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Largest Ever Study Of Suicide In The Military
Four of the nation"s leading experts in suicide research, including Dr. John Mann of Columbia University Medical Center, will carry out the largest study of suicide and mental health among military personnel ever undertaken, with $50 million in funding from the U.S. Army. The announcement came today from the National Institute of Mental Health (NIMH), which signed a memorandum of agreement with the Army in October 2008 authorizing the NIMH to undertake the investigation with Army funding. Study investigators aim to move quickly to identify risk and protective factors for suicide among soldiers and provide a science base for effective and practical interventions to reduce suicide rates and address associated mental health problems.
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Kaiser Daily Health Policy Report Feature Highlights Recent Blog Entries
"Blog Watch" offers readers a roundup of health policy-related blog posts.Bloggers are tentatively reacting to a report and blog post released by the Congressional Budget Office that summarizes the agency"s approach to estimating the cost of any health overhaul bills. At issue is how CBO will count different stipulations of legislation -- like an individual mandate or a public plan -- and whether their conclusions will result in a heftier price tag. Douglas Elmendorf explained on the Director"s Blog: "In CBO"s view, the key consideration is whether a proposal would be making health insurance an essentially governmental program, tightly controlled by the federal government with little choice available to those who offer and buy health insurance -- or whether the system would provide significant flexibility in terms of the types, prices, and number of private-sector sellers of insurance available to people. The former -- a governmental program -- belongs in the federal budget (including all premiums paid by individuals and firms to private insurers), but the latter -- a largely private-sector system -- does not." Janet Adamy of the Wall Street Journal"s Washington Wire notes that the report doesn"t address the cost estimates of the scenarios. Alan Katz on his Health Care Reform Blog concludes, "the message is clear: the looser government"s hand grips the new health care system the smaller its budgetary impact." Liberal bloggers had a variety of reactions -- some found the report too vague, while others saw it as good news. The New Republic"s Jonathan Cohn says, "you may need a Talmudic scholar to figure out what those implications are." Cohn continues, "Other passages in the briefing are [similarly] vexing and, for what it"s worth, the reactions I"ve gotten from insiders familiar with the report have ranged from sighs of relief to statements not suitable for a family blog." Ezra Klein agrees the report lacks specificity, but says, "Even so, I"m cheered by the simple existence of this ruling. The fact that CBO is explaining its thinking before legislation arrives [is] yet more evidence that CBO appears, insofar as it can, to be trying to help out on health reform. ... That"s an important change from past years." Interesting Elsewhere:
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Welsh Assembly Government Written Statement - Swine Influenza, Wales
This statement updates Members on the swine flu outbreak and the latest developments in Wales and across the UK.
Cardiovascular

One Force Behind The MYC Oncogene In Many Cancers Uncovered By Fox Chase Researchers

DLX5, a gene crucial for embryonic development, promotes cancer by activating the expression of the known oncogene, MYC, according to researchers from Fox Chase Cancer Center. Since the DLX5 gene is inactive in normal adults, it may be an ideal target for future anti-cancer drugs, they reason. Their findings are published in the July 31 edition of the Journal of Biological Chemistry, available online now. Previously the researchers found that a chromosomal inversion - a genetic misalignment, where part of the chromosome containing the DLX5 gene gets flipped around during cell division - cooperates with another known oncogene, AKT2, to drive cancer in mice. In the current paper, the researchers discover that DLX5 binds to and actively promotes the activity of a gene known as MYC, which evidence has demonstrated is a potent factor in numerous cancers, including lymphoma, lung and pancreatic cancer. Their studies were performed in mouse cancer models and in human cell cultures. "While MYC has a definite role in cancer, MYC also has an important place in the normal functioning of cells, so it may be difficult to target without killing healthy cells," says Joseph Testa, PhD, a Fox Chase professor and co-author of the study. "DLX5, however, is not generally active in healthy adult cells, so it represents a much more "druggable" target for cancer inhibition." According to Testa, DLX5 is a member of the homeobox family of genes, which direct the timing of events in the physical development of a growing fetus, such as when to sprout a limb, for example. In adults, such genes are almost entirely inactive. After their previous studies demonstrated that expression of the protein encoded by the DLX5 gene correlated with that of the MYC gene, Testa and Jinfei Xu, PhD, a research associate in the laboratory, used a luciferase assay - developed from the luciferase enzyme fireflies use to make light - to see exactly where DLX5 protein binds to the promoter region of the MYC gene. They found that there were two sites where DLX5 could bind to the MYC promoter, which is a section of DNA where certain proteins known as transcription factors attach in order to recruit the cellular machinery used to transcribe genes into messenger RNA and then proteins. Studies in both cells and a mouse model for cancer showed that they could promote the expression of MYC by transfecting cells with DNA strands containing DLX5. Too much DLX5, they found, led to too much MYC. When they knocked out expression of DLX5 in lung cancer cells, it resulted in decreased expression of MYC and reduced cell proliferation. By adding an overabundance of MYC, they found they could turn those cells cancerous again. From this, Testa and Xu were able to gain a broader understanding of how cancers involving AKT2, DLX5 and MYC might develop. A mutation in AKT2 may act as a "first hit" that makes the inversion on mouse chromosome 6, which contains the DLX5 gene, more likely. When the inversion happens, the cell begins producing the DLX5 protein, a multipurpose transcription factor that normally has a very limited role in adult cells. One of the targets of DLX5 is the MYC gene itself, causing the cells to produce many copies of the MYC oncoprotein. Normally MYC regulates many functions within the cell, including cell division. With an overabundance of MYC, the cell may reproduce out of control, accumulating in each generation the further genetic damage that is the hallmark of cancer cells. The study was funded by grants from the National Cancer Institute and an appropriation from Commonwealth of Pennsylvania. Greg Lester Fox Chase Cancer Center


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