Genetic Mutation Found That Lowers Odds Of Developing Diabetes

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March 3, 2014

Brett Smith for redOrbit.com Your Universe Online

A massive new study from a team of international researchers has identified mutations in a gene that can significantly reduce the risk of developing type 2 diabetes regardless of risk factors such as old age and being overweight. Seen in patients from multiple ethnic groups, the results showed a drug that imitates the influence of these mutations could be effectively used around the world.

In the study published in Nature Genetics the genetic evaluation of 150,000 patients showed that uncommon mutations in a gene called SLC30A8 scale back risk of type 2 diabetes by 65 percent. In previous research, the protein produced by SLC30A8 had been shown to play a critical role in the insulin secretion in the pancreas, and a typical variant in that gene was known to affect the risk of type 2 diabetes.

This work underscores that human genetics is not just a tool for understanding biology: it can also powerfully inform drug discovery by addressing one of the most challenging and important questions knowing which targets to go after, said study author David Altshuler, a Harvard Medical School professor at Massachusetts General Hospital.

To find mutations that reduce a persons probability of type 2 diabetes, the study team looked at participants with acute risk factors for diabetes, such as old age and obesity, who had not developed the disease and had healthy blood sugar levels. The team focused on a set of genes recognized earlier as playing a role in type 2 diabetes and looked for uncommon mutations.

They were able to find a genetic mutation that knocked out function of the SLC30A8 gene and that was highly prevalent in non-diabetic participants from Sweden and Finland. The protection against the disease was surprising, because scientific studies in mice had indicated that mutations in SLC30A8 might have the reverse effect increasing risk of type 2 diabetes. However, because this specified genetic variation was exceedingly uncommon outside of Finland, it proved difficult to obtain added evidence to corroborate the primary find.

These unpublished findings the result of a collaboration between American and Swedish scientists were shared with a group from deCODE genetics, a biopharmaceutical company based in Reykjavk, Iceland. The company researchers then found a subsequent mutation in an Icelandic population. The second mutation independently decreased risk for type 2 diabetes and decreased blood sugar in non-diabetics without apparent unfavorable effects.

Finally, the joint study team was able to identify ten more protective mutations in the same gene. With all the mutations considered together, one copy of a defective version of SLC30A8 was shown to have a 65 percent reduction in risk of diabetes.

This discovery underscores what can be accomplished when human genetics experts on both sides of the Atlantic come together to apply their craft to founder populations, enabling us to find rare mutations with large effects on disease risk, said Kari Stefannson, CEO of deCODE genetics.

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Australians pay more for health care than France, UK, report says, amid Medicare co-payment debate

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Australians are paying much more for health care than people in France and the UK, consumer advocates say, amid debate over a proposed Medicare co-payment.

Further, 17 per cent of healthcare expenditure in Australia is already being funded by individual co-payments, and any extra fee will create major barriers to accessing health care, a report by the Consumers Health Forum suggests.

The proposal to charge patients a $6 fee for bulk-billed GP visits was raised in late December by a health consultant who said it was a reasonable measure to keep the Medicare system going.

Health Minister Peter Dutton has flagged major changes to the system, saying he wants to have a frank and fearless conversation about co-payments.

But the forum, the national peak body representing the interests of Australian healthcare consumers, says if the $6 co-payment proposal was implemented, low-income earners would be hit hardest, along with the chronically ill and the elderly.

The forum's chief executive, Adam Stankevicius, says consumers should not be slugged with more fees.

"We want to have an evidence-based discussion as to what it is that's going to make the biggest impact in terms of better financially managing the sustainability of our healthcare system," he said.

"But we don't want health care consumers to be slugged with additional costs when there are other more complex and more intricate arguments [to be had on] how we can best move forward on that sustainability footing."

He says co-payments will fail to generate cost savings for the health system, delay treatments and reduce access to health care for Australians.

"People who are older, people on pensions in particular, are those that consider the financial outlay more seriously," he said.

