Indiana University Researchers Closer to Helping Hearing

Editor: Here's an article with more good news about efforts to reverse hearing loss. This one involves the regeneration of inner ear hair cells with the assistance of stem cells. The article does not include an estimate of when this technology might be commercially available, but I believe that some of these recent breakthroughs will result in viable commercial procedures within the next decade.

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INDIANAPOLIS, March 28 (AScribe Newswire) -- Researchers at Indiana University School of Medicine are several steps closer to the day when a profoundly deaf patient's own bone marrow cells could be used to let him or her hear the world.

The IU group, led by Eri Hashino, Ph.D., was able to transform, in the laboratory, stem cells taken from adult bone marrow into cells with many of the characteristics of sensory nerve cells -- neurons -- found in the ear. The results suggest that these adult stem cells could be used to treat deaf patients in the future, said Dr. Hashino, an associate professor and Ruth C. Holton Scholar in the Department of Otolaryngology -- Head and Neck Surgery.

The cells used in the research are called marrow stromal cells -- a type of stem cell from which fat, bone and cartilage normally develop.

"We were interested in marrow stromal cells because of their potential for use in autologous cell-based therapy," said Dr. Hashino, referring to cell transplantation in which a patient's own cells are used in treatment. The cells can be collected easily and kept alive in the laboratory until needed, she said.

Other researchers had previously shown that the marrow stromal cells could be induced to transform into neuronal cells, but it wasn't clear whether, or how, the cells could be further transformed into useful specialized neurons.

In a two-step process, Dr. Hashino and her colleagues first cultivated mouse marrow stromal cells with chemicals known to encourage stems cells to change into primitive neurons. The bone marrow cells took the shape and other characteristics of neurons. Next, they exposed the cells to two molecules that are secreted from nearby tissues of the ear during embryonic development. The two molecules -- known as Sonic hedgehog and retinoic acid -- together caused the marrow stromal cells to further develop into cells with many of the characteristics of auditory neurons, such as the presence of specific genes and proteins.

Dr. Hashino said she and her colleagues are beginning new experiments to test the feasibility of marrow stromal cell transplantation to stimulate the growth of the nerve cells that are often missing from the inner ears of patients with profound hearing loss.

"Sonic hedgehog and retinoic acid are molecules found in embryonic tissues, but not in adult tissues," said Dr. Hashino. "This suggests that treating marrow-derived stem cells with these molecules before transplantation might greatly enhance the possibility that the process would result in development of specific sensory neurons."