Event Abstract

Back to Event

Whole exome sequencing reveals complex inheritance patterns and identifies two gene mutations implicated in the development of Autism and Intellectual Disability in a consanguineous Palestinian family

Reham Khalaf-Nazzal1, Imad Dweikat2* and Arwa Maqboul3
  • 1 Faculty of Medicine and Health Sciences, An-Najah National University, Physiology, pharmacology and toxicology department, Palestine
  • 2 Pediatrics department at An-Najah NAtional University Hospital, Clinical medicine department, Palestine
  • 3 Faculty of Medicine and Health Sciences, Palestine

Despite significant heritability of autism spectrum disorders (ASDs) and intellectual disability (ID), their extreme genetic heterogeneity has proven challenging for gene discovery. The application of next generation sequencing technologies to study families with complex consanguinity proved beneficial in identifying inherited risk alleles. In this study, we apply whole exome sequencing (WES) followed by segregation analysis and phenotype-genotype correlation to study genetic changes in three siblings of a highly consanguineous Palestinian family in which parents are first cousins, and consanguineous marriages ran over the past four generations. The three siblings presented with a neurodevelopmental phenotype that was evident in early childhood. One of the children presented with stereotypic repetitive behaviour suggestive of ASD and mild visual impairment. The second child presented with mild to moderate forms of ID and mild visual impairment, and the third child presented with the most severe phenotype including severe visual impairment, severe ID, and stereotypic and repetitive behaviours suggestive of ASD. WES was performed for a single child, who had the most severe phenotype presenting with both ID and ASD. WES analysis revealed the presence of two homozygous pathogenic mutations. One in the gene encoding for the cyclin M2 (CNNM2), responsible for dominant hypomagnesemia, and the second in the transmembrane TMEM-163 gene. Segregation analysis in other family members confirmed that the other two affected children with the less severe phenotype had homozygous CNNM2 mutation, but not TMEM163 mutation. The parents were heterozygous for the two gene mutations. Our results confirm that CNNM2, which was previously implicated in dominant isolated hypomagnesemia, is now causing a variable neurodevelopmental phenotype including ASD and ID when inherited in an autosomal recessive manner. The detected novel mutation is not located in the cystathionine beta synthase (CBS) domain, which is altered in structure in the dominant hypomagnesemia phenotype(Stuiver et al., 2011). Crystallography experiments indicate its possible role in changing the orientation of this domain rather than its direct structure. Taking into account the normal Magnesium blood levels in our patients, and gene expression pattern of this gene in perinatal rodent brain, our data strongly suggests a new function of this membrane protein in the developing CNS. TMEM-163 protein, or synaptic vesicle 31 (SV31), was first identified by proteomics of rodent brain synaptosomes (Burré et al., 2007). Recently, it is reported to interact with the channel TRPML1, mutated in Mucolipidosis type IV patients (Cuajungco et al., 2014). Gene expression experiments revealed the expression of this gene in peri-natal rodent brain, which suggest its possible role in neural circuit development and maturation. Altogether, our data describes two novel genes and mutations implicated in severe neuropsychiatric diseases including ID and ASD. Additionally, the use of WES technology for disease-causing gene mutation discovery has a great advantage in revealing complex inheritance patterns including the inheritance of two autosomal recessive gene mutations in the same patient and family, highlighting the role of this discovery in proper patient management and family counselling.

Acknowledgements

Special thanks to An-Najah Child institute for their instrumental help in performing the neuropsychiatric evaluation of the children.
Sincere thanks to Partenariats Hubert Curien and An-Najah National University for funding this project

References

Burré, J., Zimmermann, H., and Volknandt, W. (2007). Identification and characterization of SV31, a novel synaptic vesicle membrane protein and potential transporter. J. Neurochem. 103, 276–287.
Cuajungco, M.P., Basilio, L.C., Silva, J., Hart, T., Tringali, J., Chen, C.-C., Biel, M., and Grimm, C. (2014). Cellular Zinc Levels Are Modulated by TRPML1–TMEM163 Interaction. Traffic 15, 1247–1265.
Stuiver, M., Lainez, S., Will, C., Terryn, S., Günzel, D., Debaix, H., Sommer, K., Kopplin, K., Thumfart, J., Kampik, N.B., et al. (2011). CNNM2, encoding a basolateral protein required for renal Mg2+ handling, is mutated in dominant hypomagnesemia. Am. J. Hum. Genet. 88, 333–343.

Keywords: Intellectual Disability, Autism Spectrum Disorders, whole exome sequencing, recessive inheritance, genetic mutation

Conference: International Conference - Educational Neuroscience, Abu Dhabi, United Arab Emirates, 28 Feb - 29 Feb, 2016.

Presentation Type: Poster Presentation

Topic: Educational Neuroscience

Citation: Khalaf-Nazzal R, Dweikat I and Maqboul A (2016). Whole exome sequencing reveals complex inheritance patterns and identifies two gene mutations implicated in the development of Autism and Intellectual Disability in a consanguineous Palestinian family. Front. Neurosci. Conference Abstract: International Conference - Educational Neuroscience. doi: 10.3389/conf.fnins.2016.92.00010

Copyright: The abstracts in this collection have not been subject to any Frontiers peer review or checks, and are not endorsed by Frontiers. They are made available through the Frontiers publishing platform as a service to conference organizers and presenters.

The copyright in the individual abstracts is owned by the author of each abstract or his/her employer unless otherwise stated.

Each abstract, as well as the collection of abstracts, are published under a Creative Commons CC-BY 4.0 (attribution) licence (https://creativecommons.org/licenses/by/4.0/) and may thus be reproduced, translated, adapted and be the subject of derivative works provided the authors and Frontiers are attributed.

For Frontiers’ terms and conditions please see https://www.frontiersin.org/legal/terms-and-conditions.

Received: 25 Jan 2016; Published Online: 23 Mar 2016.

* Correspondence: MD. Imad Dweikat, Pediatrics department at An-Najah NAtional University Hospital, Clinical medicine department, Nablus, 007, Palestine, i.dweikat@najah.edu