Exome sequencing identifies a novel frameshift variant causing hypomagnesemia with secondary hypocalcemia

Hypomagnesemia with secondary hypocalcemia is a rare autosomal-recessive disorder characterized by intense hypomagnesemia associated with hypocalcemia (HSH). Mutations in the TRPM6 gene, encoding the epithelial Mg2+ channel TRPM6, have been proven to be the molecular cause of this disease. This study identified causal mutations in a 2-month-old male patient of hypomagnesemia from a consanguineous marriage. Biochemical analyses indicated the diagnosis of HSH due to primary gastrointestinal loss of magnesium. Whole exome sequencing of the trio (i.e. proband and both parents) was carried out with mean coverage of > 150×. ANNOVAR was used to annotate functional consequences of genetic variation from exome sequencing data. After variant filtering and annotation, a number of single nucleotide variants (SNVs) and 2 bp deletion at exon26:c.4402_4403delCT in TRPM6 gene were identified. This deletion which resulted in a novel frameshift mutation in exon 26 of this gene was confirmed by Sanger sequencing. With these investigations in hand, the patient was managed with magnesium sulphate. The patient remained asymptomatic and was developmentally and neurologically normal till his last follow up.

[1]  H. Wen,et al.  A simple method of genomic DNA extraction suitable for analysis of bulk fungal strains , 2010, Letters in applied microbiology.

[2]  B. Dworniczak,et al.  New TRPM6 missense mutations linked to hypomagnesemia with secondary hypocalcemia , 2013, European Journal of Human Genetics.

[3]  J. D. de Baaij The art of magnesium transport. , 2015, Magnesium research.

[4]  Q. Qian,et al.  Genetics of Magnesium Disorders , 2017, Kidney Diseases.

[5]  X. Xing,et al.  Novel TRPM6 Mutations in Familial Hypomagnesemia with Secondary Hypocalcemia , 2013, American Journal of Nephrology.

[6]  Gonçalo R. Abecasis,et al.  The Sequence Alignment/Map format and SAMtools , 2009, Bioinform..

[7]  T. Gudermann,et al.  A critical role of TRPM channel‐kinase for human magnesium transport , 2005, The Journal of physiology.

[8]  G. Sanders,et al.  Magnesium in Disease: a Review with Special Emphasis on the Serum Ionized Magnesium , 1999, Clinical chemistry and laboratory medicine.

[9]  W. Chung,et al.  Clinical application of whole-exome sequencing across clinical indications , 2015, Genetics in Medicine.

[10]  J. Hoenderop,et al.  Magnesium in man: implications for health and disease. , 2015, Physiological reviews.

[11]  J. Hou Claudins and mineral metabolism , 2016, Current opinion in nephrology and hypertension.

[12]  N. Tong,et al.  A novel SLC12A3 gene homozygous mutation of Gitelman syndrome in an Asian pedigree and literature review , 2016, Journal of Endocrinological Investigation.

[13]  T. Gudermann,et al.  Hypomagnesemia with Secondary Hypocalcemia due to a Missense Mutation in the Putative Pore-forming Region of TRPM6* , 2007, Journal of Biological Chemistry.

[14]  Hui Yang,et al.  Genomic variant annotation and prioritization with ANNOVAR and wANNOVAR , 2015, Nature Protocols.

[15]  A. Hahn,et al.  Intestinal Absorption and Factors Influencing Bioavailability of Magnesium-An Update , 2017, Current nutrition and food science.

[16]  R. Kleta,et al.  Genetic causes of hypomagnesemia, a clinical overview , 2016, Pediatric Nephrology.

[17]  T. Gudermann,et al.  Disruption of TRPM6/TRPM7 complex formation by a mutation in the TRPM6 gene causes hypomagnesemia with secondary hypocalcemia. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[18]  E. Hoorn,et al.  Hypomagnesemia as First Clinical Manifestation of ADTKD-HNF1B: A Case Series and Literature Review , 2015, American Journal of Nephrology.

[19]  J. Baaij The art of magnesium transport , 2015 .

[20]  Hui Yang,et al.  Phenolyzer: phenotype-based prioritization of candidate genes for human diseases , 2015, Nature Methods.

[21]  J. Hoenderop,et al.  EGF increases TRPM6 activity and surface expression. , 2009, Journal of the American Society of Nephrology : JASN.

[22]  S. Rahman,et al.  Novel TRPM6 mutations in 21 families with primary hypomagnesemia and secondary hypocalcemia. , 2005, Journal of the American Society of Nephrology : JASN.

[23]  D. Cole,et al.  Inherited disorders of renal magnesium handling. , 2000, Journal of the American Society of Nephrology : JASN.

[24]  M. Konrad,et al.  Recent advances in molecular genetics of hereditary magnesium-losing disorders. , 2003, Journal of the American Society of Nephrology : JASN.

[25]  A. Perraud,et al.  The Channel Kinases TRPM6 and TRPM7 Are Functionally Nonredundant* , 2005, Journal of Biological Chemistry.