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BRIEF REPORT |
Institute of Biomedical and Clinical Science (E.L.E., A.L.G., L.W.H., S.E.F., A.T.H., S.E.), Peninsula Medical School, Exeter EX2 5DW, United Kingdom; Weatherall Institute of Molecular Medicine (A.G.), University of Oxford, Oxford OX1 3QT, United Kingdom; and Department of Clinical Genetics (J.R.), Royal Devon and Exeter National Health Service Foundation Trust, Exeter EX2 5DW, United Kingdom
Address all correspondence and requests for reprints to: Professor Sian Ellard, Department of Molecular Genetics, Royal Devon and Exeter National Health Service Foundation Trust, Barrack Road, Exeter EX2 5DW, United Kingdom. E-mail: sian.ellard{at}rdeft.nhs.uk.
Context: Activating mutations in the KCNJ11 gene, which encodes the Kir6.2 subunit of the pancreatic ß-cell KATP channel, result in permanent and transient neonatal diabetes. The majority of KCNJ11 mutations are spontaneous, but the parental origin of these mutations is not known.
Objective: Our objective was to determine the parental origin of de novo KCNJ11 mutations and investigate the possibility of mosaicism in transmitting parents.
Design: We identified 68 index cases with a KCNJ11 mutation where neither parent was known to be affected. DNA was available from both parents of 41 probands. The parental origin of the mutation was determined in 18 families by examination of pedigrees, microsatellite analysis, or allele-specific PCR.
Results: A nonsignificant excess of paternally derived mutations was found with 13 of 18 (72%) shown to have arisen on the paternal allele. There was no evidence to suggest an association with increased age at conception. In two families, there were half-siblings with permanent neonatal diabetes born to an unaffected father, suggesting germline mosaicism that was confirmed by the presence of the R201C mutation in one father’s semen. Somatic mosaicism was detected in one unaffected mother, and this mutation will also be present in her germ cells.
Conclusion: De novo KCNJ11 mutations can arise either during gametogenesis or embryogenesis. The possibility of germline mosaicism means that future siblings are at increased risk of neonatal diabetes, and we recommend that molecular genetic testing is routinely offered at birth for subsequent siblings of children with de novo KCNJ11 mutations.
This article has been cited by other articles:
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  S. A. Ivarsson and A. Lernmark Comment on: Edghill et al. (2008) Insulin Mutation Screening in 1,044 Patients With Diabetes: Mutations in the INS Gene Are a Common Cause of Neonatal Diabetes but a Rare Cause of Diabetes Diagnosed in Childhood or Adulthood: Diabetes 57:1034-1042, 2008 Diabetes, May 1, 2008; 57(5): e9 - e9. [Full Text] [PDF]
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E. L. Edghill, S. E. Flanagan, A.-M. Patch, C. Boustred, A. Parrish, B. Shields, M. H. Shepherd, K. Hussain, R. R. Kapoor, M. Malecki, et al. Insulin Mutation Screening in 1,044 Patients With Diabetes: Mutations in the INS Gene Are a Common Cause of Neonatal Diabetes but a Rare Cause of Diabetes Diagnosed in Childhood or Adulthood Diabetes, April 1, 2008; 57(4): 1034 - 1042. [Abstract] [Full Text] [PDF]
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S. E. Flanagan, A.-M. Patch, D. J.G. Mackay, E. L. Edghill, A. L. Gloyn, D. Robinson, J. P.H. Shield, K. Temple, S. Ellard, and A. T. Hattersley Mutations in ATP-Sensitive K+ Channel Genes Cause Transient Neonatal Diabetes and Permanent Diabetes in Childhood or Adulthood Diabetes, July 1, 2007; 56(7): 1930 - 1937. [Abstract] [Full Text] [PDF]
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