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Protein-protein interaction explains vision loss in genetic diseases
May 11, 2009The mystery of genetic disease is only partially solved with the identification of a mutated gene. Often, the pattern of disease - the features or disorders associated with it - vary in type and severity among those who are affected. Scientists, physicians and patients all ask why.
In this week's journal Nature Genetics, an international consortium of researchers, including some from Baylor College of Medicine (www.bcm.edu), provide not only an explanation for the variations of vision loss in people with a host of disorders associated with defective cilia within the cells, but also a blueprint for unraveling similar variations in signs among people with other genetic diseases.
In particular, this report deals with a variant of the gene RPGRIP1L (retinitis pigmentosa GTPase regulator-interacting protein-1 like), a ciliary gene mutated in at least two inherited diseases (Meckel-Gruber and Joubert syndromes). However, the researchers showed that, when people who have similar diseases that are caused by different gene mutations affecting the cilia also have a particular variant of this gene, they also suffer more severe degeneration of the retina - the light-sensing part of the eye - and lose vision.
"When you look at a disorder such as Bardet-Biedl Syndrome with multiple features - extra fingers and toes, retinitis pigmentosa (a vision disorder), asthma, obesity and kidney, you wonder how a single gene can interact or influence the expression of the other 25,000 or so genes that humans have," said Dr. Richard Lewis (http://www.bcm.edu/eye/?PMID=7908), professor of ophthalmology, medicine, pediatrics, and molecular and human genetics at BCM and an author of the report.
In Bardet-Biedl Syndrome, he and his collaborators first identified the fact that it takes three changes in gene copies to cause disease. So far, they have identified most of the 14 different mutated genes associated with the disorder. Most have something to do with the structure or function of cilia, he said.
Cilia are tiny hair-like structures that either move things along inside the cell or help with sensory activities.
"Anything that disrupts this elevator that runs things from one part of a cell to another has an effect on the severity of the disorder," Lewis said. Some mutated genes may alter the structure of the elevator shaft and the movement of the car up and down, but another gene could actually affect the speed at which the elevator moves, said Lewis. If the product of that gene varies also, then it affects the protein interaction and ultimately, the patient's ability to see.
The authors note in their article that this finding highlights the importance of a multifaceted, multidisciplinary approach to discovering genes and proteins that modify these outward or phenotypic effects of genetic disease. These authors meld the talents of clinicians caring for patients and families with gene hunters and scientists working to understand the function of genes and their products in different cells and tissues.
Baylor College of Medicine
"When you look at a disorder such as Bardet-Biedl Syndrome with multiple features - extra fingers and toes, retinitis pigmentosa (a vision disorder), asthma, obesity and kidney, you wonder how a single gene can interact or influence the expression of the other 25,000 or so genes that humans have," said Dr. Richard Lewis (http://www.bcm.edu/eye/?PMID=7908), professor of ophthalmology, medicine, pediatrics, and molecular and human genetics at BCM and an author of the report.
In Bardet-Biedl Syndrome, he and his collaborators first identified the fact that it takes three changes in gene copies to cause disease. So far, they have identified most of the 14 different mutated genes associated with the disorder. Most have something to do with the structure or function of cilia, he said.
Cilia are tiny hair-like structures that either move things along inside the cell or help with sensory activities.
"Anything that disrupts this elevator that runs things from one part of a cell to another has an effect on the severity of the disorder," Lewis said. Some mutated genes may alter the structure of the elevator shaft and the movement of the car up and down, but another gene could actually affect the speed at which the elevator moves, said Lewis. If the product of that gene varies also, then it affects the protein interaction and ultimately, the patient's ability to see.
The authors note in their article that this finding highlights the importance of a multifaceted, multidisciplinary approach to discovering genes and proteins that modify these outward or phenotypic effects of genetic disease. These authors meld the talents of clinicians caring for patients and families with gene hunters and scientists working to understand the function of genes and their products in different cells and tissues.
Baylor College of Medicine
Genetic Diseases Current Events and Genetic Diseases News RSSNew research shows versatility of amniotic fluid stem cells
For the first time, scientists have demonstrated that stem cells found in amniotic fluid meet an important test of potential to become specialized cell types, which suggests they may be useful for treating a wider array of diseases and conditions than scientists originally thought.
First reconstitution of an epidermis from human embryonic stem cells
Stem cell research is making great strides. This is yet again illustrated by a study carried out by the I-STEM* Institute (I-STEM/ Inserm UEVE U861/AFM), published in the Lancet on 21 November 2009. The I-STEM team, directed by Marc Peschanski has just succeeded in recreating a whole epidermis from human embryonic stem cells.
Mechanism related to the onset of various genetic diseases revealed
Researchers at the Department of Biochemistry and Molecular Biology of Universitat Autònoma de Barcelona (UAB) have revealed the process by which proteins with a tendency to cause conformational diseases such as amyotrophic lateral sclerosis, familial amyloidotic polyneuropathy, familial amyloidotic cardiomyopathy, etc. finally end up causing them.
Rare genetic disease successfully reversed using stem cell transplantation
A recent study by Scripps Research Institute scientists offers good news for families of children afflicted with the rare genetic disorder, cystinosis.
ISU researchers working to develop, market embryonic test for bovine genetics
Looking at the genetic makeup of cattle to determine their value is nothing new.
Technique enables efficient gene splicing in human embryonic stem cells
A novel technique allows researchers to efficiently and precisely modify or introduce genes into the genomes of human embryonic stem cells (ESCs) and induced pluripotent stem (iPS) cells, according to Whitehead scientists.
Unstable proteins can cause premature ageing
The normal ageing process has long been linked to problems with cell respiration, the process through which the cells extract energy from nutrients.
'Corrective genes' closer thanks to enzyme modification
Scientists from the Université de Montréal and McGill University have re-engineered a human enzyme, a protein that accelerates chemical reactions within the human body, to become highly resistant to harmful agents such as chemotherapy, according to a new study published in The Journal of Biological Chemistry.
Research sheds light on cause of Down syndrome and other genetic disorders
Scientists have a better understanding of what causes an abnormal number of chromosomes in offspring, a condition called aneuploidy that encompasses the most common genetic disorders in humans, such as Down syndrome, and is a leading cause of pregnancy loss.
New map of genomic variations will enable disease research
Genetics researchers have unveiled a powerful new resource for scientists and health providers studying human illnesses--a reference standard of deletions and duplications of DNA found in the human genome.
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