Abstract
HSP60 is a major mitochondrial chaperone for maintaining mitochondrial proteostasis. Our previous studies showed that HSP60 was significantly downregulated in clear cell renal cell carcinoma (ccRCC), the most common type of kidney cancer characterized by the classic Warburg effect. Here, we analyzed datasets in The Cancer Genome Atlas and revealed that higher HSP60 expression correlated with better overall survival in ccRCC patients. We also stably knocked down or overexpressed HSP60 in ccRCC cells to investigate the effects of HSP60 expression on the transition between oxidative phosphorylation and glycolysis. We confirmed that HSP60 knockdown increased cell proliferation, whereas its overexpression decreased cell growth. Proteomics and metabolomics revealed that HSP60 knockdown promoted Warburg-like phenotypes with enhanced glycolysis and decreased mitochondrial activity. Consistent with this finding, isotope tracing showed that the metabolic flow from glycolysis to TCA was reduced. However, HSP60 silencing enhanced mitochondrial functions in glutamine-directed biosynthesis with increased flow in two parts of the TCA cycle: Gln→αKG→OAA→Asp and Gln→αKG→ISO→acetyl-CoA, resulting in elevated de novo nucleotide synthesis and lipid synthesis. Proteomic analysis indicated that HSP60 silencing activated NRF2-mediated oxidative stress responses, while glutamate generated from glutamine increased glutathione synthesis for quenching excessive reactive oxygen species (ROS) produced upon elevated cell growth. We further found that HSP60 silencing activated the MEK/ERK/c-Myc axis to promote glutamine addiction, and confirmed that ccRCC cells were susceptible to oxidative stress and glutaminase inhibition. Collectively, our data show that HSP60 knockdown drives metabolic reprogramming in ccRCC to promote tumor progression and enhances mitochondrial-dependent biosynthesis.
Highlights
HSP60 is the major ATP-dependent chaperone in mitochondria and plays a crucial role in the maintenance of mitochondrial proteostasis
We revealed that HSP60 silencing induced glutamine addiction in clear cell renal cell carcinoma (ccRCC) to support nucleotide synthesis and to quench reactive oxygen species (ROS) generated upon mitochondrial dysfunction, which facilitates cell proliferation in ccRCC
To further analyze the effects of HSP60 expression on tumor progression, we determined the correlation between HSP60 levels and the patient overall survival (OS) rates, showing that patients with higher HSP60 expression tended to have a better OS than those with lower HSP60 (Fig. 1B)
Summary
HSP60 is the major ATP-dependent chaperone in mitochondria and plays a crucial role in the maintenance of mitochondrial proteostasis. Studies have shown that HSP60 exerts both pro-survival and pro-apoptotic functions in tumors. It enhances tumor cell growth, suppresses stressinduced apoptosis, and promotes tumorigenesis and metastasis [5,6,7]. Regarding its pro-apoptotic functions, HSP60 expression has been found to be downregulated in lung cancer and bladder cancer [2,11]. These results suggest that HSP60 plays tumor-type-dependent roles, and its functions in tumor progression need to be examined in the context of a specific cancer
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