Abstract
BAG3 is a universal adapter protein involved in various cellular processes, including the regulation of apoptosis, chaperone-assisted selective autophagy, and heat shock protein function. The interaction between small heat shock proteins (sHsps) and their α-crystallin domains (Acds) with full-length BAG3 protein and its IPV domain was analyzed using size-exclusion chromatography, native gel electrophoresis, and chemical cross-linking. HspB7 and the 3D mutant of HspB1 (which mimics phosphorylation) showed no interaction, HspB6 weakly interacted, and HspB8 strongly interacted with full-length BAG3. In contrast to the full-length sHsps, their α-crystallin domains (AcdB1, AcdB5, and AcdB6) were able to interact with BAG3, with AcdB8 again being the strongest interactor. Among all the full-length sHsps analyzed, only HspB8 bound to the IPV domain of BAG3. AcdB1, AcdB5, AcdB6, and AcdB8 interacted with the IPV domain of BAG3, with AcdB8 displaying the highest binding efficiency. The stoichiometry of crosslinked complexes formed by HspB8 (or its Acd) and the IPV domain of BAG3 was 2:1, whereas for the other sHsps and their Acds, it was 1:1. These findings suggest that while the IPV domain of BAG3 and the Acds of sHsps play an important role in binding, other structural regions significantly contribute to this interaction. The unique binding efficiency between BAG3 and HspB8 may be attributed to the intrinsic disorder and simple oligomeric structure of HspB8.
Published Version
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