Abstract
Glutaminase C (GAC), a splicing variant of the kidney-type glutaminase (KGA) gene, is a vital mitochondrial enzyme protein that catalyzes glutamine to glutamate. Earlier studies have shown that GAC proteins in the human hepatocarcinoma cell line, HepG2, were down-regulated by diphenylarsinic acid (DPAA), but the mechanism by which DPAA induced GAC protein down-regulation remained poorly understood. Here, we showed that DPAA promoted GAC protein degradation without affecting GAC transcription and translation. Moreover, DPAA-induced GAC proteolysis was mediated by mitochondrial Lon protease. DPAA insolubilized 0.5% Triton X-100-soluble GAC protein and promoted the accumulation of insoluble GAC in Lon protease knockdown cells. DPAA destroyed the native tetrameric GAC conformation and promoted an increase in the unassembled form of GAC when DPAA was incubated with cell extracts. Decreases in the tetrameric form of GAC were observed in cells exposed to DPAA, and decreases occurred prior to a decrease in total GAC protein levels. In addition, decreases in the tetrameric form of GAC were observed independently with Lon protease. Mitochondrial heat shock protein 70 is known to be an indispensable protein that can bind to misfolded proteins, thereby supporting degradation of proteins sensitive to Lon protease. When cells were incubated with DPAA, GAC proteins that can bind with mtHsp70 increased. Interestingly, the association of mtHsp70 with GAC protein increased when the tetrameric form of GAC was reduced. These results suggest that degradation of native tetrameric GAC by DPAA may be a trigger in GAC protein degradation by Lon protease.
Highlights
Glutaminase C (GAC) is down-regulated by diphenylarsinic acid (DPAA)
Effect of DPAA on GAC Translation—A recent study indicated that GAC protein levels were post-transcriptionally regulated by microRNAs, and their translation was inhibited by these microRNAs [10]
This study was conducted in human hepatocarcinoma HepG2 cells to understand the mechanism of DPAA-induced GAC down-regulation
Summary
Glutaminase C (GAC) is down-regulated by diphenylarsinic acid (DPAA). Results: DPAA promotes the conformational changes of GAC, and unfolded GAC is degraded by mitochondrial Lon protease. Gao et al [10] reported that c-Myc oncogenic transcription factor, which is known to regulate microRNAs and stimulate cell proliferation, transcriptionally repressed miR23a and miR23b, resulting in greater expression of their target protein, mitochondrial glutaminase (GLS1), in human cancer cells These observations suggested the possibility that GAC was translationally regulated in tumor cells expressing c-Myc. The human KGA gene is located in chromosome 2, and its transcript is translated in the cytosol as a preprotein containing an N-terminal amino acid signal sequence that directs its import to the mitochondrial matrix. The results showed that GAC was post-translationally regulated by DPAA, and mitochondrial Lon protease plays an important role in this regulation
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