Characterization of detergent-insoluble proteins in ALS indicates a causal link between nitrative stress and aggregation in pathogenesis

Manuela Basso; Giuseppina Samengo; Giovanni Nardo; Tania Massignan; Giuseppina D'Alessandro; Silvia Tartari; Lavinia Cantoni; Marianna Marino; Cristina Cheroni; Silvia de Biasi; Maria Teresa Giordana; Michael J. Strong; Alvaro G. Estevez; Mario Salmona; Caterina Bendotti; Valentina Bonetto

doi:10.1371/journal.pone.0008130

Characterization of detergent-insoluble proteins in ALS indicates a causal link between nitrative stress and aggregation in pathogenesis

Manuela Basso, Giuseppina Samengo, Giovanni Nardo, Tania Massignan, Giuseppina D'Alessandro, Silvia Tartari, Lavinia Cantoni, Marianna Marino, Cristina Cheroni, Silvia de Biasi, Maria Teresa Giordana, Michael J. Strong, Alvaro G. Estevez, Mario Salmona, Caterina Bendotti, Valentina Bonetto

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Amyotrophic lateral sclerosis (ALS) is a progressive and fatal motor neuron disease, and protein aggregation has been proposed as a possible pathogenetic mechanism. However, the aggregate protein constituents are poorly characterized so knowledge on the role of aggregation in pathogenesis is limited. Methodology/Principal Findings: We carried out a proteomic analysis of the protein composition of the insoluble fraction, as a model of protein aggregates, from familial ALS (fALS) mouse model at different disease stages. We identified several proteins enriched in the detergent-insoluble fraction already at a preclinical stage, including intermediate filaments, chaperones and mitochondrial proteins. Aconitase, HSC70 and cyclophilin A were also significantly enriched in the insoluble fraction of spinal cords of ALS patients. Moreover, we found that the majority of proteins in mice and HSP90 in patients were tyrosine-nitrated. We therefore investigated the role of nitrative stress in aggregate formation in fALS-like murine motor neuron-neuroblastoma (NSC-34) cell lines. By inhibiting nitric oxide synthesis the amount of insoluble proteins, particularly aconitase, HSC70, cyclophilin A and SOD1 can be substantially reduced. Conclusion/Significance: Analysis of the insoluble fractions from cellular/mouse models and human tissues revealed novel aggregation-prone proteins and suggests that nitrative stress contribute to protein aggregate formation in ALS.

Original language	English
Article number	e8130
Journal	PLoS One
Volume	4
Issue number	12
DOIs	https://doi.org/10.1371/journal.pone.0008130
Publication status	Published - 2009

ASJC Scopus subject areas

Agricultural and Biological Sciences(all)
Biochemistry, Genetics and Molecular Biology(all)
Medicine(all)

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Basso, M., Samengo, G., Nardo, G., Massignan, T., D'Alessandro, G., Tartari, S., Cantoni, L., Marino, M., Cheroni, C., de Biasi, S., Giordana, M. T., Strong, M. J., Estevez, A. G., Salmona, M., Bendotti, C., & Bonetto, V. (2009). Characterization of detergent-insoluble proteins in ALS indicates a causal link between nitrative stress and aggregation in pathogenesis. PLoS One, 4(12), [e8130]. https://doi.org/10.1371/journal.pone.0008130

Basso, M, Samengo, G, Nardo, G, Massignan, T, D'Alessandro, G, Tartari, S, Cantoni, L, Marino, M, Cheroni, C, de Biasi, S, Giordana, MT, Strong, MJ, Estevez, AG, Salmona, M , Bendotti, C & Bonetto, V 2009, 'Characterization of detergent-insoluble proteins in ALS indicates a causal link between nitrative stress and aggregation in pathogenesis', PLoS One, vol. 4, no. 12, e8130. https://doi.org/10.1371/journal.pone.0008130

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abstract = "Background: Amyotrophic lateral sclerosis (ALS) is a progressive and fatal motor neuron disease, and protein aggregation has been proposed as a possible pathogenetic mechanism. However, the aggregate protein constituents are poorly characterized so knowledge on the role of aggregation in pathogenesis is limited. Methodology/Principal Findings: We carried out a proteomic analysis of the protein composition of the insoluble fraction, as a model of protein aggregates, from familial ALS (fALS) mouse model at different disease stages. We identified several proteins enriched in the detergent-insoluble fraction already at a preclinical stage, including intermediate filaments, chaperones and mitochondrial proteins. Aconitase, HSC70 and cyclophilin A were also significantly enriched in the insoluble fraction of spinal cords of ALS patients. Moreover, we found that the majority of proteins in mice and HSP90 in patients were tyrosine-nitrated. We therefore investigated the role of nitrative stress in aggregate formation in fALS-like murine motor neuron-neuroblastoma (NSC-34) cell lines. By inhibiting nitric oxide synthesis the amount of insoluble proteins, particularly aconitase, HSC70, cyclophilin A and SOD1 can be substantially reduced. Conclusion/Significance: Analysis of the insoluble fractions from cellular/mouse models and human tissues revealed novel aggregation-prone proteins and suggests that nitrative stress contribute to protein aggregate formation in ALS.",

author = "Manuela Basso and Giuseppina Samengo and Giovanni Nardo and Tania Massignan and Giuseppina D'Alessandro and Silvia Tartari and Lavinia Cantoni and Marianna Marino and Cristina Cheroni and {de Biasi}, Silvia and Giordana, {Maria Teresa} and Strong, {Michael J.} and Estevez, {Alvaro G.} and Mario Salmona and Caterina Bendotti and Valentina Bonetto",

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AU - Basso, Manuela

AU - Samengo, Giuseppina

AU - Nardo, Giovanni

AU - Massignan, Tania

AU - D'Alessandro, Giuseppina

AU - Tartari, Silvia

AU - Cantoni, Lavinia

AU - Marino, Marianna

AU - Cheroni, Cristina

AU - de Biasi, Silvia

AU - Giordana, Maria Teresa

AU - Strong, Michael J.

AU - Estevez, Alvaro G.

AU - Salmona, Mario

AU - Bendotti, Caterina

AU - Bonetto, Valentina

PY - 2009

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AB - Background: Amyotrophic lateral sclerosis (ALS) is a progressive and fatal motor neuron disease, and protein aggregation has been proposed as a possible pathogenetic mechanism. However, the aggregate protein constituents are poorly characterized so knowledge on the role of aggregation in pathogenesis is limited. Methodology/Principal Findings: We carried out a proteomic analysis of the protein composition of the insoluble fraction, as a model of protein aggregates, from familial ALS (fALS) mouse model at different disease stages. We identified several proteins enriched in the detergent-insoluble fraction already at a preclinical stage, including intermediate filaments, chaperones and mitochondrial proteins. Aconitase, HSC70 and cyclophilin A were also significantly enriched in the insoluble fraction of spinal cords of ALS patients. Moreover, we found that the majority of proteins in mice and HSP90 in patients were tyrosine-nitrated. We therefore investigated the role of nitrative stress in aggregate formation in fALS-like murine motor neuron-neuroblastoma (NSC-34) cell lines. By inhibiting nitric oxide synthesis the amount of insoluble proteins, particularly aconitase, HSC70, cyclophilin A and SOD1 can be substantially reduced. Conclusion/Significance: Analysis of the insoluble fractions from cellular/mouse models and human tissues revealed novel aggregation-prone proteins and suggests that nitrative stress contribute to protein aggregate formation in ALS.

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Characterization of detergent-insoluble proteins in ALS indicates a causal link between nitrative stress and aggregation in pathogenesis

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