Living Cell Technologies has been given the go ahead to conduct clinical trials of its DiabeCell diabetes product in New Zealand.

DiabeCell is a porcine islet cell product for the treatment of insulin- dependent diabetes. The pig cells are injected into the body without any immunosuppressant drugs. The cells produce insulin to help regulate blood glucose levels appropriate to the amount of glucose detected in the blood stream of the diabetic recipient.

The Medical Director of Living Cell Technologies explains that DiabeCell offers considerable advantages over other available treatments in addition to the fact there is no need for immuno-suppressive drugs. Anther problem of islet transplants is the strain on the supply of islets. This is not a problem with the DiabeCell because their supply of cells derive from natural biocertified pig herds, unlike human organ donors.

LCT's application is to conduct the clinical trial of its DiabeCell product on 8 long standing Type 1 diabetics. The clinical trial is expected to be approximately 12 months in duration. This will then be followed by a trial on a larger scale. The trial will be conducted at a New Zealand hospital and involves the simple injection of encapsulated islets into the abdomen of the diabetic patients. It is anticipated that the trial would start by the end of 2007.

Chat live with Dr. Pugliese, an expert on the immunology and genetics of diabetes at The Diabetes Research Institute. His work has been focused on preventing the autoimmune attack that leads to diabetes. This research is very important for future prevention strategies, as well as stopping autoimmune destruction of transplanted islets.

Dr. Pugliese's has studied the role of the thymus gland in the immune system and he describes it as the "school for the immune system". All immune cells are forced to pass through the thymus gland where they are exposed to the antigens present throughout the body. Immune cells that bind to these normal antigens are destroyed, thereby preventing the later destruction of healthy cells. If no binding occurs, then the cell is deemed to be friendly to host tissue and is released to become part of the immune system. The insulin producing cells of the body - islets -- are not the only body cells that release insulin. Dr. Pugliese's research has shown that there are other cells that release tiny amounts of insulin, but not in response to blood glucose. These cells present insulin to the visiting immune cells in the thymus, and any immune cell that binds is killed. It is believed that a low insulin output in these decoy cells in people who develop diabetes may be the reason that immune cells are allowed to live that will later track insulin back to its source and destroy healthy islets. In people who have the genetic markers that protect against diabetes, these cells secrete more insulin than they do in people with genes that pre-dispose them to diabetes. The more insulin in the thymus, the more likely that insulin-specific autoreactive lymphocytes will be killed, with fewer chances of developing diabetes.

Confused yet? Yeah, me too - but my confusion feeds my insatiable curiosity. That is precisely why I will be joining the rescheduled chat with Dr. Pugliese. Please, be there on March 15th at 9pm Eastern Standard Time on Diabetes Talkfest. Make it a date: you, me, Dr. P and the most informed people in the diabetes community. Once again, thanks to Gina and Jon for Linking Diabetics Coast to Coast!

The Juvenile Diabetes Research Foundation announced that they have formed a partnership with MacroGenics. JDRF is providing up to $2 million to fund a clinical trial of a compound called anti-CD3 that has shown promise in slowing the progression of type 1 diabetes.

Anti-CD3 is capable of reducing the autoimmune attack that destroys insulin-producing beta cells. The treatment preserves beta cell function in newly diagnosed patients, and has the potential to decrease insulin requirements, leading to better glucose regulation, and decrease the complications of diabetes. Anti-CD3 blocks the function of CD3 cells - the T cells that destroy islets. The antibodies prevent "activation" of the T cells after they have identified their target, disarming them launching the attack on islets.

Let's hope the peace talks between JDRF, MacroGenics, anti-CD3 and killer Ts result in progressive measures to make the type 1 diabetic body a peaceful place, once and for all.