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Gene discovery may shed light on kidney disease
August 01, 2006Second gene found for Alagille syndrome may have broader role
In a finding that may have broader implications for understanding kidney disorders, genetics researchers at The Children's Hospital of Philadelphia have identified a second gene that gives rise to Alagille syndrome, a genetic developmental disease that affects multiple organs. The Children's Hospital team previously discovered the first gene associated with this disease.
The researchers found that mutations in the NOTCH2 gene were linked to kidney abnormalities in patients and families. "While Alagille syndrome is relatively rare, organ diseases are not rare, and our findings suggest that genes on this biological pathway may have a broader role in kidney disorders," said study leader Nancy B. Spinner, Ph.D., a geneticist at The Children's Hospital of Philadelphia.
The study appears in the July issue of the American Journal of Human Genetics.
Dr. Spinner led the Children's Hospital team that identified mutations in the JAG1 gene as a cause of Alagille syndrome in 1997. Like the NOTCH2 gene analyzed in the current study, JAG1 is part of a signaling pathway that governs important processes in early human development.
Alagille syndrome, estimated to occur in one in 20,000 individuals, is a complex disorder, primarily affecting the liver, heart, eyes, face and skeleton. Some patients with Alagille syndrome have very mild symptoms or isolated problems, while others may have severe, life-threatening heart or liver defects.
Both the JAG1 and the NOTCH2 genes participate in the Notch signaling pathway. JAG1 codes for the ligand Jagged1, a signaling protein that triggers receptors in the pathway. The NOTCH2 gene codes for Notch2, which is one of those receptors. The pathway as a whole is active during embryonic development, and transmits signals to cells to develop into specialized organs. Mutations in those genes are thought to disrupt normal development, by, for instance, causing the defective bile ducts found in the livers of many patients with Alagille syndrome.
"Ligands and receptors are like keys and locks," said Dr. Spinner. "If either one is defective, it may interfere with normal growth and development."
Dr. Spinner's team previously determined that 94 percent of patients diagnosed with Alagille syndrome had mutations in the JAG1 gene. In the current study, they analyzed 11 patients with Alagille syndrome who did not have the JAG1 mutation, and found that two of them had mutations in NOTCH2. Furthermore, the patients had three family members, all mildly affected, who also had the same mutation. All five individuals had kidney disease.
Because their study identified only two families with NOTCH2 mutations, said Dr. Spinner, it is not definitive in establishing that those mutations cause a distinct variety of Alagille syndrome. However, it is the first study to report that mutations in the NOTCH2 gene cause human disease. Dr. Spinner is planning further studies to better characterize the role of NOTCH2 mutations and the Notch signaling pathway in the wider population of patients with kidney disorders.
She also will investigate liver involvement in Alagille syndrome under the Rare Diseases Clinical Research Network, recently established by the National Institutes of Health. "Part of the rationale for this research network is that, collectively, relatively rare diseases added together constitute a significant portion of the population," said David A. Piccoli, M.D., chief of Gastroenterology and Nutrition at Children's Hospital and a co-author of the study. "Another rationale is that studying relatively rare diseases may offer insights into more common diseases and into health in general."
Children's Hospital of Philadelphia
The study appears in the July issue of the American Journal of Human Genetics.
Dr. Spinner led the Children's Hospital team that identified mutations in the JAG1 gene as a cause of Alagille syndrome in 1997. Like the NOTCH2 gene analyzed in the current study, JAG1 is part of a signaling pathway that governs important processes in early human development.
Alagille syndrome, estimated to occur in one in 20,000 individuals, is a complex disorder, primarily affecting the liver, heart, eyes, face and skeleton. Some patients with Alagille syndrome have very mild symptoms or isolated problems, while others may have severe, life-threatening heart or liver defects.
Both the JAG1 and the NOTCH2 genes participate in the Notch signaling pathway. JAG1 codes for the ligand Jagged1, a signaling protein that triggers receptors in the pathway. The NOTCH2 gene codes for Notch2, which is one of those receptors. The pathway as a whole is active during embryonic development, and transmits signals to cells to develop into specialized organs. Mutations in those genes are thought to disrupt normal development, by, for instance, causing the defective bile ducts found in the livers of many patients with Alagille syndrome.
