The Tumor Microenvironment Represses T Cell Mitochondrial Biogenesis to Drive Intratumoral T Cell Metabolic Insufficiency and Dysfunction

Scharping, Nicole E.; Menk, Ashley V.; Moreci, Rebecca S.; Whetstone, Ryan D.; Dadey, Rebekah; Watkins, Simon C.; Ferris, Robert L.; Delgoffe, Greg M.

doi:10.1016/j.immuni.2016.08.009

Cited by 389 publications

(182 citation statements)

References 46 publications

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“…(iv) Finally, PGC-1α and its cofactors, NRFs and PPARs, induce a series of transcription factors, which activate fatty acid oxidation and OXPHOS, and mitochondrial expansion, which promotes CTL activation and proliferation. Two papers very recently published, showing that PD-1 signal blocks mitochondrial activity and PGC-1α expression, strongly support our hypothesis (55,56). Together, all chemicals used in this study-namely ROS, uncouplers, AMPK activators, mTOR activators, and PGC-1α activators-lead to CD8 + T-cell activation and differentiation through mitochondrial activation and expansion when combined with PD-1 blockade but not by the chemicals alone.…”

Section: Discussionsupporting

confidence: 85%

Mitochondrial activation chemicals synergize with surface receptor PD-1 blockade for T cell-dependent antitumor activity

Chamoto

Chowdhury

Kumar

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

313

287

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Although immunotherapy by PD-1 blockade has dramatically improved the survival rate of cancer patients, further improvement in efficacy is required to reduce the fraction of less sensitive patients. In mouse models of PD-1 blockade therapy, we found that tumor-reactive cytotoxic T lymphocytes (CTLs) in draining lymph nodes (DLNs) carry increased mitochondrial mass and more reactive oxygen species (ROS). We show that ROS generation by ROS precursors or indirectly by mitochondrial uncouplers synergized the tumoricidal activity of PD-1 blockade by expansion of effector/ memory CTLs in DLNs and within the tumor. These CTLs carry not only the activation of mechanistic target of rapamycin (mTOR) and AMP-activated protein kinase (AMPK) but also an increment of their downstream transcription factors such as PPAR-gamma coactivator 1α (PGC-1α) and T-bet. Furthermore, direct activators of mTOR, AMPK, or PGC-1α also synergized the PD-1 blockade therapy whereas none of above-mentioned chemicals alone had any effects on tumor growth. These findings will pave a way to developing novel combinatorial therapies with PD-1 blockade.PD-1 | cancer immunotherapy | mitochondria | immune metabolism | PGC-1α

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Section: Discussionsupporting

confidence: 85%

Mitochondrial activation chemicals synergize with surface receptor PD-1 blockade for T cell-dependent antitumor activity

Chamoto

Chowdhury

Kumar

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

313

287

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“…Additionally, TME can deeply affect the metabolic balance of T EX cells. Indeed, expression levels of the inhibitory receptors PD-1 and LAG-3 in TILs correlate with decreased mitochondrial mass and glucose uptake [207]. Given the importance of glucose availability to sustain T E glycolysis and effector functions [201], it becomes obvious that the glucose-limiting environment found in a tumor mass severely affects the anti-tumor immune response and cytokine production [208], thus favouring an imbalance towards T EX .…”

Section: Cell Exhaustionmentioning

confidence: 99%

“…Consequently, in these conditions, mitochondrial mass and function are severely impaired and cytokine production is reduced. Indeed, forcing PCG1α expression in isolated TILs restores mitochondrial functionality and reduces tumor growth during ACI [207]. Considering the tight connection existing between mitochondrial metabolism and the shape of the mitochondrial network (see [209] for a review), we could expect an involvement of mitochondrial dynamics in TILs metabolism inside the tumor mass.…”

Section: Cell Exhaustionmentioning

confidence: 99%

“…Considering the tight connection existing between mitochondrial metabolism and the shape of the mitochondrial network (see [209] for a review), we could expect an involvement of mitochondrial dynamics in TILs metabolism inside the tumor mass. Of note, it is still unknown whether or not differentiation to an exhausted phenotype in TILs could also affect mitochondrial dynamics, in addition to its well-established role on T EX mitochondrial metabolism [207,210]. Recently, by a microarray analysis in chronic viral-infected patients fit has been found that exhausted CD8+ T cells show significant downregulation in the expression of several genes associated with mitochondrial OXPHOS metabolism, and upregulation of the oxidative stress pathway.…”

Section: Cell Exhaustionmentioning

confidence: 99%

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The mitochondrial dynamics in cancer and immune-surveillance

Simula

Nazio

Campello

2017

Seminars in Cancer Biology

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A B S T R A C TMitochondria-shaping proteins control the dynamic equilibrium between fusion and fission of the mitochondrial network. Their balance is strictly required to regulate various processes, including the quality of mitochondria, cell metabolism, cell death, proliferation and cell migration. Alterations in these processes are frequently encountered in cancer, during both its onset and later progression, as evidence emerge connecting alterations in mitochondrial dynamics with cancer development. In recent years, novel therapeutic approaches to fight against different human tumors aim at exploiting the immune system's ability to specifically recognize tumor antigens, thus killing malignant cells in a process named immune-surveillance. Interestingly, data are accumulating on the role that mitochondrial dynamics play also for the correct function of both the innate and the adaptive immune system. By this review, we overview how mitochondrial dynamics can affect various processes during cancer development, acting directly on tumor cells or indirectly on cells responsible for tumor aggression and defence.

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“…Tumor cell production of lactic acid can also suppress T cell signaling through NFAT and IFN-γ secretion to impair antitumor immunity (11). Tumor infiltrating lymphocytes (TIL) have been reported to lose mitochondrial mass in a melanoma model, rendering T cells unable to efficiently meet bioenergetic needs (26). While restoring T cell glucose uptake and glycolytic intermediates (24,27) or mitochondrial mass (26) can improve TIL function, the mechanisms and role of T cell metabolic inhibition in cancer remain poorly understood.…”

Section: Introductionmentioning

confidence: 99%

Mitochondrial dysregulation and glycolytic insufficiency functionally impair CD8 T cells infiltrating human renal cell carcinoma

Siska¹,

Beckermann²,

Mason³

et al. 2017

JCI Insight

276

205

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The Tumor Microenvironment Represses T Cell Mitochondrial Biogenesis to Drive Intratumoral T Cell Metabolic Insufficiency and Dysfunction

Cited by 389 publications

References 46 publications

Mitochondrial activation chemicals synergize with surface receptor PD-1 blockade for T cell-dependent antitumor activity

Mitochondrial activation chemicals synergize with surface receptor PD-1 blockade for T cell-dependent antitumor activity

The mitochondrial dynamics in cancer and immune-surveillance

Mitochondrial dysregulation and glycolytic insufficiency functionally impair CD8 T cells infiltrating human renal cell carcinoma

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