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Penn Study Results Confirm BMI is a Direct Cause of Type 2 Diabetes and High Blood Pressure

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PHILADELPHIA Using new genetic evidence, an international team of scientists led by experts at the Perelman School of Medicine at the University of Pennsylvania and Childrens Hospital of Philadelphia has found that an increased body mass index (BMI) raised the risk for both type 2 diabetes and higher blood pressure. The results add to mounting evidence about the risks of obesity and are of major importance for the obesity pandemic that is affecting the United States where two-thirds of adults are overweight or obese and other countries. According to the findings, published online in The American Journal of Human Genetics, for every 1 kg/m2 increase in BMI equivalent to a 196-pound, 40-year old man of average height gaining seven pounds the risk of developing type 2 diabetes increases by 27 percent. The same rise in BMI also increases blood pressure by 0.7 mmHg.

Our findings provide solid genetic support indicating that a higher body mass index causes a raised risk of type 2 diabetes and high blood pressure, said the studys lead author, Michael V. Holmes, MD, PhD, research assistant professor of Surgery in the division of Transplant at Penn Medicine.

In the new study, the research team used a recently developed statistical tool called Mendelian randomization (MR), which helps researchers identify genes responsible for particular diseases or conditions (such as obesity), independent of potentially confounding factors such as differences in behavior and lifestyle, which can lead to false-positive associations. In this case, the use of MR virtually rules out the possibility that both a high BMI and type 2 diabetes are caused by a third, unidentified factor.

Whether high BMI raises the risk of adverse outcomes is of critical importance given that BMI is modifiable, said Holmes. Now that we know high BMI is indeed a direct cause of type 2 diabetes, we can reinforce to patients the importance of maintaining body mass within established benchmarks.

Results of the new study were based on the assessment of the genotypes for over 34,500 patients from previous studies. In addition to the results on diabetes and blood pressure, Holmes and his colleagues found that an elevated BMI has potentially harmful effects on several blood markers of inflammation. While this could be tied to increased risk for coronary heart disease, the researchers suggest it requires further study.

While this study has strong foundations and implications, there are many more BMI signals emerging, said senior author Brendan Keating, PhD, research assistant professor of Pediatrics and Surgery at Penn Medicine and lead clinical data analyst in the Center for Applied Genomics at The Childrens Hospital of Philadelphia. Future research will likely generate even more useful information about genetics and the associated risks for disease for both physicians and patients.

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Penn Medicine is one of the world's leading academic medical centers, dedicated to the related missions of medical education, biomedical research, and excellence in patient care. Penn Medicine consists of theRaymond and Ruth Perelman School of Medicine at the University of Pennsylvania(founded in 1765 as the nation's first medical school) and theUniversity of Pennsylvania Health System, which together form a $4.3 billion enterprise.

The Perelman School of Medicine has been ranked among the top five medical schools in the United States for the past 16 years, according toU.S. News & World Report's survey of research-oriented medical schools. The School is consistently among the nation's top recipients of funding from the National Institutes of Health, with $398 million awarded in the 2012 fiscal year.

The University of Pennsylvania Health System's patient care facilities include: The Hospital of the University of Pennsylvania -- recognized as one of the nation's top "Honor Roll" hospitals byU.S. News & World Report; Penn Presbyterian Medical Center; Chester County Hospital; Penn Wissahickon Hospice; and Pennsylvania Hospital -- the nation's first hospital, founded in 1751. Additional affiliated inpatient care facilities and services throughout the Philadelphia region include Chestnut Hill Hospital and Good Shepherd Penn Partners, a partnership between Good Shepherd Rehabilitation Network and Penn Medicine.

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Penn Study Results Confirm BMI is a Direct Cause of Type 2 Diabetes and High Blood Pressure

EarthTalk: What is Synthetic Biology?

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Westport, CT - infoZine - E/The Environmental Magazine - "Synthetic biology" (or "synbio") refers to the design and fabrication of novel biological parts, devices and systems that do not otherwise occur in nature. Many see it as an extreme version of genetic engineering (GE). But unlike GE, whereby genetic information with certain desirable traits is inserted from one organism into another, synbio uses computers and chemicals to create entirely new organisms.

Proponents of synbio, which include familiar players such as Cargill, BP, Chevron and Du Pont, tout its potential benefits. According to the Synthetic Biology Engineering Research Center (SYNBERC), a consortium of leading U.S. researchers in the field, some promising applications of synthetic biology include alternatives to rubber for tires, tumor-seeking microbes for treating cancer, and photosynthetic energy systems. Other potential applications include using synbio to detect and remove environmental contaminants, monitor and respond to disease and develop new drugs and vaccines.

