AIMS: To examine the role of the enzyme methionine sulfoxide reductase A-1 (MSRA-1) in amyloid-β peptide (Aβ)-peptide aggregation and toxicity in vivo, using a Caenorhabditis elegans model of the human amyloidogenic disease inclusion body myositis. RESULTS: MSRA-1 specifically reduces oxidized methionines in proteins. Therefore, a deletion of the msra-1 gene was introduced into transgenic C. elegans worms that express the Aβ-peptide in muscle cells to prevent the reduction of oxidized methionines in proteins. In a constitutive transgenic Aβ strain that lacks MSRA-1, the number of amyloid aggregates decreases while the number of oligomeric Aβ species increases. These results correlate with enhanced synaptic dysfunction and mislocalization of the nicotinic acetylcholine receptor ACR-16 at the neuromuscular junction (NMJ). INNOVATION: This approach aims at modulating the oxidation of Aβ in vivo indirectly by dismantling the methionine sulfoxide repair system. The evidence presented here shows that the absence of MSRA-1 influences Aβ aggregation and aggravates locomotor behavior and NMJ dysfunction. The results suggest that therapies which boost the activity of the Msr system could have a beneficial effect in managing amyloidogenic pathologies. CONCLUSION: The absence of MSRA-1 modulates Aβ-peptide aggregation and increments its deleterious effects in vivo.
AIMS: To examine the role of the enzyme methionine sulfoxide reductase A-1 (MSRA-1) in amyloid-β peptide (Aβ)-peptide aggregation and toxicity in vivo, using a Caenorhabditis elegans model of the humanamyloidogenic disease inclusion body myositis. RESULTS:MSRA-1 specifically reduces oxidized methionines in proteins. Therefore, a deletion of the msra-1 gene was introduced into transgenic C. elegans worms that express the Aβ-peptide in muscle cells to prevent the reduction of oxidized methionines in proteins. In a constitutive transgenic Aβ strain that lacks MSRA-1, the number of amyloid aggregates decreases while the number of oligomeric Aβ species increases. These results correlate with enhanced synaptic dysfunction and mislocalization of the nicotinic acetylcholine receptor ACR-16 at the neuromuscular junction (NMJ). INNOVATION: This approach aims at modulating the oxidation of Aβ in vivo indirectly by dismantling the methionine sulfoxide repair system. The evidence presented here shows that the absence of MSRA-1 influences Aβ aggregation and aggravates locomotor behavior and NMJ dysfunction. The results suggest that therapies which boost the activity of the Msr system could have a beneficial effect in managing amyloidogenic pathologies. CONCLUSION: The absence of MSRA-1 modulates Aβ-peptide aggregation and increments its deleterious effects in vivo.
Authors: L Mucke; E Masliah; G Q Yu; M Mallory; E M Rockenstein; G Tatsuno; K Hu; D Kholodenko; K Johnson-Wood; L McConlogue Journal: J Neurosci Date: 2000-06-01 Impact factor: 6.167
Authors: Carolina Makowski; Dennis van der Meer; Weixiu Dong; Hao Wang; Yan Wu; Jingjing Zou; Cin Liu; Sara B Rosenthal; Donald J Hagler; Chun Chieh Fan; William S Kremen; Ole A Andreassen; Terry L Jernigan; Anders M Dale; Kun Zhang; Peter M Visscher; Jian Yang; Chi-Hua Chen Journal: Science Date: 2022-02-03 Impact factor: 63.714
Authors: Steven M Pennington; Paula R Klutho; Litao Xie; Kim Broadhurst; Olha M Koval; Michael L McCormick; Douglas R Spitz; Isabella M Grumbach Journal: Redox Biol Date: 2018-04-03 Impact factor: 11.799