Kelsey Voss scite author profile

The growing field of immune metabolism has revealed promising indications for metabolic targets to modulate anti-cancer immunity. Combination therapies involving metabolic inhibitors with immune checkpoint blockade (ICB), chemotherapy, radiation, and/or diet now offer new approaches for cancer therapy. However, it remains uncertain how to best utilize these strategies in the context of the complex tumor microenvironment (TME). Oncogene-driven changes in tumor cell metabolism can impact the TME to limit immune responses and present barriers to cancer therapy. These changes also reveal opportunities to reshape the TME by targeting metabolic pathways to favor immunity. Here we explore current strategies that shift immune cell metabolism to pro-inflammatory states in the TME and highlight a need to better replicate physiologic conditions to select targets, clarify mechanisms, and optimize metabolic inhibitors. Unifying our understanding of these pathways and interactions within the heterogenous TME will be instrumental to advance this promising field and enhance immunotherapy.

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Germline hypomorphic CARD11 mutations in severe atopic disease

Chi

et al. 2017

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Few monogenic causes for severe manifestations of common allergic diseases have been identified. Via next generation sequencing on a cohort of patients with severe atopic dermatitis, some with comorbid infections, we found 8 individuals from 4 families with novel heterozygous mutations in CARD11, a scaffolding protein involved in lymphocyte receptor signaling. Disease improved over time in most patients. Transfection of mutant expression constructs into T cell lines demonstrated both loss of function and dominant interfering activity upon antigen receptor-induced NF-κB and mTORC1 activation. Patient T-cells had similar defects, as well as diminished IFN-γ cytokine production. The mTORC1 and IFN-γ production defects could be partially rescued by supplementing with glutamine, which requires CARD11 for import into T cells. Our findings indicate a single hypomorphic gene mutation in CARD11 can cause potentially correctable cellular defects that lead to atopic dermatitis.

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MTHFD2 is a metabolic checkpoint controlling effector and regulatory T cell fate and function

et al. 2022

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A guide to interrogating immunometabolism

et al. 2021

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Reactive oxygen species activate NFκB (p65) and p53 and induce apoptosis in RVFV infected liver cells

et al. 2014

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Rift Valley fever virus (RVFV) infection is often associated with pronounced liver damage. Previously, our studies revealed altered host phospho-signaling responses (NFκB, MAPK and DNA damage responses) in RVFV infected epithelial cells that correlated with a cellular stress response. Here, we report that RVFV infection of liver cells leads to an increase in reactive oxygen species (ROS). Our data suggests the presence of the viral protein NSs in the mitochondria of infected cells, hence contributing to early increase in ROS. Increased ROS levels correlated with activation of NFκB (p65) and p53 responses, which in conjunction with infection, was also reflected as macromolecular rearrangements observed using size fractionation of protein lysates. Additionally, we documented an increase in cytokine expression and pro-apoptotic gene expression with infection, which was reversed with antioxidant treatment. Collectively, we identified ROS and oxidative stress as critical contributors to apoptosis of liver cells during RVFV infection.

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Kelsey Voss

Targeting Metabolism to Improve the Tumor Microenvironment for Cancer Immunotherapy

Germline hypomorphic CARD11 mutations in severe atopic disease

MTHFD2 is a metabolic checkpoint controlling effector and regulatory T cell fate and function

A guide to interrogating immunometabolism

Reactive oxygen species activate NFκB (p65) and p53 and induce apoptosis in RVFV infected liver cells

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