MCL1 participates in leptin-promoted mitochondrial fusion and contributes to drug resistance in gallbladder cancer
Wei-Jan Wang, Hong-Yue Lai, Fei Zhang, Wan-Jou Shen, Pei-Yu Chu, Hsin-Yin Liang, Ying-Bin Liu, Ju-Ming Wang
Wei-Jan Wang, Hong-Yue Lai, Fei Zhang, Wan-Jou Shen, Pei-Yu Chu, Hsin-Yin Liang, Ying-Bin Liu, Ju-Ming Wang
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Research Article Endocrinology Hepatology

MCL1 participates in leptin-promoted mitochondrial fusion and contributes to drug resistance in gallbladder cancer

Abstract

Obesity is a risk factor for gallbladder cancer (GBC) development, and it correlates with shorter overall survival. Leptin, derived from adipocytes, has been suggested to contribute to the growth of cancer cells; however, the detailed mechanism of leptin in GBC drug resistance remains uninvestigated. In this study, our finding that patients with GBC with a higher BMI were associated with increased GBC risks, including shortened survival, is clinically relevant. Moreover, obese NOD/SCID mice exhibited a higher circulating concentration of leptin, which is associated with GBC growth and attenuated gemcitabine efficacy. We further revealed that leptin can inhibit gemcitabine-induced GBC cell death through myeloid cell leukemia 1 (MCL1) activation. The transcription factor C/EBP δ (CEBPD) is responsive to activated STAT3 (pSTAT3) and contributes to MCL1 transcriptional activation upon leptin treatment. In addition, MCL1 mediates leptin-induced mitochondrial fusion and is associated with GBC cell survival. The findings in this study suggest the involvement of the pSTAT3/CEBPD/MCL1 axis in leptin-induced mitochondrial fusion and survival and provide a potentially new therapeutic target to improve the efficacy of gemcitabine in patients with GBC.

Authors

Wei-Jan Wang, Hong-Yue Lai, Fei Zhang, Wan-Jou Shen, Pei-Yu Chu, Hsin-Yin Liang, Ying-Bin Liu, Ju-Ming Wang

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Figure 7

MCL1 promotes mitochondrial fusion and attenuates gemcitabine efficacy in gallbladder cancer cells.

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MCL1 promotes mitochondrial fusion and attenuates gemcitabine efficacy i...
(A) MCL1 inhibitor MIM1 induces mitochondrial stress. Maximum oxygen consumption rate (OCR) was stimulated by FCCP addition (n = 3; **P < 0.01, 2-tailed Student’s t test). (B) MCL1 inhibitor decreases mitochondrial membrane potential in RCB-1130 cells. Quantification of JC-1 staining is used as an indicator of membrane potential (n = 3; ***P < 0.001, 1-way ANOVA followed by Tukey’s multiple comparisons). (C) The MCL1 inhibitor MIM1 promotes GEM-induced mitochondrial fission in leptin-treated GBC cells. SNU-308 and RCB-1130 cells were treated with GEM alone or GEM in combination with leptin and MIM1 for 24 hours. Confocal immunofluorescence of ectopic expression in RCB-1130 cells that were loaded with MitoTracker (n = 3). Scale bar: 10 μm. (D) Loss of MCL1 and MFN1 enhances GEM sensitivity upon leptin treatment. Cells were pretreated with lentiviruses containing shLacZ (LacZ), shMCL1 (shMC), or shMFN1 (shMF). After 48 hours of incubation, experimental cells were treated with leptin in combination with GEM. Death of experimental cells was examined by PI staining (n = 3; *P < 0.05, 1-way ANOVA followed by Tukey’s multiple comparisons).