Ivan Godinez scite author profile

Salmonella typhimurium causes a localized enteric infection in immunocompetent individuals, whereas HIV-infected individuals develop a life-threatening bacteremia. Here we show that simian immunodeficiency virus (SIV) infection results in depletion of T helper type 17 (T H 17) cells in the ileal mucosa of rhesus macaques, thereby impairing mucosal barrier functions to S. typhimurium dissemination. In SIV-negative macaques, the gene expression profile induced by S. typhimurium in ligated ileal loops was dominated by T H 17 responses, including the expression of interleukin-17 (IL-17) and IL-22. T H 17 cells were markedly depleted in SIV-infected rhesus macaques, resulting in blunted T H 17 responses to S. typhimurium infection and increased bacterial dissemination. IL-17 receptor-deficient mice showed increased systemic dissemination of S. typhimurium from the gut, suggesting that IL-17 deficiency causes defects in mucosal barrier function. We conclude that SIV infection impairs the IL-17 axis, an arm of the mucosal immune response preventing systemic microbial dissemination from the gastrointestinal tract. A.G. served as consultant for the presentation of NTS bacteremia in African subjects. J.K.K. served as collaborator on studies with Il17ra −/− mice and provided useful comments on the experimental design. S.D. designed and supervised the SIV infections of rhesus macaques, blood sample scheduling, macaque protocols, processing and cell isolations for flow cytometry and DNA microarray analyses. A.J.B. was responsible for the experimental design and supervision of mouse studies, ligated ileal loop experiments in rhesus macaques, macaque protocols and analysis of host responses to Salmonella infection. A.J.B. collected tissue during the ligated ileal loop surgery and was responsible for the final manuscript preparation. A.J.B. and S.D. provided financial support for the study and equally contributed to the experimental design, supervision and data interpretation. Although nontyphoidal Salmonella serotypes (NTS) are common agents causing acute foodborne disease worldwide, it is unusual to isolate them from the blood of adults, because in immunocompetent individuals these pathogens remain localized to the intestine and cause a self-limiting gastroenteritis 1 . However, in people with underlying immunosuppression, NTS may spread beyond the intestine and reach the bloodstream, a serious complication known as NTS bacteremia2. The rise in the number of people with AIDS in sub-Saharan Africa has led to a dramatic increase in the frequency of NTS bacteremia3. In marked contrast to the pre-AIDS era4, NTS is currently a leading cause of hospital admission of adults and among the most common bacterial blood isolates from hospitalized adults in sub-Saharan Africa5, the vast majority of whom are HIV positive 3 . NTS infection in HIV-positive African adults is associated with high acute mortality rates (47%) 6 . Although the occurrence of NTS bacteremia in HIV-positive people is well documented, there are no reports inv...

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Interleukin-23 Orchestrates Mucosal Responses to Salmonella enterica Serotype Typhimurium in the Intestine

Godinez

et al. 2009

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T Cells Help To Amplify Inflammatory Responses Induced bySalmonella entericaSerotype Typhimurium in the Intestinal Mucosa

et al. 2008

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A Rapid Change in Virulence Gene Expression during the Transition from the Intestinal Lumen into Tissue Promotes Systemic Dissemination of Salmonella

Winter

Godinez

et al. 2010

PLoS Pathog

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Bacterial pathogens causing systemic disease commonly evolve from organisms associated with localized infections but differ from their close relatives in their ability to overcome mucosal barriers by mechanisms that remain incompletely understood. Here we investigated whether acquisition of a regulatory gene, tviA, contributed to the ability of Salmonella enterica serotype Typhi to disseminate from the intestine to systemic sites of infection during typhoid fever. To study the consequences of acquiring a new regulator by horizontal gene transfer, tviA was introduced into the chromosome of S. enterica serotype Typhimurium, a closely related pathogen causing a localized gastrointestinal infection in immunocompetent individuals. TviA repressed expression of flagellin, a pathogen associated molecular pattern (PAMP), when bacteria were grown at osmotic conditions encountered in tissue, but not at higher osmolarity present in the intestinal lumen. TviA-mediated flagellin repression enabled bacteria to evade sentinel functions of human model epithelia and resulted in increased bacterial dissemination to the spleen in a chicken model. Collectively, our data point to PAMP repression as a novel pathogenic mechanism to overcome the mucosal barrier through innate immune evasion.

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Early MyD88-Dependent Induction of Interleukin-17A Expression during Salmonella Colitis

et al. 2011

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Ivan Godinez

Simian immunodeficiency virus–induced mucosal interleukin-17 deficiency promotes Salmonella dissemination from the gut

Interleukin-23 Orchestrates Mucosal Responses to Salmonella enterica Serotype Typhimurium in the Intestine

T Cells Help To Amplify Inflammatory Responses Induced bySalmonella entericaSerotype Typhimurium in the Intestinal Mucosa

A Rapid Change in Virulence Gene Expression during the Transition from the Intestinal Lumen into Tissue Promotes Systemic Dissemination of Salmonella

Early MyD88-Dependent Induction of Interleukin-17A Expression during Salmonella Colitis

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