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Your search keyword '"Trent M. Woodruff"' showing total 8 results
Start Over Author "Trent M. Woodruff" Publisher american association for cancer research (aacr)
8 results on '"Trent M. Woodruff"'

1. Neutrophil Conversion to a Tumor-Killing Phenotype Underpins Effective Microbial Therapy

Author

Andrew O. Yam, Jacqueline Bailey, Francis Lin, Arnolda Jakovija, Scott E. Youlten, Claudio Counoupas, Matthias Gunzer, Tobias Bald, Trent M. Woodruff, James A. Triccas, Leonard D. Goldstein, David Gallego-Ortega, Shane T. Grey, and Tatyana Chtanova

Subjects
Cancer Research, Oncology, Medizin, 1112 Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

The inflammatory microenvironment of solid tumors creates a protumorigenic milieu that resembles chronic inflammation akin to a subverted wound healing response. Here, we investigated the effect of converting the tumor microenvironment from a chronically inflamed state to one of acute microbial inflammation by injecting microbial bioparticles directly into tumors. Intratumoral microbial bioparticle injection led to rapid and dramatic changes in the tumor immune composition, the most striking of which was a substantial increase in the presence of activated neutrophils. In situ photoconversion and intravital microscopy indicated that tumor neutrophils transiently switched from sessile producers of VEGF to highly motile neutrophils that clustered to make neutrophil-rich domains in the tumor. The neutrophil clusters remodeled tumor tissue and repressed tumor growth. Single-cell transcriptional analysis of microbe-stimulated neutrophils showed a profound shift in gene expression towards heightened activation and antimicrobial effector function. Microbe-activated neutrophils also upregulated chemokines known to regulate neutrophil and CD8+ T-cell recruitment. Microbial therapy also boosted CD8+ T-cell function and enhanced the therapeutic benefit of checkpoint inhibitor therapy in tumor-bearing mice and provided protection in a model of tumor recurrence. These data indicate that one of the major effector mechanisms of microbial therapy is the conversion of tumor neutrophils from a wound healing to an acutely activated cytotoxic phenotype, highlighting a rationale for broader deployment of microbial therapy in the treatment of solid cancers. Significance: Intratumoral injection of microbial bioparticles stimulates neutrophil antitumor functions, suggesting pathways for optimizing efficacy of microbial therapies and paving the way for their broader utilization in the clinic.

Published
2023
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3. Data from Neutrophil Conversion to a Tumor-Killing Phenotype Underpins Effective Microbial Therapy

Author

Tatyana Chtanova, Shane T. Grey, David Gallego-Ortega, Leonard D. Goldstein, James A. Triccas, Trent M. Woodruff, Tobias Bald, Matthias Gunzer, Claudio Counoupas, Scott E. Youlten, Arnolda Jakovija, Francis Lin, Jacqueline Bailey, and Andrew O. Yam

Abstract

The inflammatory microenvironment of solid tumors creates a protumorigenic milieu that resembles chronic inflammation akin to a subverted wound healing response. Here, we investigated the effect of converting the tumor microenvironment from a chronically inflamed state to one of acute microbial inflammation by injecting microbial bioparticles directly into tumors. Intratumoral microbial bioparticle injection led to rapid and dramatic changes in the tumor immune composition, the most striking of which was a substantial increase in the presence of activated neutrophils. In situ photoconversion and intravital microscopy indicated that tumor neutrophils transiently switched from sessile producers of VEGF to highly motile neutrophils that clustered to make neutrophil-rich domains in the tumor. The neutrophil clusters remodeled tumor tissue and repressed tumor growth. Single-cell transcriptional analysis of microbe-stimulated neutrophils showed a profound shift in gene expression towards heightened activation and antimicrobial effector function. Microbe-activated neutrophils also upregulated chemokines known to regulate neutrophil and CD8+ T-cell recruitment. Microbial therapy also boosted CD8+ T-cell function and enhanced the therapeutic benefit of checkpoint inhibitor therapy in tumor-bearing mice and provided protection in a model of tumor recurrence. These data indicate that one of the major effector mechanisms of microbial therapy is the conversion of tumor neutrophils from a wound healing to an acutely activated cytotoxic phenotype, highlighting a rationale for broader deployment of microbial therapy in the treatment of solid cancers.Significance:Intratumoral injection of microbial bioparticles stimulates neutrophil antitumor functions, suggesting pathways for optimizing efficacy of microbial therapies and paving the way for their broader utilization in the clinic.

Published
2023
Full Text
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5. Supplementary Data from Neutrophil Conversion to a Tumor-Killing Phenotype Underpins Effective Microbial Therapy

Author

Tatyana Chtanova, Shane T. Grey, David Gallego-Ortega, Leonard D. Goldstein, James A. Triccas, Trent M. Woodruff, Tobias Bald, Matthias Gunzer, Claudio Counoupas, Scott E. Youlten, Arnolda Jakovija, Francis Lin, Jacqueline Bailey, and Andrew O. Yam

Abstract

SUPPLEMENTARY FIGURES 1-10; SUPPLEMENTARY TABLE and VIDEO LEGENDS; EXTENDED MATERIALS AND METHODS

Published
2023
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6. Suppl video 3 from Neutrophil Conversion to a Tumor-Killing Phenotype Underpins Effective Microbial Therapy

Author

Tatyana Chtanova, Shane T. Grey, David Gallego-Ortega, Leonard D. Goldstein, James A. Triccas, Trent M. Woodruff, Tobias Bald, Matthias Gunzer, Claudio Counoupas, Scott E. Youlten, Arnolda Jakovija, Francis Lin, Jacqueline Bailey, and Andrew O. Yam

Abstract

Neutrophils engage in multiple interactions with LLC tumor cells following microbial bioparticle treatment.

Published
2023
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