Effect of food-related stress conditions and loss of agr and sigB on seb promoter activity in S. aureus

Viral myocarditis is an important human disease, and reovirus-induced murine myocarditis provides an excellent model system for study. Cardiac myocytes, like neurons in the central nervous system, are not replenished, yet there is no cardiac protective equivalent to the blood-brain barrier. Thus, cardiac myocytes may have evolved a unique antiviral response relative to readily replenished cell types, such as cardiac fibroblasts. Our previous comparisons of these two cell types revealed a conundrum: reovirus T3D induces more beta-interferon (IFN-␤) mRNA in cardiac myocytes, yet there is a greater induction of IFN-stimulated genes (ISGs) in cardiac fibroblasts. Here, we investigated possible underlying molecular determinants. We found that greater basal expression of IFN-␤ in cardiac myocytes results in greater basal activated nuclear STAT1 and STAT2 and greater basal ISG mRNA expression and provides greater basal antiviral protection relative to cardiac fibroblasts. Conversely, cardiac fibroblasts express greater basal IFN-␣/␤ receptor 1 (IFNAR1) and greater basal cytoplasmic Jak1, Tyk2, STAT2, and IRF9, leading to a greater increase in reovirus T3D-or IFN-induced nuclear activated STAT1 and STAT2 and greater induction of ISGs for a greater IFN-induced antiviral protection relative to cardiac myocytes. Our results suggest that high basal IFN-␤ expression in cardiac myocytes prearms this vulnerable, nonreplenishable cell type, while high basal expression of IFNAR1 and latent Jak-STAT components in adjacent cardiac fibroblasts renders these cells more responsive to IFN and prevents them from inadvertently serving as a reservoir for viral replication and spread to cardiac myocytes. These studies provide the first indication of an integrated network of cell-type-specific innate immune components for organ protection.

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Innovations, challenges, and minimal information for standardization of humanized mice

Stripecke

Münz

Schuringa

et al. 2020

EMBO Mol Med

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Mice xenotransplanted with human cells and/or expressing human gene products (also known as “humanized mice”) recapitulate the human evolutionary specialization and diversity of genotypic and phenotypic traits. These models can provide a relevant in vivo context for understanding of human‐specific physiology and pathologies. Humanized mice have advanced toward mainstream preclinical models and are now at the forefront of biomedical research. Here, we considered innovations and challenges regarding the reconstitution of human immunity and human tissues, modeling of human infections and cancer, and the use of humanized mice for testing drugs or regenerative therapy products. As the number of publications exploring different facets of humanized mouse models has steadily increased in past years, it is becoming evident that standardized reporting is needed in the field. Therefore, an international community‐driven resource called “Minimal Information for Standardization of Humanized Mice” ( MISHUM ) has been created for the purpose of enhancing rigor and reproducibility of studies in the field. Within MISHUM , we propose comprehensive guidelines for reporting critical information generated using humanized mice.

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Oral Immunization with RecombinantListeria monocytogenesControls Virus Load after Vaginal Challenge with Feline Immunodeficiency Virus

Stevens¹,

Howard

Nordone³

et al. 2004

J Virol

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Toll-like receptor expression in feline lymphoid tissues

Ignacio

Nordone

Howard

et al. 2005

Veterinary Immunology and Immunopathology

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Methodology for isolation and phenotypic characterization of feline small intestinal leukocytes

Howard¹,

Fisher²,

Dean³

et al. 2005

Journal of Immunological Methods

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Kristina E. Howard

Basal Expression Levels of IFNAR and Jak-STAT Components Are Determinants of Cell-Type-Specific Differences in Cardiac Antiviral Responses

Innovations, challenges, and minimal information for standardization of humanized mice

Oral Immunization with RecombinantListeria monocytogenesControls Virus Load after Vaginal Challenge with Feline Immunodeficiency Virus

Toll-like receptor expression in feline lymphoid tissues

Methodology for isolation and phenotypic characterization of feline small intestinal leukocytes

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