Availability of living organisms to mimic key step of amyloidogenesis of human protein has become an indispensable tool for our translation approach aiming at filling the deep gap existing between the biophysical and biochemical data obtained in vitro and the pathological features observed in patients. Human beta2-microglobulin (beta2-m) causes systemic amyloidosis in haemodialysed patients. The structure, the misfolding propensity, the kinetics of fibrillogenesis and its cytotoxicity have been studied in vitro on this protein more extensively than for any other globular protein. However, no suitable animal model for beta2-m amyloidosis has been so far reported. We have now established and characterized three new transgenic C. elegans strains expressing wild type human beta2-m and two highly amyloidogenic isoforms: P32G variant and the truncated form ΔN6 lacking of the 6 N-terminal residues. The expression of human beta2-m affects the larval growth of C. elegans and the severity of the damage correlates with the intrinsic propensity to self-aggregate that has been reported in previous in vitro studies. We have no evidence of the formation of amyloid deposits in the body-wall muscles of worms. However, we discovered a strict correlation between the pathological phenotype and the presence of oligomeric species recognized by the A11 antibody. The strains expressing human beta2-m exhibit a locomotory defect quantified with the body bends assay. Here we show that tetracyclines can correct this abnormality confirming that these compounds are able to protect a living organism from the proteotoxicity of human β2-m.

C. elegans expressing human beta2-microglobulin: a novel model for studying the relationship between the molecular assembly and the toxic phenotype.

SORIA, CRISTINA;GIORGETTI, SOFIA;MARCHESE, LOREDANA;MANGIONE, PALMA;PORCARI, RICCARDO;ZORZOLI, IRENE;BELLOTTI, VITTORIO;STOPPINI, MONICA
2012-01-01

Abstract

Availability of living organisms to mimic key step of amyloidogenesis of human protein has become an indispensable tool for our translation approach aiming at filling the deep gap existing between the biophysical and biochemical data obtained in vitro and the pathological features observed in patients. Human beta2-microglobulin (beta2-m) causes systemic amyloidosis in haemodialysed patients. The structure, the misfolding propensity, the kinetics of fibrillogenesis and its cytotoxicity have been studied in vitro on this protein more extensively than for any other globular protein. However, no suitable animal model for beta2-m amyloidosis has been so far reported. We have now established and characterized three new transgenic C. elegans strains expressing wild type human beta2-m and two highly amyloidogenic isoforms: P32G variant and the truncated form ΔN6 lacking of the 6 N-terminal residues. The expression of human beta2-m affects the larval growth of C. elegans and the severity of the damage correlates with the intrinsic propensity to self-aggregate that has been reported in previous in vitro studies. We have no evidence of the formation of amyloid deposits in the body-wall muscles of worms. However, we discovered a strict correlation between the pathological phenotype and the presence of oligomeric species recognized by the A11 antibody. The strains expressing human beta2-m exhibit a locomotory defect quantified with the body bends assay. Here we show that tetracyclines can correct this abnormality confirming that these compounds are able to protect a living organism from the proteotoxicity of human β2-m.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11571/582594
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