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UCSD researchers link novel mutated gene to meal retardation and imbalance
May 08, 2006The research team, directed by Joseph Gleeson, M.D., Director of the Neurogenetics Laboratory at the UCSD School of Medicine and associate professor in the Department of Neurosciences, have identified a new gene that, when mutated, leads to JSRD. Their findings will be published on-line May 7 in advance of publication in the journal Nature Genetics.
JSRD is a group of neurodevelopmental syndromes marked by absence of the middle part of the cerebellum called the vermis, along with features including poor balance, jerky eye movements, mental retardation and autism. The most consistent feature seen in children affected with JSRD is a striking finding on brain MRI called the "molar-tooth sign," in which the base of the brain takes on the appearance of a tooth. A subset of JSRD patients also displays disease in other body organs including the retina, kidneys and liver.
The discovery of the new gene linked to JSRD was found in collaboration with scientists at the Mendel Institute in Rome, under the direction of Enza Maria Valente. The researchers studied a large family from Sardinia, Italy, with several members exhibiting the disease. Within the family, in which the parents were second cousins, the scientists discovered a new genetic interval and the presence of the CEP290 (Centrosome-associated protein 290) gene. The research teams identified inactivating mutations in CEP290 in this family and mutations were also identified in families with similar diseases in Turkey, the Palestinian region of Israel and Pakistan. This gene has not previously been implicated in human disease, and encodes a novel protein, previously identified as a centrosomal-associated protein, but with unknown function.
Once the mutations were identified, the group set out to understand the role of the protein in development of the human cerebellum. They found that the gene was produced predominantly in the population of neurons in the brain called cerebellar granule neurons. They also discovered specific protein targets suggesting that the gene may control cell division in the cerebellum during the human development, which would account for the cerebellar defect seen in these patients.
"The results are interesting, because they connect JSRD with other diseases in which retina, kidney and liver are diseased," said Gleeson. These diseases, including recessive kidney cyst disease, Senior-Loken, Bardet-Biedl and Meckel syndromes, are caused by genes that encode proteins localized to ciliated structures or the centrosome. "The data suggests that JSRD may fall into these groups of conditions, although the exact mechanism of how the CEP290 protein regulates cerebellar development remains unknown."
In 2004, Gleeson and his colleagues - along with scientists at Harvard University - discovered mutations in the AH1 gene found on chromosome 6 DNA. The gene is responsible for the most common of three known forms of Joubert Syndrome and was the first genetic defect clearly associated with the disorder.
Additional contributors to the current study include Jennifer Silhavy, Suguna Krishnaswami, Madeline Lancaster and Carrie Louie from the Gleeson lab; Francesco Brancati, Giuseppe Barrano, Maro Castori, Emanuele Bellacchio and Bruno Dallapiccola from the Valente Lab; Eugen Bolshauser, Children's University Hospital in Zurich, Switzerland; Loredana Boccone, Ospedale Microcitemico, Cagliari, Italy; Lihadh Al-Gazali, United Emirates University; Elisa Fazzi, University of Pavia, Italy; Enrico Bertini, Bambino Gesu Hospital in Rome and the International JSRD Study Group.
University of California-San Diego
Once the mutations were identified, the group set out to understand the role of the protein in development of the human cerebellum. They found that the gene was produced predominantly in the population of neurons in the brain called cerebellar granule neurons. They also discovered specific protein targets suggesting that the gene may control cell division in the cerebellum during the human development, which would account for the cerebellar defect seen in these patients.
"The results are interesting, because they connect JSRD with other diseases in which retina, kidney and liver are diseased," said Gleeson. These diseases, including recessive kidney cyst disease, Senior-Loken, Bardet-Biedl and Meckel syndromes, are caused by genes that encode proteins localized to ciliated structures or the centrosome. "The data suggests that JSRD may fall into these groups of conditions, although the exact mechanism of how the CEP290 protein regulates cerebellar development remains unknown."
In 2004, Gleeson and his colleagues - along with scientists at Harvard University - discovered mutations in the AH1 gene found on chromosome 6 DNA. The gene is responsible for the most common of three known forms of Joubert Syndrome and was the first genetic defect clearly associated with the disorder.
Additional contributors to the current study include Jennifer Silhavy, Suguna Krishnaswami, Madeline Lancaster and Carrie Louie from the Gleeson lab; Francesco Brancati, Giuseppe Barrano, Maro Castori, Emanuele Bellacchio and Bruno Dallapiccola from the Valente Lab; Eugen Bolshauser, Children's University Hospital in Zurich, Switzerland; Loredana Boccone, Ospedale Microcitemico, Cagliari, Italy; Lihadh Al-Gazali, United Emirates University; Elisa Fazzi, University of Pavia, Italy; Enrico Bertini, Bambino Gesu Hospital in Rome and the International JSRD Study Group.
University of California-San Diego
Gene Mutation Current Events and Gene Mutation News RSSCancer metabolism discovery uncovers new role of IDH1 gene mutation in brain cancer
Agios Pharmaceuticals today announced that its scientists have established, for the first time, that the mutated IDH1 gene has a novel enzyme activity consistent with a cancer-causing gene, or oncogene.
Maize cell wall genes identified, giving boost to biofuel research
Purdue University scientists have helped identify and group the genes thought to be responsible for cell wall development in maize, an effort that expands their ability to discover ways to produce the biomass best suited for biofuels production.
Stanford scientist's new findings of autism-associated synapse alterations lead to coveted NIH grant
A Stanford University School of Medicine researcher has pinpointed the mechanism by which a gene associated with both autism and schizophrenia influences behavior in mice. And just recently, he received a $1.65 million government grant to expand his efforts to include many more such genes.
Gene mingling increases sudden death risk
A multi-national research team has discovered that two genetic factors converge to increase the risk of sudden cardiac death.
Breast cancer patients with high risk gene diagnosed 6 years earlier than generation before
Women with a deleterious gene mutation are diagnosed with breast cancer six years earlier than relatives of the previous generation who also had the disease and/or ovarian cancer, according to new research from The University of Texas M. D. Anderson Cancer Center.
New Approach for the Treatment of Malignant Brain Tumors
Initial chemotherapy alone after surgery is just as successful as initial radiation therapy for patients from whom a very malignant brain tumor (anaplastic glioma) was removed. With this treatment, the patients survive on average > 30 months without a recurrence.
Genetic discovery could break wine industry bottleneck, accelerate grapevine breeding
One of the best known episodes in the 8000-year history of grapevine cultivation led to biological changes that have not been well understood - until now.
Racial Disparities in Diabetes Prevalence Linked to Living Conditions
The higher incidence of diabetes among African Americans when compared to whites may have more to do with living conditions than genetics, according to a study led by researchers at the Johns Hopkins Bloomberg School of Public Health.
Team reveals molecular mechanism underlying a form of diabetes
By investigating a rare and severe form of diabetes in children, University of Iowa researchers have discovered a new molecular mechanism that regulates specialized pancreatic cells and insulin secretion.
New research strategy for understanding drug resistance in leukemia
UCSF researchers have developed a new approach to identify specific genes that influence how cancer cells respond to drugs and how they become resistant. This strategy, which involves producing diverse genetic mutations that result in leukemia and associating specific mutations with treatment outcomes, will enable researchers to better understand how drug resistance occurs in leukemia and other cancers, and has important long-term implications for the development of more effective therapies.
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