Cultured cells from the bone marrow can heal nerves in diabetes model

Transplanting cells that replenish blood vessels can also restore nerve function in an animal model of diabetic neuropathy, Emory researchers have found.

The results are described online this week in the journal Circulation.

The majority of people with diabetes have some form of neuropathy--damage to the peripheral nerves that can cause a loss of sensation in hands, arms, feet or legs. The damage, caused by high blood sugar, occurs gradually and in advanced cases can lead to amputation. Scientists have connected the damage to problems with peripheral nerves' blood supply.

Cultured cells from the bone marrow can promote the regrowth of both blood vessels and the protective lining of nerves in the limbs of diabetic animals, a team led by Young-sup Yoon, MD, PhD, associate professor of medicine (cardiology) at Emory University School of Medicine, found.

Bone marrow is thought to contain endothelial progenitor cells (EPCs), which can divide into endothelial cells, forming a "patch" for damaged blood vessels.

Yoon's team cultured bone marrow cells in a way designed to enrich them for EPCs and injected them next to the sciatic nerves of diabetic mice. The sciatic nerve is a large nerve that runs from the back to the rear leg. The mice were made diabetic by giving them streptozocin, a drug that poisons insulin-producing cells in the pancreas.

The team found that over several weeks, nerve signal speed and sensitivity to temperature were restored to normal in diabetic mice injected with the bone marrow cells.

A fraction of the bone marrow cells appear to become endothelial cells although many of them retain characteristics that make them look like white blood cells. However, they secrete molecules that stimulate the growth of both endothelial cells and Schwann cells, which protect and insulate peripheral nerves, the authors found.

Bone marrow-derived EPCs have also been used in studies of heart muscle repair after heart attack. However, most previous studies indicate that they disappear from the heart muscle after a few weeks.

"We were surprised to find that in this specific environment, they engraft and survive longer than in other tissues," Yoon says. "These cells appear to home to peripheral nerves."

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