Abstract
Mitochondrial Pyruvate Carrier 1 (MPC1), one of the rate-limiting proteins involved in glycolysis metabolism, has been demonstrated as a tumor inhibitor in several cancers. This study was conducted with the aim of exploring the role and underlying mechanisms of MPC2 in colorectal cancer (CRC). Here, we found that MPC2 expression was decreased in CRC samples. According to the analysis on our TMA data, lower expression of MPC2 is correlated with a higher incidence of distant metastasis and lymph node invasion, bigger tumor size, low survival rate of patients, and advanced T stages. Functionally, in vivo/vitro experiments showed that MPC2 knockdown induced CRC cell proliferation and growth, while MPC2 overexpression inhibited the proliferation and growth of CRC. Further study demonstrated that MPC2 knockdown resulted in aerobic glycolysis in CRC cells. Similarly, MPC2 overexpression in CRC cells also caused inhibited aerobic glycolysis. Further study found that MPC2 knockdown in CRC cell lines activated the mTOR signaling pathway, and the addition of rapamycin reversed the promoting effect of MPC2 knockdown on CRC proliferation and glycolysis. Likewise, the addition of MHY1485 also reversed the MPC2 overexpression's role in hindering aerobic glycolysis in CRC cells. Collectively, our study established that low expression of MPC2 led to CRC growth as well as aerobic glycolysis through the regulation of the mTOR pathway in CRC cells, indicating a potential biomarker and therapy target for CRC.
Highlights
Colorectal Carcinoma (CRC), as a prevailing type of cancer worldwide, ranked the third-highest cancer-related death factor in the United States [1, 2]
We showed low expression of MPC2 CRC samples, which resulted in aerobic glycolysis via activating the mTOR pathway and promoted CRC proliferation
The results indicated that MPC2 knockdown in CRC cells increased glycolytic flux and decreased maximal respiratory capacity, which was recovered by the rescue of MPC2 overexpression (Figures 3(d) and 3(e) and Supplementary Figure S2A)
Summary
Colorectal Carcinoma (CRC), as a prevailing type of cancer worldwide, ranked the third-highest cancer-related death factor in the United States [1, 2]. An increasing number of studies showed downregulated expression of the MPC complex in different cancers, such as prostate cancer and hepatocellular carcinoma, and restoring MPC2 in human tumor cells inhibited melanoma cell proliferation and migration [9,10,11]. A study showed that MPC2 predicted poor survival in patients with isocitrate dehydrogenase-mutant glioma [12], the potential. Warburg effect is featured as high glucose uptake and utilization to provide cancer with increased bioenergetics and biosynthesis in anorexic and hypoxic conditions [8]. The association and potential regulatory mechanism of glycolysis in cancer are to be studied. We showed low expression of MPC2 CRC samples, which resulted in aerobic glycolysis via activating the mTOR pathway and promoted CRC proliferation
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