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Gene therapy involving antibiotics may help patients with Usher syndrome
June 03, 2008Barcelona, Spain: A new approach to treating vision loss caused by Type 1 Usher syndrome (USH1), the most common condition affecting both sight and hearing, will be unveiled by a scientist at the annual conference of the European Society of Human Genetics tomorrow (Tuesday 3 June). Ms Annie Rebibo Sabbah, from the Genetics Department of the Rappaport Faculty of Medicine, Technion, Haifa, Israel, will tell the conference that preliminary results using a class of drugs called aminoglycosides, commonly used as antibiotics, had had promising effects in vitro and in cell culture.
Usher syndrome is a recessively- inherited disease; in order to have it, the child must receive a mutated form of the Usher gene from each parent. Approximately 3 to 6 percent of all children who are deaf and another 3 to 6 percent of children who are hard-of-hearing have it. In developed countries, about four babies in every 100,000 births have Usher syndrome. Children born with USH1 begin to develop visual problems in early childhood, and these develop quickly into an eye disorder called retinitis pigmentosa, which leads to complete blindness.
"There are several types of genetic mutations involved in Usher syndrome, including nonsense mutations. In this type of mutations the protein in the cell is totally absent, or abnormally short", says Ms Rebibo Sabbah. "We knew that aminoglycosides are able to suppress nonsense mutations to the extent that, instead of having no protein at all, or a truncated protein, the cell receives a partial amount of full-length protein that may even be functional."
As a model, the team took several nonsense mutations of the PCDH15 gene, which is responsible for Usher syndrome. They were able to produce partial suppression of the mutations in vitro using commercial aminoglycosides. The same result was achieved ex vivo, in cultured cells.
"Despite these promising results, the most serious problem with aminoglycosides is their toxicity to the kidney and to the inner ear, which causes limitation in their use", says Ms Rebibo Sabbah. "We worked with Professor Baasov, from the Chemistry Faculty at Technion, to try to develop a new compound based on aminoglycosides which will have reduced toxicity."
The scientists tested more than forty new compounds for ones which had the same efficacy as aminoglycosides, but with significantly reduced toxicity. "We found a very promising new compound, called NB30", says Ms Rebibo Sabbah. "After testing its toxicity in cells, we tried it in mice. In both models the toxicity was significantly reduced compared to the current commercially available aminoglycosides, and we could also see the suppressive activity of NB30 in the cultured cells."
This is the first time that this therapeutic strategy has been tried in Usher syndrome, the scientists say. Their next step will be to look at another USH1- related gene (CDH23) and its nonsense mutations in both humans and mice.
"Our final aim is to prove that a nonsense mutation underlying Usher syndrome is capable of being suppressed in vivo in a mouse model by commercial aminoglycosides, and also by NB30, and that this will have a positive effect on retinal function", says Ms Rebibo Sabbah. "We will also continue to look for new compounds with improved characteristics."
The researchers hope that their work will lead to therapy to delay the progression and, indeed, the onset, of vision loss in patients with USH1. "Because it is recessively inherited, this is a particularly invidious disease", says Ms Rebibo Sabbah.
"In most cases, parents have normal hearing and vision and are not aware that they are carriers of Usher syndrome. But if they have a child with another carrier, they will have a one in four chance of having a child with the condition at each birth. We need urgently to find an effective treatment."
European Society of Human Genetics
As a model, the team took several nonsense mutations of the PCDH15 gene, which is responsible for Usher syndrome. They were able to produce partial suppression of the mutations in vitro using commercial aminoglycosides. The same result was achieved ex vivo, in cultured cells.
"Despite these promising results, the most serious problem with aminoglycosides is their toxicity to the kidney and to the inner ear, which causes limitation in their use", says Ms Rebibo Sabbah. "We worked with Professor Baasov, from the Chemistry Faculty at Technion, to try to develop a new compound based on aminoglycosides which will have reduced toxicity."
The scientists tested more than forty new compounds for ones which had the same efficacy as aminoglycosides, but with significantly reduced toxicity. "We found a very promising new compound, called NB30", says Ms Rebibo Sabbah. "After testing its toxicity in cells, we tried it in mice. In both models the toxicity was significantly reduced compared to the current commercially available aminoglycosides, and we could also see the suppressive activity of NB30 in the cultured cells."
This is the first time that this therapeutic strategy has been tried in Usher syndrome, the scientists say. Their next step will be to look at another USH1- related gene (CDH23) and its nonsense mutations in both humans and mice.
"Our final aim is to prove that a nonsense mutation underlying Usher syndrome is capable of being suppressed in vivo in a mouse model by commercial aminoglycosides, and also by NB30, and that this will have a positive effect on retinal function", says Ms Rebibo Sabbah. "We will also continue to look for new compounds with improved characteristics."
The researchers hope that their work will lead to therapy to delay the progression and, indeed, the onset, of vision loss in patients with USH1. "Because it is recessively inherited, this is a particularly invidious disease", says Ms Rebibo Sabbah.
"In most cases, parents have normal hearing and vision and are not aware that they are carriers of Usher syndrome. But if they have a child with another carrier, they will have a one in four chance of having a child with the condition at each birth. We need urgently to find an effective treatment."
European Society of Human Genetics
Usher Syndrome Current Events and Usher Syndrome News RSSScripps research scientists discover molecular defect involved in hearing loss
Scientists from The Scripps Research Institute have elucidated the action of a protein, harmonin, which is involved in the mechanics of hearing.
Study offers clues to beating hearing loss
Researchers at the University of Leeds have made a significant step forward in understanding the causes of some forms of deafness.
'Holy Grail' of hearing: True identity of pivotal hearing structure is revealed
Our ability to hear is made possible by way of a Rube Goldberg-style process in which sound vibrations entering the ear shake and jostle a successive chain of structures until, lo and behold, they are converted into electrical signals that can be interpreted by the brain.
Scripps Research scientists reveal pivotal hearing structure
In a study published in the September 6, 2007, issue of the journal Nature, researchers showed that two key proteins join together at the precise location where energy of motion is turned into electrical impulses.
Protein tied to usher syndrome may be hearing's 'Missing Link'
A protein associated with a disorder that causes deafness and blindness in people may be a key to unraveling one of the foremost mysteries of how we hear.
Natural selection has strongly influenced recent human evolution, Cornell/Celera Genomics study finds
he most detailed analysis to date of how humans differ from one another at the DNA level shows strong evidence that natural selection has shaped the recent evolution of our species.
Deaf-blind woman deafer than deaf-blind man
Dutch researcher Ronald Pennings has found new clinical and genetic characteristics for two different inherited syndromes that cause deaf-blindness. One of the two syndromes appears to cause more hearing impairment in women than in men. Pennings investigated Wolfram syndrome and Usher syndrome. These are two inherited syndromes that cause both deafness and blindness. Female patients with Wolfram syndrome were found to have significantly worse hearing than male patients. Usher syndrome causes about fifty percent of deaf-blindness cases. This syndrome is characterised by hearing impairment and a retinal disorder. Patients develop tunnel vision and can even become blind. Various forms of Ush
Light shed on vision and hearing disorders
The most common hereditary condition that affects both hearing and vision is Usher Syndrome (USH). In the next issue of The EMBO Journal, scientists at the Institut Pasteur report on studies that have established the first link between Myosin VIIa, Cadherin 23 and Harmonin b. These three proteins were previously known to be involved in the disease, but mutations in them had only been found in separate groups of patients. In this report, the team of Christine Petit demonstrates that these proteins function together to shape and maintain highly specialized structures at the tips of the sensory cells of the inner ear. It is precisely these structures that are essential for hearing, but which a
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