Mitochondrial reprogramming by activating OXPHOS via glutamine metabolism in African American patients with bladder cancer
Karthik Reddy Kami Reddy, … , Benny Abraham Kaipparettu, Nagireddy Putluri
Karthik Reddy Kami Reddy, … , Benny Abraham Kaipparettu, Nagireddy Putluri
Published September 10, 2024
Citation Information: JCI Insight. 2024;9(17):e172336. https://doi.org/10.1172/jci.insight.172336.
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Research Article Metabolism Oncology

Mitochondrial reprogramming by activating OXPHOS via glutamine metabolism in African American patients with bladder cancer

Abstract

Bladder cancer (BLCA) mortality is higher in African American (AA) patients compared with European American (EA) patients, but the molecular mechanism underlying race-specific differences are unknown. To address this gap, we conducted comprehensive RNA-Seq, proteomics, and metabolomics analysis of BLCA tumors from AA and EA. Our findings reveal a distinct metabolic phenotype in AA BLCA characterized by elevated mitochondrial oxidative phosphorylation (OXPHOS), particularly through the activation of complex I. The results provide insight into the complex I activation–driven higher OXPHOS activity resulting in glutamine-mediated metabolic rewiring and increased disease progression, which was also confirmed by [U]13C-glutamine tracing. Mechanistic studies further demonstrate that knockdown of NDUFB8, one of the components of complex I in AA BLCA cells, resulted in reduced basal respiration, ATP production, GLS1 expression, and proliferation. Moreover, preclinical studies demonstrate the therapeutic potential of targeting complex I, as evidenced by decreased tumor growth in NDUFB8-depleted AA BLCA tumors. Additionally, genetic and pharmacological inhibition of GLS1 attenuated mitochondrial respiration rates and tumor growth potential in AA BLCA. Taken together, these findings provide insight into BLCA disparity for targeting GLS1-Complex I for future therapy.

Authors

Karthik Reddy Kami Reddy, Danthasinghe Waduge Badrajee Piyarathna, Jun Hyoung Park, Vasanta Putluri, Chandra Sekhar Amara, Abu Hena Mostafa Kamal, Jun Xu, Daniel Kraushaar, Shixia Huang, Sung Yun Jung, Livia S. Eberlin, Jabril R. Johnson, Rick A. Kittles, Leomar Y. Ballester, Krishna Parsawar, M. Minhaj Siddiqui, Jianjun Gao, Adriana Langer Gramer, Roni J. Bollag, Martha K. Terris, Yair Lotan, Chad J. Creighton, Seth P. Lerner, Arun Sreekumar, Benny Abraham Kaipparettu, Nagireddy Putluri

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Figure 3

Complex I–mediated (NDUFB8-mediated) OXPHOS activity, and tumor growth in AA BLCA.

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Complex I–mediated (NDUFB8-mediated) OXPHOS activity, and tumor growth i...
(A and B) Immunoblot analysis showed the confirmation of NDUFB8 KD and reexpression using the full-length NDUFB8 in the KD (shNDUFB8-3′UTR) background cells (rescue) in SCaBER and UM-UC-1 compared with their corresponding nontargeting control. (C and D) KD of NDUFB8 (n = 6) in SCaBER and UM-UC-1 significantly reduces basal respiration compared with shControl (n = 6) (oxygen consumption rate [OCR]) and rescued upon NDUFB8 reexpression (n = 6) measured by Seahorse assay (A, oligomycin; B, FCCP; C, Rotenone/Antimycin A; data are normalized with cell number by counting). (E and F) Same as in C and D, but for ATP production in SCaBER and UM-UC-1 cell lines, respectively (****P < 0.0001, ** P < 0.01). (G) CellTiter-Glo proliferation assay significantly reduced in SCaBER NDUFB8 KD (n = 8) compared with shControl (n = 8) and rescued upon NDUFB8 reexpression (n = 8) (***P < 0.001; ****P < 0.0001). (H) CellTiter-Glo proliferation assay significantly reduced in UM-UC-1 NDUFB8 KD (n = 8) compared with shControl (n = 8) and rescued upon NDUFB8 reexpression (n = 8) (***P < 0.001; ****P < 0.0001). (I) Weight of the orthotopic mice bladder harboring tumors (endpoint: day 35) from SCaBER shCtrl (n = 9) and SCaBER shNDUFB8-3′UTR (n = 9) (**P < 0.01). Significance was determined by unpaired 2-tailed Student’s t test.