Abstract
Significance: Recent Genome Wide Association Studies (GWAS) identified non-sarcomeric variants in hypertrophic cardiomyopathy (HCM) with three of the top 10 variant loci in or near genes that encode for co-chaperones of HSP70: BAG3, DNAJC18 and HSPB7. These variants are also present in dilated cardiomyopathy (DCM), but have an opposing effect on cardiac function, leading us to hypothesize that GWAS variants in HSP70 co-chaperones can affect the proteostasis of contractile proteins in the HCM heart. As a first step, we determined the effects each HSP70 co-chaperone knockdown (KD) had on sarcomeric and z-disc protein expression and the poly-ubiquitinated state of cardiomyocyte-specific proteins. Methods and Results: Transduction of human iPSC-CMs (iPSC-CMs) with adenoviral vectors driving shRNA expression against BAG3, DNAJC18, HSPB7, or scramble (control) yielded transduction efficiencies > 75% and >80% reduction in target transcript 4 days post-transduction. BAG3 KD increased poly-ubiquitinated proteins by 38+/-9% (p<0.001) and reduced steady state expression of sarcomeric and z-disc proteins, including: MyBP-C (p<0.0001), actin (p<0.0001), cardiac troponin I (p<0.05), tropomyosin (TPM1) (p<0.01), myosin light chain 3 (MYL3) (p<0.0001), filamin C (p<0.05), and alpha-actinin-2 (p<0.0001). DNAJC18 KD increased poly-ubiquitinated protein by 66+/-17% (p<0.01) but did not impact sarcomere protein expression. Conversely, HSPB7 KD reduced poly-ubiquitinated proteins by 21+/-7% (p<0.01) and increased protein expression of MyBP-C (p<0.01), TPM1 (p<0.05), and myosin light chain 2 (p<0.05). DNAJC18 KD increased BAG3 and HSPB7 protein expression levels by ~2-fold (p<0.001) without increasing transcript levels, suggesting BAG3 and HSPB7 may be protein clients of DNAJC18. Conclusions: HSP70 co-chaperones that have an established genetic association with human HCM play an important role in cardiomyocyte proteostasis. Multiple sarcomeric and z-disc proteins appear to be clients of BAG3, while BAG3 and HSPB7 themselves may be clients of DNAJC18. Targeting this axis could be therapeutic for patients with HCM that possess genetic variants in sarcomeric proteins.
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