Canada-based University of British Columbia scientists have shown for the first time that Type 2 diabetes can be tackled with a combination of specially-cultured stems cells and conventional diabetes drugs.
The scientists have used stem cells to reverse the type 1 diabetes in mice and hope to apply similar findings to expand the treatment of type 2 diabetes as well. Unlike type 1 which hits childhood onwards, type 2 diabetes affects people in later in life, especially the elders and it accounts for 90% of diabetes cases worldwide.
Timothy Kieffer, lead researcher from BetaLogics simulated Type 2 diabetes in mice by putting them on a high-fat, high-calorie diet for several weeks before surgically implanting pancreatic-like cells that had been grown in the lab from human stem cells.
Mice that received a combination of the cells with one of three diabetes drugs became as “glucose tolerant” as any healthy mice, keeping their blood sugar under control, even after ingesting sugary food. But the other group of mice with simulated Type 2 diabetes that received the drugs but not the stem cell transplants remained glucose-intolerant as ever.
“Evidence suggests it’s those (sugar) spikes that do a lot of the damage – increasing risks for blindness, heart attack, and kidney failure,” says Kieffer, a member of UBC’s Life Sciences Institute.
The combination therapy also hit upon an unexpected result as the mice returned to a normal weight, the same weight as the healthy control group mice that had been reared on a low-fat diet.
About 400 million people all over the world have diabetes and it is the eighth major cause of death, affecting both developed and developing nations.
BSc (Hons) Microbiology
Biovault Family CEO, Kate Sneddon, joined Biovault in July 2009 and became Chief Executive Officer in 2016. As health industry professional her experience includes working as a microbiologist and leader at GSK for over 10 years. Her expertise in cord blood banking has been recognised in her awards, features in Parliamentary Review and Parents Guide to Cord Blood, as well as contributions to research with UCL and others.