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ACS News Service Weekly PressPac: Wed Dec 18 14:48:00 EST 2013
Packaging insulin into a pill-friendly form for diabetes treatment
Since insulin’s crucial discovery nearly a century ago, countless diabetes patients have had to inject themselves with the life-saving medicine. Now scientists are reporting a new development toward a long-sought insulin pill that could save millions the pain of daily shots. Published in the ACS journal Biomacromolecules, the advance could someday not only eliminate the “ouch” factor, but also get needle-wary — and weary — patients to take their medicine when they should.
Sanyog Jain and colleagues explain that patients with diabetes sometimes skip doses or stop taking their insulin because the injections can be painful. But doing so puts their health in danger. An estimated 347 million people globally (about 26 million in the U.S.) are living with diabetes. In the U.S., more than a quarter of these patients are taking some kind of insulin therapy. For years, researchers have sought a way to transform delivery of this therapy from a shot to a pill, but it has been a challenge. The body’s digestive enzymes that are so good at breaking down food also break down insulin before it can get to work. In addition, insulin doesn’t get easily absorbed through the gut into the bloodstream. To overcome these hurdles, Jain’s team combined two approaches to shield insulin from the digestive enzymes and then get it into the blood.
They packaged insulin in tiny sacs made of lipids, or fats, called liposomes, which are already used in some treatments. Then, they wrapped the liposomes in layers of protective molecules called polyelectrolytes. To help these “layersomes” get absorbed into the bloodstream, they attached folic acid, a kind of vitamin B that has been shown to help transport liposomes across the intestinal wall into the blood. In rats, the delivery system lowered blood glucose levels almost as much as injected insulin, though the effects of the layersomes lasted longer than that of injected insulin.
The authors acknowledge funding from the Department of Science & Technology (India) and the Council of Scientific and Industrial Research, New Delhi.