Adi Aran1, Reeval Segel1, Kota Kaneshige1, Suleyman Gulsuner1, Paul Renbaum1, Scott Oliphant1, Tomer Meirson1, Ariella Weinberg-Shukron1, Yair Hershkovitz1, Sharon Zeligson1, Ming K Lee1, Abraham O Samson1, Stanley M Parsons1, Mary-Claire King1, Ephrat Levy-Lahad2, Tom Walsh1. 1. From the Neuropediatric Unit (A.A.) and Medical Genetics (R.S., P.R., A.W.-S., S.Z., E.L.-L.), Shaare Zedek Medical Center; Hebrew University-Hadassah School of Medicine (A.A., R.S., A.W.-S., E.L.-L.), Jerusalem, Israel; Department of Chemistry and Biochemistry (K.K., S.O., S.M.P.), University of California, Santa Barbara; Faculty of Medicine (T.M., Y.H., A.O.S.), Bar Ilan University, Safed, Israel; and Departments of Medicine and Genome Sciences (S.G., M.K.L., M.-C.K., T.W.), University of Washington, Seattle. 2. From the Neuropediatric Unit (A.A.) and Medical Genetics (R.S., P.R., A.W.-S., S.Z., E.L.-L.), Shaare Zedek Medical Center; Hebrew University-Hadassah School of Medicine (A.A., R.S., A.W.-S., E.L.-L.), Jerusalem, Israel; Department of Chemistry and Biochemistry (K.K., S.O., S.M.P.), University of California, Santa Barbara; Faculty of Medicine (T.M., Y.H., A.O.S.), Bar Ilan University, Safed, Israel; and Departments of Medicine and Genome Sciences (S.G., M.K.L., M.-C.K., T.W.), University of Washington, Seattle. lahad@szmc.org.il.
Abstract
OBJECTIVE: To identify the genetic basis of a recessive congenital neurologic syndrome characterized by severe hypotonia, arthrogryposis, and respiratory failure. METHODS: Identification of the responsible gene by exome sequencing and assessment of the effect of the mutation on protein stability in transfected rat neuronal-like PC12A123.7 cells. RESULTS: Two brothers from a nonconsanguineous Yemeni Jewish family manifested at birth with severe hypotonia and arthrogryposis. The older brother died of respiratory failure at 5 days of age. The proband, now 4.5 years old, has been mechanically ventilated since birth with virtually no milestones achievement. Whole exome sequencing revealed homozygosity of SLC18A3 c.1078G>C, p.Gly360Arg in the affected brothers but not in other family members. SLC18A3 p.Gly360Arg is not reported in world populations but is present at a carrier frequency of 1:30 in healthy Yemeni Jews. SLC18A3 encodes the vesicular acetylcholine transporter (VAChT), which loads newly synthesized acetylcholine from the neuronal cytoplasm into synaptic vesicles. Mice that are VAChT-null have been shown to die at birth of respiratory failure. In human VAChT, residue 360 is located in a conserved region and substitution of arginine for glycine is predicted to disrupt proper protein folding and membrane embedding. Stable transfection of wild-type and mutant human VAChT into neuronal-like PC12A123.7 cells revealed similar mRNA levels, but undetectable levels of the mutant protein, suggesting post-translational degradation of mutant VAChT. CONCLUSION: Loss of function of VAChT underlies severe arthrogryposis and respiratory failure. While most congenital myasthenic syndromes are caused by defects in postsynaptic proteins, VAChT deficiency is a presynaptic myasthenic syndrome.
OBJECTIVE: To identify the genetic basis of a recessive congenital neurologic syndrome characterized by severe hypotonia, arthrogryposis, and respiratory failure. METHODS: Identification of the responsible gene by exome sequencing and assessment of the effect of the mutation on protein stability in transfected rat neuronal-like PC12A123.7 cells. RESULTS: Two brothers from a nonconsanguineous Yemeni Jewish family manifested at birth with severe hypotonia and arthrogryposis. The older brother died of respiratory failure at 5 days of age. The proband, now 4.5 years old, has been mechanically ventilated since birth with virtually no milestones achievement. Whole exome sequencing revealed homozygosity of SLC18A3 c.1078G>C, p.Gly360Arg in the affected brothers but not in other family members. SLC18A3 p.Gly360Arg is not reported in world populations but is present at a carrier frequency of 1:30 in healthy Yemeni Jews. SLC18A3 encodes the vesicular acetylcholine transporter (VAChT), which loads newly synthesized acetylcholine from the neuronal cytoplasm into synaptic vesicles. Mice that are VAChT-null have been shown to die at birth of respiratory failure. In human VAChT, residue 360 is located in a conserved region and substitution of arginine for glycine is predicted to disrupt proper protein folding and membrane embedding. Stable transfection of wild-type and mutant human VAChT into neuronal-like PC12A123.7 cells revealed similar mRNA levels, but undetectable levels of the mutant protein, suggesting post-translational degradation of mutant VAChT. CONCLUSION: Loss of function of VAChT underlies severe arthrogryposis and respiratory failure. While most congenital myasthenic syndromes are caused by defects in postsynaptic proteins, VAChT deficiency is a presynaptic myasthenic syndrome.
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