José G. Vilches-Moure scite author profile

The intestinal microbiota provides colonization resistance against pathogens, limiting pathogen expansion and transmission. These microbiota-mediated mechanisms were previously identified by observing loss of colonization resistance after antibiotic treatment or dietary changes, which severely disrupt microbiota communities. We identify a microbiota-mediated mechanism of colonization resistance against Salmonella enterica serovar Typhimurium (S. Typhimurium) by comparing high-complexity commensal communities with different levels of colonization resistance. Using inbred mouse strains with different infection dynamics and S. Typhimurium intestinal burdens, we demonstrate that Bacteroides species mediate colonization resistance against S. Typhimurium by producing the short-chain fatty acid propionate. Propionate directly inhibits pathogen growth in vitro by disrupting intracellular pH homeostasis, and chemically increasing intestinal propionate levels protects mice from S. Typhimurium. In addition, administering susceptible mice Bacteroides, but not a propionate-production mutant, confers resistance to S. Typhimurium. This work provides mechanistic understanding into the role of individualized microbial communities in host-to-host variability of pathogen transmission.

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SETD3 is an actin histidine methyltransferase that prevents primary dystocia

Wilkinson

Diep

Dai

et al. 2018

Nature

130

249

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For over fifty years, the methylation of mammalian actin at histidine 73 (actin-H73me) has been known to exist 1 . Beyond mammals, we find that actin-H73me is conserved in several additional model animal and plant organisms. Despite the pervasiveness of H73me, its function is enigmatic, and the enzyme generating this modification is unknown. Here, we identify SETD3 ( SET d omain protein 3 ) as the physiologic actin histidine 73 methyltransferase. Structural studies reveal that an extensive network of interactions clamps the actin peptide on the SETD3 surface to properly orient H73 within the catalytic pocket and facilitate methyl transfer. H73me reduces the nucleotide exchange rate on actin monomers and modestly accelerates actin filament assembly. Mice lacking SETD3 show complete loss of actin-H73me in multiple tissues and quantitative proteomics singles out actin-H73 as the principal physiologic SETD3 substrate. SETD3 deficient female mice have severely decreased litter sizes due to primary maternal dystocia that is refractory to ecbolic induction agents. Further, depletion of SETD3 impairs signal-induced contraction in primary human uterine smooth muscle cells. Together, our results identify the first mammalian protein histidine methyltransferase and uncover a pivotal role for SETD3 and actin-H73me in the regulation of smooth muscle contractility. Our data also support the broader hypothesis where protein histidine methylation acts as a common regulatory mechanism.

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Salmonella-Driven Polarization of Granuloma Macrophages Antagonizes TNF-Mediated Pathogen Restriction during Persistent Infection

Pham

Brewer

Thurston

et al. 2020

Cell Host & Microbe

137

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Many intracellular bacteria can establish chronic infection and persist in tissues within granulomas composed of macrophages. Granuloma macrophages exhibit heterogeneous polarization states, or phenotypes, that may be functionally distinct. Here, we elucidate a host-pathogen interaction that controls granuloma macrophage polarization and longterm pathogen persistence during Salmonella Typhimurium (STm) infection. We show that STm persists within splenic granulomas that are densely populated by CD11b + CD11c + Ly6C + macrophages. STm preferentially persists in granuloma macrophages reprogrammed to an M2 state, in part through the activity of the effector SteE, which contributes to the establishment of persistent infection. We demonstrate that tumor necrosis factor (TNF) signaling limits M2 granuloma macrophage polarization, thereby restricting STm persistence. TNF neutralization shifts granuloma macrophages toward an M2 state and increases bacterial persistence, and these effects are partially dependent on SteE activity. Thus, manipulating granuloma macrophage polarization represents a strategy for intracellular bacteria to overcome host restriction during persistent infection. B220 CD11b DAPI 1 wk 4 wk 10 wk CD11b CD11b B220 CD11b uninfected infected CD11b iNOS F CD11b iNOS

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Anti-GD2 synergizes with CD47 blockade to mediate tumor eradication

Theruvath

Ménard

Smith

et al. 2022

Nat Med

144

101

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Hepatosplenic and Hepatocytotropic T-Cell Lymphoma – Two Distinct Types of T-Cell Lymphoma in Dogs

Keller

Vernau

Hodges

et al. 2012

Journal of Comparative Pathology

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