Taylor Mills scite author profile

Interleukin-1β (IL-1β)–mediated inflammation suppresses antitumor immunity, leading to the generation of a tumor-permissive environment, tumor growth, and progression. Here, we demonstrate that nucleotide-binding domain, leucine-rich containing family, pyrin domain-containing-3 (NLRP3) inflammasome activation in melanoma is linked to IL-1β production, inflammation, and immunosuppression. Analysis of cancer genome datasets (TCGA and GTEx) revealed greater NLRP3 and IL-1β expression in cutaneous melanoma samples (n = 469) compared to normal skin (n = 324), with a highly significant correlation between NLRP3 and IL-1β (P < 0.0001). We show the formation of the NLRP3 inflammasome in biopsies of metastatic melanoma using fluorescent resonance energy transfer analysis for NLRP3 and apoptosis-associated speck-like protein containing a CARD. In vivo, tumor-associated NLRP3/IL-1 signaling induced expansion of myeloid-derived suppressor cells (MDSCs), leading to reduced natural killer and CD8+ T cell activity concomitant with an increased presence of regulatory T (Treg) cells in the primary tumors. Either genetic or pharmacological inhibition of tumor-derived NLRP3 by dapansutrile (OLT1177) was sufficient to reduce MDSCs expansion and to enhance antitumor immunity, resulting in reduced tumor growth. Additionally, we observed that the combination of NLRP3 inhibition and anti–PD-1 treatment significantly increased the antitumor efficacy of the monotherapy by limiting MDSC-mediated T cell suppression and tumor progression. These data show that NLRP3 activation in melanoma cells is a protumor mechanism, which induces MDSCs expansion and immune evasion. We conclude that inhibition of NLRP3 can augment the efficacy of anti–PD-1 therapy.

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CD34 and EPCR coordinately enrich functional murine hematopoietic stem cells under normal and inflammatory conditions

Rabe

Hernández

Mills

et al. 2020

Experimental Hematology

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Pro-inflammatory cytokine blockade attenuates myeloid expansion in a murine model of rheumatoid arthritis

et al. 2019

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Rheumatoid arthritis is a debilitating autoimmune disease characterized by chronic inflammation and progressive destruction of joint tissue. It is also characterized by aberrant blood phenotypes including anemia and suppressed lymphopoiesis that contribute to patient morbidity. However, the impact of rheumatoid arthritis on hematopoietic stem cells has not been fully elucidated. Using a collagen-induced mouse model of human rheumatoid arthritis, we identified systemic inflammation and myeloid overproduction associated with activation of a myeloid differentiation gene program in hematopoietic stem cells. Surprisingly, despite ongoing inflammation, hematopoietic stem cells from arthritic mice remain in a quiescent state associated with activation of a proliferation arrest gene program. Strikingly, we find that inflammatory cytokine blockade using the interleukin-1 receptor antagonist anakinra leads to an attenuation of inflammatory arthritis and myeloid expansion in the bone marrow of arthritic mice. In addition, anakinra reduces expression of inflammation-driven myeloid lineage and proliferation arrest gene programs in hematopoietic stem cells of arthritic mice. Altogether, our findings show that inflammatory cytokine blockade can contribute to normalization of hematopoiesis in the context of chronic autoimmune arthritis.

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PU.1 enforces quiescence and limits hematopoietic stem cell expansion during inflammatory stress

Chavez

Rabe

Loeffler

et al. 2021

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Hematopoietic stem cells (HSCs) are capable of entering the cell cycle to replenish the blood system in response to inflammatory cues; however, excessive proliferation in response to chronic inflammation can lead to either HSC attrition or expansion. The mechanism(s) that limit HSC proliferation and expansion triggered by inflammatory signals are poorly defined. Here, we show that long-term HSCs (HSCLT) rapidly repress protein synthesis and cell cycle genes following treatment with the proinflammatory cytokine interleukin (IL)-1. This gene program is associated with activation of the transcription factor PU.1 and direct PU.1 binding at repressed target genes. Notably, PU.1 is required to repress cell cycle and protein synthesis genes, and IL-1 exposure triggers aberrant protein synthesis and cell cycle activity in PU.1-deficient HSCs. These features are associated with expansion of phenotypic PU.1-deficient HSCs. Thus, we identify a PU.1-dependent mechanism triggered by innate immune stimulation that limits HSC proliferation and pool size. These findings provide insight into how HSCs maintain homeostasis during inflammatory stress.

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The anti-inflammatory cytokine interleukin-37 is an inhibitor of trained immunity

et al. 2021

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Taylor Mills

Targeting tumor-derived NLRP3 reduces melanoma progression by limiting MDSCs expansion

CD34 and EPCR coordinately enrich functional murine hematopoietic stem cells under normal and inflammatory conditions

Pro-inflammatory cytokine blockade attenuates myeloid expansion in a murine model of rheumatoid arthritis

PU.1 enforces quiescence and limits hematopoietic stem cell expansion during inflammatory stress

The anti-inflammatory cytokine interleukin-37 is an inhibitor of trained immunity

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