Marina Yurieva scite author profile

Gut microbes live in symbiosis with their hosts, but how mutualistic animal-microbe interactions emerge is not understood. By adaptively evolving the opportunistic fungal pathogen Candida albicans in the mouse gastrointestinal tract, we selected strains that not only had lost their main virulence program but also protected their new hosts against a variety of systemic infections. This protection was independent of adaptive immunity, arose as early as a single day postpriming, was dependent on increased innate cytokine responses, and was thus reminiscent of “trained immunity.” Because both the microbe and its new host gain some advantages from their interaction, this experimental system might allow direct study of the evolutionary forces that govern the emergence of mutualism between a mammal and a fungus.

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Gene Essentiality Is a Quantitative Property Linked to Cellular Evolvability

Liu

Yong

Yurieva

et al. 2015

Cell

146

171

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Gene essentiality is typically determined by assessing the viability of the corresponding mutant cells, but this definition fails to account for the ability of cells to adaptively evolve to genetic perturbations. Here, we performed a stringent screen to assess the degree to which Saccharomyces cerevisiae cells can survive the deletion of ~1,000 individual "essential" genes and found that ~9% of these genetic perturbations could in fact be overcome by adaptive evolution. Our analyses uncovered a genome-wide gradient of gene essentiality, with certain essential cellular functions being more "evolvable" than others. Ploidy changes were prevalent among the evolved mutant strains, and aneuploidy of a specific chromosome was adaptive for a class of evolvable nucleoporin mutants. These data justify a quantitative redefinition of gene essentiality that incorporates both viability and evolvability of the corresponding mutant cells and will enable selection of therapeutic targets associated with lower risk of emergence of drug resistance.

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Migratory CD11b ⁺ conventional dendritic cells induce T follicular helper cell–dependent antibody responses

et al. 2017

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T follicular helper (Tfh) cells are a subset of CD4 T cells that promote antibody production during vaccination. Conventional dendritic cells (cDCs) efficiently prime Tfh cells; however, conclusions regarding which cDC instructs Tfh cell differentiation have differed between recent studies. We found that these discrepancies might exist because of the unusual sites used for immunization in murine models, which differentially bias which DC subsets access antigen. We used intranasal immunization as a physiologically relevant route of exposure that delivers antigen to all tissue DC subsets. Using a combination of mice in which the function of individual DC subsets is impaired and different antigen formulations, we determined that CD11b migratory type 2 cDCs (cDC2s) are necessary and sufficient for Tfh induction. DC-specific deletion of the guanine nucleotide exchange factor DOCK8 resulted in an isolated loss of CD11b cDC2, but not CD103 cDC1, migration to lung-draining lymph nodes. Impaired cDC2 migration or development in DC-specific or knockout mice, respectively, led to reduced Tfh cell priming, whereas loss of CD103 cDC1s in mice did not. Loss of cDC2-dependent Tfh cell priming impaired antibody-mediated protection from live influenza virus challenge. We show that migratory cDC2s uniquely carry antigen into the subanatomic regions of the lymph node where Tfh cell priming occurs-the T-B border. This work identifies the DC subset responsible for Tfh cell-dependent antibody responses, particularly when antigen dose is limiting or is encountered at a mucosal site, which could ultimately inform the formulation and delivery of vaccines.

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Marina Yurieva

Experimental evolution of a fungal pathogen into a gut symbiont

Gene Essentiality Is a Quantitative Property Linked to Cellular Evolvability

Migratory CD11b ⁺ conventional dendritic cells induce T follicular helper cell–dependent antibody responses

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Marina Yurieva

Experimental evolution of a fungal pathogen into a gut symbiont

Gene Essentiality Is a Quantitative Property Linked to Cellular Evolvability

Migratory CD11b + conventional dendritic cells induce T follicular helper cell–dependent antibody responses

Contact Info

Product

Resources

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Migratory CD11b ⁺ conventional dendritic cells induce T follicular helper cell–dependent antibody responses