Posts Tagged ‘stem cells for diabetes’

Stem Cells Reverse Type 1 Diabetes In Mice

Wednesday, January 14th, 2015

Type 1 Diabetes

Published by Diabetes News, U.K.

A cell used to treat immune-related diseases has been found to spare islet cells from destruction, reversing type 1 diabetes.

Mesenchymal stem cells (MSCs) were studied by researchers at the Harvard-affiliated Brigham and Women’s Hospital (BWH), with their results published in the journal Stem Cells.

MSCs – a type of adult stem cell – possess anti-inflammatory and potent immune-suppressing effects. Previous preclinical trials have found administration could reduce blood sugar levels in non-obese diabetic mice, without the need for insulin.

The research team investigated if additional administration of MSCs could spare other pancreatic islets from destruction in the immune system.

Injecting MSCs directly into these islets is infeasible as the pancreas releases toxic enzymes when altered. To administer MSCs into islets, the researchers engineered the HCELL homing molecule to direct the MSCs into the islets.

HCELL, a surface adhesion molecule, controls how cells are homed in the bloodstream to areas of tissue inflammation. This molecule is normally lacking in MSCs.

Upon administering HCELL-bearing MSCs into the diabetic mice, the MSCs fixed to the islets, resulting in long-lasting normalisation of blood sugar levels – essentially reversing type 1 diabetes.

Professor Robert Sackstein of BWH’s Departments of Dermatology and of Medicine, co-author of the study, concluded that this preclinical study marks a significant step in using MSCs to treat type 1 diabetes, before acknowledging that further studies are necessary.

Sourced from: www.diabetes.co.uk

Adult Stem Cells To Help Save Sight for Diabetes Sufferers

Thursday, February 14th, 2013

As reported in Science Daily [Feb. 14, 2013]

Scientists at Queen’s University Belfast are hoping to develop a novel approach that could save the sight of millions of diabetes sufferers by using adult stem cells.

Currently millions of diabetics worldwide are at risk of sight loss due to a condition called Diabetic Retinopathy. This is when high blood sugar causes the blood vessels in the eye to become blocked or to leak. Failed blood flow harms the retina and leads to vision impairment and if left untreated can lead to blindness.

The novel REDDSTAR study (Repair of Diabetic Damage by Stromal Cell Administration) involving researchers from Queen’s Centre for Vision and Vascular Science in the School of Medicine, Dentistry and Biomedical Sciences, will see them isolating stem cells from donors, expanding them in a laboratory setting and re-delivering them to a patient where they help to repair the blood vessels in the eye. This is especially relevant to patients with diabetes were the vessels of the retina become damaged.

“Currently available treatments for diabetic retinopathy are not always satisfactory. They focus on end-stages of the disease, carry many side effects and fail to address the root causes of the condition. A novel, alternative therapeutic approach is to harness adult stem cells to promote regeneration of the damaged retinal blood vessels and thereby prevent and/or reverse retinopathy.”

“This new research project is one of several regenerative medicine approaches ongoing in the centre. The approach is quite simple: we plan to isolate a very defined population of stem cells and then deliver them to sites in the body that have been damaged by diabetes. In the case of some patients with diabetes, they may gain enormous benefit from stem cell-mediated repair of damaged blood vessels in their retina. This is the first step towards an exciting new therapy in an area where it is desperately needed.”

The research focuses on specific adult stem cells derived from bone-marrow.   

The project will develop ways to grow the bone-marrow-derived stem cells. They will be tested in several preclinical models of diabetic complications at centres in Belfast, Galway, Munich, Berlin and Porto before human trials take place in Denmark.

Further information on the Centre for Vision and Vascular Science at Queen’s is available online at:

http://www.qub.ac.uk/research-centres/CentreforVisionandVascularScience/