Disruption of ST5 is associated with mental retardation and multiple congenital anomalies
- Ina Göhring1,
- Andreas Tagariello1,
- Sabine Endele1,
- Claus C Stolt2,
- Michella Ghassibé3,
- Malcolm Fisher4,
- Christian T Thiel1,
- Udo Trautmann1,
- Miikka Vikkula3,
- Andreas Winterpacht1,
- David R FitzPatrick4,
- Anita Rauch1,5
- 1Institute of Human Genetics, Friedrich-Alexander University Erlangen-Nuremberg, Erlangen, Germany
- 2Institute of Biochemistry, Emil-Fischer Centre, Friedrich-Alexander University Erlangen-Nuremberg, Erlangen, Germany
- 3de Duve Institute, Université catholique de Louvain, Brussels, Belgium
- 4Medical and Developmental Genetics Section, MRC Human Genetics Unit, Western General Hospital, Edinburgh, UK
- 5Institute of Medical Genetics, University of Zurich, Schwerzenbach-Zurich, Switzerland
- Correspondence to Professor Anita Rauch, Institute of Medical Genetics, University of Zurich, Schorenstrasse 16, CH-8603 Schwerzenbach-Zurich, Switzerland; anita.rauch{at}medgen.uzh.ch
- Received 26 May 2009
- Accepted 10 September 2009
- Published Online First 19 October 2009
Abstract
Background The authors observed a patient with a cryptic subtelomeric de novo balanced translocation 46,XY.ish t(11;20)(p15.4;q13.2) presenting with severe mental retardation, muscular hypotonia, seizures, bilateral sensorineural hearing loss, submucous cleft palate, persistent ductus Botalli, unilateral cystic kidney dysplasia and frequent infections.
Methods and Results Fluorescence in situ hybridisation mapping and sequencing of the translocation breakpoints showed that no known genes are disrupted at 20q13.2 and that ST5 (suppression of tumorigenicity 5; MIM 140750) is disrupted on 11p15.4. By quantitative PCR from different human tissues, the authors found ST5 to be relatively evenly expressed in fetal tissues. ST5 expression was more pronounced in adult brain, kidney and muscle than in the corresponding fetal tissues, whereas expression in other tissues was generally lower than in the fetal tissue. Using RNA in situ hybridisation in mouse, the authors found that St5 is expressed in the frontal cortex during embryonic development. In adult mouse brain, expression of St5 was especially high in the hippocampal area and cerebellum.
Conclusion Hence, the authors suppose that ST5 plays an important role in central nervous system development probably due to disturbance of DENN-domain-mediated vesicle formation and neurotransmitter trafficking. Thus, these findings implicate ST5 in the aetiology of mental retardation, seizures and multiple congenital anomalies.
Footnotes
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Funding This study was supported by the IZKF grant E5 to AR. MV was supported by a grant from the F.R.S.-FNRS. This work was performed as part of our research study addressing the genetics of mental retardation, which was approved by the research ethics committee of the Medical Faculty of the University of Erlangen-Nuremberg.
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Competing interests None.
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Patient consent Obtained.
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Provenance and peer review Not commissioned; externally peer reviewed.
