OBJECTIVE: Amyotrophic lateral sclerosis (ALS) is a progressive, neurodegenerative disorder involving upper and lower motor neurons. The vesicle-associated membrane protein B (VAPB) gene has been genetically linked to ALS in several large Brazilian families in which the disorder is caused by a proline to serine mutation at codon 56 (P56S). No additional mutations have been identified. METHODS: To establish the prevalence of VAPB mutations, we screened 80 familial ALS samples by DNA sequencing. RESULTS: Our study failed to identify any novel VAPB gene mutations but identified a single Brazilian family harboring the P56S mutation. In a second familial ALS case, we identified a three-base pair deletion within exon 5 of the VAPB gene that deleted the serine residue at position 160 (Delta S160). This variant is detected in a normal population at low frequency (0.45%). Analyses of homology alignment and secondary structure predict that this deletion significantly alters the structure of VAPB, although a GFP-Delta S160 VAPB fusion protein demonstrates a wild-type subcellular localization. This contrasts the aberrant localization observed in a GFP-P56S VAPB fusion protein. The allele frequency of Delta S160 in patients with sporadic ALS does not differ significantly from that in the normal population. CONCLUSIONS: Mutations in the VAPB gene are rare and the Delta S160 variant does not contribute to the development of amyotrophic lateral sclerosis.
OBJECTIVE:Amyotrophic lateral sclerosis (ALS) is a progressive, neurodegenerative disorder involving upper and lower motor neurons. The vesicle-associated membrane protein B (VAPB) gene has been genetically linked to ALS in several large Brazilian families in which the disorder is caused by a proline to serine mutation at codon 56 (P56S). No additional mutations have been identified. METHODS: To establish the prevalence of VAPB mutations, we screened 80 familial ALS samples by DNA sequencing. RESULTS: Our study failed to identify any novel VAPB gene mutations but identified a single Brazilian family harboring the P56S mutation. In a second familial ALS case, we identified a three-base pair deletion within exon 5 of the VAPB gene that deleted the serine residue at position 160 (Delta S160). This variant is detected in a normal population at low frequency (0.45%). Analyses of homology alignment and secondary structure predict that this deletion significantly alters the structure of VAPB, although a GFP-Delta S160 VAPB fusion protein demonstrates a wild-type subcellular localization. This contrasts the aberrant localization observed in a GFP-P56SVAPB fusion protein. The allele frequency of Delta S160 in patients with sporadic ALS does not differ significantly from that in the normal population. CONCLUSIONS: Mutations in the VAPB gene are rare and the Delta S160 variant does not contribute to the development of amyotrophic lateral sclerosis.
Authors: A D Funke; M Esser; A Krüttgen; J Weis; M Mitne-Neto; M Lazar; A L Nishimura; A D Sperfeld; P Trillenberg; J Senderek; M Krasnianski; M Zatz; S Zierz; M Deschauer Journal: Clin Genet Date: 2010-03 Impact factor: 4.438
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Authors: Han-Jou Chen; Georgia Anagnostou; Andrea Chai; James Withers; Alex Morris; Jason Adhikaree; Giuseppa Pennetta; Jackie S de Belleroche Journal: J Biol Chem Date: 2010-10-12 Impact factor: 5.157
Authors: Miguel Mitne-Neto; Marcela Machado-Costa; Maria C N Marchetto; Mario H Bengtson; Claudio A Joazeiro; Hiroshi Tsuda; Hugo J Bellen; Helga C A Silva; Acary S B Oliveira; Monize Lazar; Alysson R Muotri; Mayana Zatz Journal: Hum Mol Genet Date: 2011-06-17 Impact factor: 6.150