Mutated Nesprin4 protein prevents hearing

Published on January 29, 2013 at 2:03 AM · No Comments

Because half of all instances of hearing loss are linked to genetic mutations, advanced gene research is an invaluable tool for uncovering causes of deafness - and one of the biggest hopes for the development of new therapies. Now Prof. Karen Avraham of the Sackler Faculty of Medicine at Tel Aviv University has discovered a significant mutation in a LINC family protein - part of the cells of the inner ear - that could lead to new treatments for hearing disorders.

Her team of researchers, including Dr. Henning Horn and Profs. Colin Stewart and Brian Burke of the Institute of Medical Biology at A*STAR in Singapore, discovered that the mutation causes chaos in a cell's anatomy. The cell nucleus, which contains our entire DNA, moves to the top of the cell rather than being anchored to the bottom, its normal place. Though this has little impact on the functioning of most of the body's cells, it's devastating for the cells responsible for hearing, explains Prof. Avraham. "The position of the nucleus is important for receiving the electrical signals that determine proper hearing," she explains. "Without the ability to receive these signals correctly, the entire cascade of hearing fails."

This discovery, recently reported in the Journal of Clinical Investigation, may be a starting point for the development of new therapies. In the meantime, the research could lead towards work on a drug that is able to mimic the mutated protein's anchoring function, and restore hearing in some cases, she suggests.

From human to lab to mouse

Prof. Avraham originally uncovered the genetic mutation while attempting to explain the cause of deafness in two families of Iraqi Jewish descent. For generations, members of these families had been suffering from hearing loss, but the medical cause remained a mystery. Using deep genetic sequencing, a technology used to sequence the entire human genome, she discovered that the hearing impaired members of both families had a mutated version of the protein Nesprin4, a part of the LINC group of proteins that links the cell's nucleus to the inner wall of the cell.

In the lab, Prof. Avraham recreated this phenomenon by engineering the mutation in single cells. With the mutation in place, Nesprin4 was not found in the area around the cell nucleus, as in healthy cells, but was spread throughout the entire cell. Investigating further, she studied lab mice that were engineered to be completely devoid of the protein.

Read in | English | Español | Français | Deutsch | Português | Italiano | 日本語 | 한국어 | 简体中文 | 繁體中文 | Nederlands | Русский | Svenska | Polski
Comments
The opinions expressed here are the views of the writer and do not necessarily reflect the views and opinions of News-Medical.Net.
Post a new comment
Post