Protein transduction technology offers a novel therapeutic approach for diabetes.

Diabetes remains a major burden, with more than 200 million people affected worldwide, representing 6% of the population. New technology, known as protein transduction technology, has been recently developed. A variety of peptides, known as protein transduction domains or cell-penetrating peptides, have been characterized for their ability to translocate into live cells.

Protein transduction technology: a novel therapeutic perspective.

The direct intracellular delivery of proteins has, until recently, been difficult to achieve, due primarily to the bioavailability barrier of the plasma membrane. During the past 15 years, a variety of peptides called protein transduction domains (PTDs) or cell penetrating peptides (CPPs), have been characterized for their ability to translocate into live cells. The most commonly studied are homeodomain transcription factors such as Antennapedia, the herpes simplex virus (HSV) type 1 protein VP22, and the human immunodeficiency virus (HIV-1) transactivator TAT protein.

Modified two-layer preservation method (M-Kyoto/PFC) improves islet yields in islet isolation.

Islet allotransplantation can achieve insulin independence in patients with type I diabetes. Recent reports show that the two-layer method (TLM), which employs oxygenated perfluorochemical (PFC) and UW solution, is superior to simple cold storage in UW for pancreas preservation in islet transplantation. However, UW solution has several disadvantages, including the inhibition of Liberase activity.

Pancreatic islet transplantation for treating diabetes.

Pancreatic islet transplantation is one of the options for treating diabetes and has been shown to improve the quality of life of severe diabetic patients. Since the Edmonton protocol was announced, islet transplantation have advanced considerably, including islet after kidney transplantation, utilisation of non-heart-beating donors, single-donor islet transplantation and living-donor islet transplantation. These advances were based on revised immunosuppression protocols, improved pancreas procurement and islet isolation methods, and enhanced islet engraftment.