates long-term success in treating lymphoma
Targeted immunotherapy has been an attractive new therapeutic area for a number of cancers because it has the potential to destroy tumor cells without damaging surrounding normal tissue. New study results demonstrate high success rates using specialized white blood cells to prevent or treat lymphoma associated with the Epstein-Barr virus (EBV-lymphoma) in patients who have received a hematopoietic stem cell transplant (HSCT).
Of mice and men: Stem cells and ethical uncertainties
The recent creation of live mice from induced pluripotent stem cells (iPSCs) not only represents a remarkable scientific achievement, but also raises important issues, according to bioethicists at The Johns Hopkins University's Berman Institute of Bioethics.
Stem cell therapy may offer hope for acute lung injury
Researchers at the University of Illinois at Chicago College of Medicine have shown that adult stem cells from bone marrow can prevent acute lung injury in a mouse model of the disease.
Placental precursor stem cells require testosterone-free environment to survive
Trophoblast stem cells (TSCs), cells found in the layer of peripheral embryonic stem cells from which the placenta is formed, are thought to exhibit "immune privilege" that aids cell survivability and is potentially beneficial for cell and gene therapies.
Endocrine Society calls for expanded scope and funding for stem cell research
Stem cell research holds great promise for the treatment of millions of Americans with debilitating and possibly fatal diseases.
Scientists develop novel method to generate functional hepatocytes for drug testing
Scientists have for the first time produced liver cells from adult skin cells using the induced pluripotent stem cell (iPSC) technology.
Researchers find ways to encourage spinal cord regeneration after injury
Animal research is suggesting new ways to aid recovery after spinal cord injury. New studies demonstrate that diet affects recovery rate and show how to make stem cell therapies safer for spinal injury patients.
Experimental treatments restore partial vision to blind people
Two experimental treatments, a retinal prosthesis and fetal tissue transplant, restored some vision to people with blinding eye diseases. The findings, presented at Neuroscience 2009, the annual meeting of the Society for Neuroscience and the world's largest source of emerging news on brain science and health, may lead to new treatments for the blind.
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