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  • A Split-Luciferase-Based Trimer Formation Assay as a High-throughput Screening Platform for Therapeutics in Alport Syndrome.

A Split-Luciferase-Based Trimer Formation Assay as a High-throughput Screening Platform for Therapeutics in Alport Syndrome.

Cell chemical biology (2018-03-13)
Kohei Omachi, Misato Kamura, Keisuke Teramoto, Haruka Kojima, Tsubasa Yokota, Shota Kaseda, Jun Kuwazuru, Ryosuke Fukuda, Kosuke Koyama, Shingo Matsuyama, Keishi Motomura, Tsuyoshi Shuto, Mary Ann Suico, Hirofumi Kai
RESUMO

Alport syndrome is a hereditary glomerular disease caused by mutation in type IV collagen α3-α5 chains (α3-α5(IV)), which disrupts trimerization, leading to glomerular basement membrane degeneration. Correcting the trimerization of α3/α4/α5 chain is a feasible therapeutic approach, but is hindered by lack of information on the regulation of intracellular α(IV) chain and the absence of high-throughput screening (HTS) platforms to assess α345(IV) trimer formation. Here, we developed sets of split NanoLuc-fusion α345(IV) proteins to monitor α345(IV) trimerization of wild-type and clinically associated mutant α5(IV). The α345(IV) trimer assay, which satisfied the acceptance criteria for HTS, enabled the characterization of intracellular- and secretion-dependent defects of mutant α5(IV). Small interfering RNA-based and chemical screening targeting the ER identified several chemical chaperones that have potential to promote α345(IV) trimer formation. This split luciferase-based trimer formation assay is a functional HTS platform that realizes the feasibility of targeting α345(IV) trimers to treat Alport syndrome.

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Sigma-Aldrich
Bafilomycin A1, Streptomyces griseus, Bafilomycin A1, CAS 88899-55-2, acts as a highly potent and specific inhibitor of vacuolar-type H+-ATPase (Ki = 500 pM). Blocks the fusion of autophagosome with lysosome.