The ubiquitin-proteasome system is crucial for proteostasis, particularly during proteotoxic stress. The interaction between heat shock protein 70 (HSP70) and the ubiquitin ligase CHIP plays a key role in this process. Our study investigates the C. elegans orthologs HSP-1 and CHN-1, demonstrating that HSP-1 binding decreases CHN-1 E3 ligase activity, aligning with the inhibitory effects observed in human HSP70-CHIP interactions. To explore the physiological significance of this inhibition, we utilized the HSP-1EEYD mutant, which binds CHN-1 without reducing its activity, expressed in C. elegans. Our results reveal that the HSP-1-CHN-1 interaction is critical for maintaining germline integrity under heat stress by preventing excessive turnover of essential reproductive proteins. In HSP-1EEYD nematodes, this protective mechanism is impaired, leading to disrupted stress-induced apoptosis, which is restored by CHN-1 depletion. Additionally, proteomic analysis identified DAF-18/PTEN as a potential CHN-1 substrate, which becomes destabilized when CHN-1 activity is not downregulated by HSP-1 during stress. Depleting DAF-18 significantly compromises the reproductive benefits observed from CHN-1 knockout in HSP-1EEYD mutants, suggesting that the maintenance of DAF-18 plays a role in the observed phenotypes. These findings highlight the importance of HSP-1 in regulating CHN-1 E3 ligase activity to preserve germline function under stress conditions.
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