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FASEB BioAdvances, 11(5), p. 484-505, 2023

DOI: 10.1096/fba.2023-00073

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Human wild‐type and D76N β<sub>2</sub>‐microglobulin variants are significant proteotoxic and metabolic stressors for transgenic C. elegans

This paper was not found in any repository; the policy of its publisher is unknown or unclear.
This paper was not found in any repository; the policy of its publisher is unknown or unclear.

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Abstract

Abstractβ2‐microglobulin (β2‐m) is a plasma protein derived from physiological shedding of the class I major histocompatibility complex (MHCI), causing human systemic amyloidosis either due to persistently high concentrations of the wild‐type (WT) protein in hemodialyzed patients, or in presence of mutations, such as D76N β2‐m, which favor protein deposition in the adulthood, despite normal plasma levels. Here we describe a new transgenic Caenorhabditis elegans (C. elegans) strain expressing human WT β2‐m at high concentrations, mimicking the condition that underlies dialysis‐related amyloidosis (DRA) and we compare it to a previously established strain expressing the highly amyloidogenic D76N β2‐m at lower concentrations. Both strains exhibit behavioral defects, the severity of which correlates with β2‐m levels rather than with the presence of mutations, being more pronounced in WT β2‐m worms. β2‐m expression also has a deep impact on the nematodes' proteomic and metabolic profiles. Most significantly affected processes include protein degradation and stress response, amino acids metabolism, and bioenergetics. Molecular alterations are more pronounced in worms expressing WT β2‐m at high concentration compared to D76N β2‐m worms. Altogether, these data show that β2‐m is a proteotoxic protein in vivo also in its wild‐type form, and that concentration plays a key role in modulating pathogenicity. Our transgenic nematodes recapitulate the distinctive features subtending DRA compared to hereditary β2‐m amyloidosis (high levels of non‐mutated β2‐m vs. normal levels of variant β2‐m) and provide important clues on the molecular bases of these human diseases.