Connor McKenney scite author profile

Connor McKenney

2Publications

30Citation Statements Received

82Citation Statements Given

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Johns Hopkins Medicine, Johns Hopkins University

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Epigenetically regulated digital signaling defines epithelial innate immunity at the tissue level

et al. 2021

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To prevent damage to the host or its commensal microbiota, epithelial tissues must match the intensity of the immune response to the severity of a biological threat. Toll-like receptors allow epithelial cells to identify microbe associated molecular patterns. However, the mechanisms that mitigate biological noise in single cells to ensure quantitatively appropriate responses remain unclear. Here we address this question using single cell and single molecule approaches in mammary epithelial cells and primary organoids. We find that epithelial tissues respond to bacterial microbe associated molecular patterns by activating a subset of cells in an all-or-nothing (i.e. digital) manner. The maximum fraction of responsive cells is regulated by a bimodal epigenetic switch that licenses the TLR2 promoter for transcription across multiple generations. This mechanism confers a flexible memory of inflammatory events as well as unique spatio-temporal control of epithelial tissue-level immune responses. We propose that epigenetic licensing in individual cells allows for long-term, quantitative fine-tuning of population-level responses.

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Systematic analysis of the MAPK signaling network reveals MAP3K-driven control of cell fate

et al. 2022

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Connor McKenney

Epigenetically regulated digital signaling defines epithelial innate immunity at the tissue level

Systematic analysis of the MAPK signaling network reveals MAP3K-driven control of cell fate

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