Mitochondrial reprogramming via ATP5H loss promotes multimodal cancer therapy resistance

Song, Kwon Ho; Kim, Jae Hoon; Lee, Young Ho; Bae, Hyun Cheol; Lee, Hyo‐Jung; Woo, Seon Rang; Oh, Se Jin; Lee, Kyung Mi; Yee, Cassian; Kim, Bo Wook; Cho, Hanbyoul; Chung, Eun Joo; Chung, Joon Yong; Hewitt, Stephen M.; Chung, Tae‐Wook; Ha, Ki Tae; Bae, Young Ki; Mao, Chih Ping; Yang, Andrew; Wu, T. C.; Kim, Tae Woo

doi:10.1172/jci96804

Cited by 35 publications

(29 citation statements)

References 48 publications

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“…Previously, we established a highly immune-resistant cervical tumor cell line, CaSki P3, generated from its immune susceptible parental cell line, CaSki P0, through three rounds of selection by cognate CTLs 22 . Notably, the immune-edited tumor cells (termed P3) were refractory to apoptotic death by multi-modality including cisplatin, γ-radiation, as well as cognate CTLs, whereas the parental cells (termed P0) remained sensitive to these 8 . To investigate potential targetable pathways for restoring sensitivity to multimodalities in the immune-edited tumor cells, we performed 2D protein electrophoresis and mass spectrometry in lysates derived from P0 and P3 cells.…”

Section: Resultsmentioning

confidence: 99%

“…1c), indicating a crucial role of HSP90A in a tumor-intrinsic resistance to CTL. Besides immune resistance, we reported the P3 cells have multi-modal resistance to chemotherapy and radiotherapy, and cancer stem cell (CSC)-like property 8,23,24 . Notably, siHSP90AA1 transfection re-sensitized P3 cells to chemotherapy and radiotherapy ( Fig.…”

Section: Resultsmentioning

confidence: 99%

“…5b). Furthermore, we previously reported the both TC-1 P3 and MDA-MB231 P3 cells have multimodal resistance to immunotherapy and chemotherapy, and CSClike property 8,25 . Notably, siHsp90aa1 or siHSP90AA1 transfection re-sensitized P3 cells to immunotherapy and chemotherapy, and reduced a stem-like phenotype (Supplementary Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Furthermore, previous studies provide evidence that preferential selection and subsequent expansion of a subset of stem-like tumor cells with an undifferentiated phenotype contribute to therapeutic resistance [5][6][7] . In this regard, we had found that immune selection by immunotherapy drives the malignant evolution of tumors toward multi-modal resistance and stem-like phenotypes 8 . However, the potential link between the host immune-intrinsic mechanisms (i.e., cancer immunoediting) and the development of the malignant phenotypes of immunerefractory tumor cells is not well understood.…”

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confidence: 99%

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HSP90A inhibition promotes anti-tumor immunity by reversing multi-modal resistance and stem-like property of immune-refractory tumors

Song

Kim

et al. 2020

Nat Commun

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Cancer immunotherapy has emerged as a promising cancer treatment. However, the presence of immune-refractory tumor cells limits its clinical success by blocking amplification of anti-tumor immunity. Previously, we found that immune selection by immunotherapy drives the evolution of tumors toward multi-modal resistant and stem-like phenotypes via transcription induction of AKT co-activator TCL1A by NANOG. Here, we report a crucial role of HSP90A at the crossroads between NANOG-TCL1A axis and multi-aggressive properties of immune-edited tumor cells by identifying HSP90AA1 as a NANOG transcriptional target. Furthermore, we demonstrate that HSP90A potentiates AKT activation through TCL1Astabilization, thereby contributing to the multi-aggressive properties in NANOG high tumor cells. Importantly, HSP90 inhibition sensitized immune-refractory tumor to adoptive T cell transfer as well as PD-1 blockade, and re-invigorated the immune cycle of tumor-reactive T cells. Our findings implicate that the HSP90A-TCL1A-AKT pathway ignited by NANOG is a central molecular axis and a potential target for immune-refractory tumor.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

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HSP90A inhibition promotes anti-tumor immunity by reversing multi-modal resistance and stem-like property of immune-refractory tumors

