Archive for January, 2015

Stem Cells To Repair Broken Chromosomes: Medicine’s Next Big Thing?

Thursday, January 15th, 2015

Source:   FRESNO, Calif. (KFSN) — ABC.com

In 1990 the Human Genome Project started. It was a massive scientific undertaking that aimed to identify and map out the body’s complete set of DNA. This research has paved the way for new genetic discoveries; one of those has allowed scientists to study how to fix bad chromosomes. Click video link above.

Our bodies contain 23 pairs of them, 46 total. But if chromosomesare damaged, they can cause birth defects, disabilities, growth problems, even death.

Case Western scientist Anthony Wynshaw-Boris is studying how to repair damaged chromosomes with the help of a recent discovery.

“You’re taking adult or a child’s skin cells. You’re not causing any loss of an embryo, and you’re taking those skin cells to make a stem cell.” Anthony Wynshaw-Boris, M.D., PhD, of Case Western Reserve University, School of Medicine told ABC30.

Scientists studied patients with a specific defective chromosome that was shaped like a ring. They took the patients’ skin cells and reprogrammed them into embryonic-like cells in the lab. They found this process caused the damaged “ring” chromosomes to be replaced by normal chromosomes.

“It at least raises the possibility that ring chromosomes will be lost in stem cells,” said Dr. Wynshaw-Boris.

While this research was only conducted in lab cultures on the rare ring-shaped chromosomes, scientists hope it will work in patients with common abnormalities like Down syndrome.

“What we’re hoping happens is we might be able to use, modify, what we did, to rescue cell lines from any patient that has any severe chromosome defect,” Dr. Wynshaw-Boris explained.

It’s research that could one day repair faulty chromosomes and stop genetic diseases in their tracks.

The reprogramming technique that transforms skin cells to stem cells was so ground-breaking that a Japanese physician won the Nobel Prize in medicine in 2012 for developing it.

FOR MORE INFORMATION ON THIS REPORT, CONTACT:
Jeannette Spalding
Scientific Writer/Editor
Case Western Reserve University School of Medicine
(216) 368-3004
[email protected]

 

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