"This is the first major use of a synbio ingredient in food, and dozens of other flavors and food additives are in the pipeline, so synbio vanilla could set a dangerous precedent for synthetic genetically engineered ingredients to sneak into our food supply and be labeled as natural," reports Friends of the Earth (FoE), a leading environmental group. "Synthetic biology vanillin poses several human health, environmental and economic concerns for consumers, food companies and other stakeholders."

For example, FoE worries that synbio vanilla (and eventually other synthetic biology additives) could exacerbate rainforest destruction while harming sustainable farmers and poor communities around the world. "Synbio vanillacould displace the demand for the natural vanilla market," reports FoE. "Without the natural vanilla market adding economic value to the rainforest in these regions, these last standing rainforests will not be protected from competing agricultural markets such as soy, palm oil and sugar." Critics of synbio also worry that releasing synthetic life into the environment, whether done intentionally or accidentally, could have adverse effects on our ecosystems.

Despite these risks, could the rewards of embracing synthetic biology be great? Could it help us deal with some of the tough issues of climate change, pollution and world hunger? Given that the genie is already out of the bottle, perhaps only time will tell.

Related Links SYNBERC: http://www.synberc.org FoE: http://www.foe.org Evolva: http://www.evolva.com

Send your environmental questions to: EarthTalk, c/o E - The Environmental Magazine, P.O. Box 5098, Westport, CT 06881;

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EarthTalk: What is Synthetic Biology?

Chemist Direct discusses Gene therapy that offers hope to thousands of people suffering from degenerative blindness

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London (PRWEB UK) 3 March 2014

Researchers at Oxford University have discovered that by replacing a missing gene into the retina, they can prevent cells from degenerating. Scientists hope that early intervention with the surgical treatment will halt progression of the devastating disorder before patients are entirely robbed of their sight. (http://bit.ly/1gOIohJ)

Superintendent Pharmacist at ChemistDirect, Omar El-Gohary, said: A lot of degenerative eye diseases result from faulty genes. Gene therapy is a new development, which uses technology to replace the defective genes with a normal working copy, with a single injection.

It is the first time gene therapy has successfully been applied to the light-sensitive photoreceptors of the retina, the digital camera at the back of the eye.

Results from the preliminary results done by Oxford University researchers has shown that from the first six patients to take part, two men with advanced stages of choroideremia, (a degenerative retinal disease which leads to loss in sight) experienced dramatic improvements to their sight.

A third of diseases which affect the eyes are genetic in origin and scientists are confident the therapy could be adapted to help patients with other illnesses.

El-Gohary added: Factors other than genetics contributing to the development of eye related diseases can be mutations, which can occur with age and trigger macular disease. The treatment is the same; to replace the faulty gene with a functioning one.

There are currently 500,000 people in Britain with age-related degenerative macular disease, with one in 20 people over 65 suffering from the disease. This pioneering technology could make an enormous difference to the lives of thousands. (http://bit.ly/1fhvH1I)

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Chemist Direct discusses Gene therapy that offers hope to thousands of people suffering from degenerative blindness

Gene Therapy's Second Act

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A decade and a half after a series of tragic setbacks led to critical reevaluations, scientists say gene therapy is ready to enter the clinic

Gene therapy may finally be living up to its early promise. In the past six years the experimental procedure for placing healthy genes wherever they are needed in the body has restored sight in about 40 people with a hereditary form of blindness. Doctors have seen unprecedented results among another 120-plus patients with various cancers of the bloodseveral of whom remain free of malignancy three years after treatment. Researchers have also used gene therapy to enable a few men with hemophilia, a sometimes fatal bleeding disorder, to go longer without dangerous incidents or the need for high doses of clotting drugs.

The positive results are even more impressive considering that the field of gene therapy essentially ground to a halt 15 years ago, following the untimely death of Jesse Gelsinger, a teenager with a rare digestive disorder. Gelsinger's immune system reacted to the gene treatment he received by launching a counterattack of unexpected ferocity that killed him. Gene therapy's preliminary successes in the 1990s, it turns out, had fueled unreasonably high expectations among doctors and researchersand perhaps a bit of hubris.

2014 Scientific American, a Division of Nature America, Inc.

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