Song

Kim

et al. 2020

Nat Commun

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“…The knockout of CSC marker protein CD44 induces glycolysis to OXPHOS via a complex signaling pathway involving HIF-1α (115). The loss of ATP synthase, especially the D subunit ATP5H, leads to the accumulation of ROS in cells and the stabilization of normoxic HIF-1α and activation of the HIF-1α pathway, affecting mitochondrial metabolic reprogramming, the production of stem-like ability, and therapeutic resistance (122). The α-KG analogue dimethyl 2-ketoglutarate allows excess succinate/fumarate to be transferred from the mitochondria to the cytoplasm, where it can impair prolyl hydroxylase and thus stabilize and activate HIF-1α, eventually leading to increased glycolysis and the acquisition of the stem-like characteristics of breast cancer cells (118).…”

Section: Role Of Hif-1 In Metabolic Reprogramming Of Cscsmentioning

confidence: 99%

Role of hypoxia inducible factor-1 in cancer stem cells (Review)

et al. 2020

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Cancer stem cells (CSCs) have been found to play a decisive role in cancer recurrence, metastasis, and chemo-, radio-and immuno-resistance. Understanding the mechanism of CSC self-renewal and proliferation may help overcome the limitations of clinical treatment. The microenvironment of tumor growth consists of a lack of oxygen, and hypoxia has been confirmed to induce cancer cell invasion, metastasis and epithelial-mesenchymal transition, and is usually associated with poor prognosis and low survival rates. Hypoxia inducible factor-1 (HIF-1) can be stably expressed under hypoxia and act as an important molecule to regulate the development of CSCs, but the specific mechanism remains unclear. The present review attempted to explain the role of HIF-1 in the generation and maintenance of CSCs from the perspective of epigenetics, metabolic reprogramming, tumor immunity, CSC markers, non-coding RNA and signaling pathways associated with HIF-1, in order to provide novel targets with HIF-1 as the core for clinical treatment, and extend the life of patients. Contents 1. Introduction 2. Structural characteristics of HIF-1 3. Role of epigenetic and post-translational modification of HIF-1 in CSCs 4. Role of HIF-1 in non-coding RNA associated with CSCs 5. Role of HIF-1 in CSC markers 6. Role of HIF-1 in tumor immunity of CSCs 7. Role of HIF-1 in metabolic reprogramming of CSCs 8. Role of HIF-1 in signaling pathways associated with CSCs 9. Potential targets for CSC therapy 10. Conclusions and perspectives

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The selenoenzyme type I iodothyronine deiodinase: a new tumor suppressor in ovarian cancer

Alfandari,

Moskovich,

Weisz

et al. 2024

Molecular Oncology

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The selenoenzyme type I iodothyronine deiodinase (DIO1) catalyzes removal of iodine atoms from thyroid hormones. Although DIO1 action is reported to be disturbed in several malignancies, no work has been conducted in high‐grade serous ovarian carcinoma (HGSOC), the most lethal gynecologic cancer. We studied DIO1 expression in HGSOC patients [The Cancer Genome Atlas (TCGA) data and tumor tissues], human cell lines (ES‐2 and Kuramochi), normal Chinese hamster ovarian cells (CHO‐K1), and normal human fallopian tube cells (FT282 and FT109). To study its functional role, DIO1 was overexpressed, inhibited [by propylthiouracil (PTU)], or knocked down (KD), and cell count, proliferation, apoptosis, cell viability, and proteomics analysis were performed. Lower DIO1 levels were observed in HGSOC compared to normal cells and tissues. TCGA analyses confirmed that low DIO1 mRNA expression correlated with worse survival and therapy resistance in patients. Silencing or inhibiting the enzyme led to enhanced ovarian cancer proliferation, while an opposite effect was shown following DIO1 ectopic expression. Proteomics analysis in DIO1‐KD cells revealed global changes in proteins that facilitate tumor metabolism and progression. In conclusion, DIO1 expression and ovarian cancer progression are inversely correlated, highlighting a tumor suppressive role for this enzyme and its potential use as a biomarker in this disease.

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Mitochondrial reprogramming via ATP5H loss promotes multimodal cancer therapy resistance

Cited by 35 publications

References 48 publications

HSP90A inhibition promotes anti-tumor immunity by reversing multi-modal resistance and stem-like property of immune-refractory tumors

HSP90A inhibition promotes anti-tumor immunity by reversing multi-modal resistance and stem-like property of immune-refractory tumors

Role of hypoxia inducible factor-1 in cancer stem cells (Review)

The selenoenzyme type I iodothyronine deiodinase: a new tumor suppressor in ovarian cancer

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