"Ligands and receptors are like keys and locks," said Dr. Spinner. "If either one is defective, it may interfere with normal growth and development."
Dr. Spinner's team previously determined that 94 percent of patients diagnosed with Alagille syndrome had mutations in the JAG1 gene. In the current study, they analyzed 11 patients with Alagille syndrome who did not have the JAG1 mutation, and found that two of them had mutations in NOTCH2. Furthermore, the patients had three family members, all mildly affected, who also had the same mutation. All five individuals had kidney disease.
Because their study identified only two families with NOTCH2 mutations, said Dr. Spinner, it is not definitive in establishing that those mutations cause a distinct variety of Alagille syndrome. However, it is the first study to report that mutations in the NOTCH2 gene cause human disease. Dr. Spinner is planning further studies to better characterize the role of NOTCH2 mutations and the Notch signaling pathway in the wider population of patients with kidney disorders.
She also will investigate liver involvement in Alagille syndrome under the Rare Diseases Clinical Research Network, recently established by the National Institutes of Health. "Part of the rationale for this research network is that, collectively, relatively rare diseases added together constitute a significant portion of the population," said David A. Piccoli, M.D., chief of Gastroenterology and Nutrition at Children's Hospital and a co-author of the study. "Another rationale is that studying relatively rare diseases may offer insights into more common diseases and into health in general."
Children's Hospital of Philadelphia
Kidney Disease Current Events and Kidney Disease News RSSHigh Blood Pressure Easy to Miss in Children with Kidney Disease
Spot blood pressure readings in children with chronic kidney disease often fail to detect hypertension - even during doctor's office visits - increasing a child's risk for serious heart problems, according to research from Johns Hopkins Children's Center and other institutions. A report of the findings appears online in the Journal of American Society of Nephrology.
New research shows versatility of amniotic fluid stem cells
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To best detect early signs of life-threatening heart defects in young athletes, screening programs should include both popular diagnostic tests, not just one of them, according to new research from heart experts at Johns Hopkins.
New class of molecules may help prevent fatal complication in patients with kidney disease
Researchers at the University of Maryland School of Medicine have made an important discovery about why potassium builds up to dangerous levels in the bloodstream, a relatively common medical problem that affects about eight percent of hospitalized patients.
Reduction in glycotoxins from heat-processing of foods reduces risk of chronic disease
Researchers from Mount Sinai School of Medicine report that cutting back on the consumption of processed and fried foods, which are high in toxins called Advanced Glycation End products (AGEs), can reduce inflammation and actually help restore the body's natural defenses regardless of age or health status.
Help your kidneys: Pass on salt and diet soda
Individuals who consume a diet high in sodium or artificially sweetened drinks are more likely to experience a decline in kidney function, according to two papers being presented at the American Society of Nephrology's annual meeting in San Diego, California.
Can charcoal fight heart disease in kidney patients?
Charcoal may provide a new approach to managing the high rate of heart disease in patients with advanced kidney disease, according to preliminary research being presented at the American Society of Nephrology's 42nd Annual Meeting and Scientific Exposition in San Diego, CA.
Women with chronic kidney disease more likely than men to go undiagnosed
Woman are at particular risk of their primary care physicians delaying diagnosis of chronic kidney disease (CKD), according to a paper being presented at the American Society of Nephrology's 42nd Annual Meeting and Scientific Exposition in San Diego, California.
For dialysis patients, skinny is dangerous
Dialysis patients with low body fat are at increased risk of death-even compared to patients at the highest level of body fat percentage, according to research being presented at the American Society of Nephrology's 42nd Annual Meeting and Scientific Exposition in San Diego.
Protein critical for insulin secretion may be contributor to diabetes
A cellular protein from a family involved in several human diseases is crucial for the proper production and release of insulin, new research has found, suggesting that the protein might play a role in diabetes.
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