Diana Summers scite author profile

SUMMARY Quorum sensing (QS) is a bacterial communication mechanism in which secreted signaling molecules impact population function and gene expression. QS-like phenomena have been reported in eukaryotes with largely unknown contributing molecules, functions, and mechanisms. We identify Qsp1, a secreted peptide, as a central signaling molecule that regulates virulence in the fungal pathogen Cryptococcus neoformans. QSP1 is a direct target of three transcription factors required for virulence, and qsp1Δ mutants exhibit attenuated infection, slowed tissue accumulation, and greater control by primary macrophages. Qsp1 mediates autoregulatory signaling that modulates secreted protease activity and promotes cell wall function at high cell densities. Peptide production requires release from a secreted precursor, proQsp1, by a cell-associated protease, Pqp1. Qsp1 sensing requires an oligopeptide transporter, Opt1, and remarkably, cytoplasmic expression of mature Qsp1 complements multiple phenotypes of qsp1Δ. Thus, C. neoformans produces an autoregulatory peptide that matures extracellularly but functions intracellularly to regulate virulence.

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Determining protein polarization proteome-wide using physical dissection of individual Stentor coeruleus cells

Lin

Piehowski

Tsai

et al. 2022

Current Biology

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Coordinate genomic association of transcription factors controlled by an imported quorum sensing peptide in Cryptococcus neoformans

et al. 2020

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Police Officer Responses to Deadly Encounters with the Public: Understanding Situational Characteristics that Impact Decision-Making

Cook

Summers

Paulk

et al. 2022

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In the USA, police officer–citizen encounters are routine, and while rare, high-profile shootings underscore the acute strains that exist between the police and communities when force is inappropriately applied. This collaborative partnership explored the situational contexts that impact officer decision-making in deadly force encounters in order to inform training and practice initiatives. In this study, we analysed 39 officers’ responses to 233 simulated encounters with the public using a firearms training system. We coded participants’ performance into one of the five possible outcomes (pass, missed target, suspect shot first, shot victim, and shot too soon). The most commonly occurring outcome was pass (44.6%), followed by suspect shooting first (29.6%), and missed target (12.9%). Content analysis of self-identified situational factors revealed that across all scenarios, the officers’ decision was most commonly informed by suspect cues, environmental factors, and the presence of a firearm. Implications of the findings are discussed.

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Coordinate genomic association of transcription factors controlled by an imported quorum sensing peptide inCryptococcus neoformans

Summers

Perry

Rao

et al. 2020

Preprint

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Qsp1 is a secreted quorum sensing peptide required for virulence of the fungal meningitis pathogen Cryptococcus neoformans. Qsp1 functions to control cell wall integrity in vegetatively growing cells and also functions in mating. Rather than acting on a cell surface receptor, Qsp1 is imported to act intracellularly via the predicted oligopeptide transporter Opt1. Here, we identify a transcription factor network as a target of Qsp1. Using whole-genome chromatin immunoprecipitation, we find Qsp1 controls the genomic associations of three transcription factors to genes whose outputs are regulated by Qsp1. One of these transcription factors, Cqs2, is also required for the action of Qsp1 during mating, indicating that it might be a shared proximal target of Qsp1. Consistent with this hypothesis, deletion of CQS2 impacts the binding of other network transcription factors specifically to Qsp1-regulated genes. These genetic and genomic studies illuminate mechanisms by which an imported peptide acts to modulate eukaryotic gene expression. AUTHOR SUMMARYFor many fungal pathogens, the ability to adapt to changing and diverse environments forms the basis for their ability to infect and survive inside macrophages and other niches in the human body, and these changes are accomplished by transcription factors. Many pathogenic microbes coordinate their gene expression as a function of cell density in a process known as quorum sensing. Here, in the human fungal meningitis pathogen Cryptococcus neoformans, we find that an imported eukaryotic quorum sensing peptide that is important for virulence, Qsp1, controls the binding of three different transcription factors to promoters, thereby modulating the expression of Qsp1-regulated genes. This discovery reveals the mechanism for how an imported peptide affects gene expression.

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Diana Summers

Intracellular Action of a Secreted Peptide Required for Fungal Virulence

Determining protein polarization proteome-wide using physical dissection of individual Stentor coeruleus cells

Coordinate genomic association of transcription factors controlled by an imported quorum sensing peptide in Cryptococcus neoformans

Police Officer Responses to Deadly Encounters with the Public: Understanding Situational Characteristics that Impact Decision-Making

Coordinate genomic association of transcription factors controlled by an imported quorum sensing peptide inCryptococcus neoformans

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