Tom Kawula scite author profile

Immune deviation of cytolytic T cell function, induced by type 2 cytokines like IL-4, is an attractive concept to explain failure of the immune system in some diseases. However, this concept is challenged by previous conflicting results on whether type 2 cytokine-producing CD8+ T cells are cytolytic. Therefore, we have analyzed the relationship between cytolytic activity and cytokine production among large numbers of primary CD8+ T cell clones. Single murine CD8+ T cells of naive phenotype were activated at high efficiency with immobilized Abs to CD3, CD8, and CD11a in the presence of IL-2 (neutral conditions) or IL-2, IL-4, and anti-IFN-γ Ab (type 2-polarizing conditions) for 8–9 days. Under neutral conditions, most clones produced IFN-γ without IL-4 and were cytolytic. Under type 2-polarizing conditions, most clones produced IFN-γ and IL-4 but displayed variable cytolytic activity and CD8 expression. Separation on the basis of surface CD8 levels revealed that, compared with CD8high cells from the same cultures, CD8low cells were poorly cytolytic and expressed low levels of perforin mRNA and protein and granzyme A, B, and C mRNA. A similar, smaller population of noncytolytic CD8low cells was identified among CD8+ T cells activated in mixed lymphocyte reaction with IL-4. Variable efficiency of generation of the noncytolytic cells may account for the differing results of earlier studies. We conclude that IL-4 promotes the development of a noncytolytic CD8low T cell phenotype that might be important in tumor- or pathogen-induced immune deviation.

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Dining in: intracellular bacterial pathogen interplay with autophagy

Winchell

Steele

Kawula

et al. 2016

Current Opinion in Microbiology

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Intracellular bacterial pathogens have evolved many ways to manipulate host cells for successful infection. Many of these pathogens use specialized secretion systems to inject bacterial proteins into the host cytosol that manipulate cellular processes to favor infection. Autophagy is a eukaryotic cellular remodeling process with a critical role in many diseases, including bacterial clearance. A growing field of research highlights mechanisms used by intracellular bacteria to manipulate autophagy as a pro-survival strategy. This review focuses on a select group of bacterial pathogens with diverse intracellular lifestyles that exploit autophagy-derived nutrients and membrane for survival. This group of pathogens uses secretion systems and specific effectors to subvert distinct components of autophagy. By understanding how intracellular pathogens manipulate autophagy, we gain insight not only into bacterial pathogenesis but also host cell signaling and autophagolysosome maturation.

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TAM receptors are dispensable in the phagocytosis and killing of bacteria

Williams

Craven

Earp

et al. 2009

Cellular Immunology

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Many receptors that are employed for the engulfment of apoptotic cells are also used for the recognition and phagocytosis of bacteria. Tyro3, Axl, and Mertk (TAM) are important in the phagocytosis of apoptotic cells by macrophages. Animals lacking these receptors are hypersensitive to bacterial products. In this report, we examine whether the TAM receptors are involved in the phagocytosis of bacteria. We found that macrophages lacking Mertk, Axl, Tyro3 or all three receptors were equally efficient in the phagocytosis of Gram-negative E. coli. Similarly, the phagocytosis of E. coli and Gram-positive S. aureus bioparticles by macrophages lacking TAM receptors was equal to wild-type. In addition, we found that Mertk did not play a role in killing of extracellular E. coli or the replication status of intracellular F. tularensis. Thus, while TAM receptors may regulate signal transduction to bacterial components, they are not essential for the phagocytosis and killing of bacteria.

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Bacterial Synchronized Transfer Assays in Bone Marrow Derived Macrophages

2019

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Merocytophagy ("mero", Greek for partial; "cytophagy" for cell eating) is a process by which cells acquire microbes and cytosolic material through phagocytosis of a small portion of neighboring cells upon cell-cell contact. Cell-cell contact dependent transfer events can be assessed through coincubation of differently labeled cells. With these assays, it is difficult to analyze the recipient cells by microscopy or bacterial burden within only recipient cells. Therefore, we established a synchronized transfer assay that allows for recipient cells to be isolated from donor cells following transfer events at a high purity. Here, we present this assay in context of bacterial infections and cytosolic cellular staining. With this protocol, mechanisms of cell-cell contact dependent transfer events and the events following merocytophagy can easily be investigated.

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The H8 antigen of pathogenic Neisseriae

Woods

Aho

Barritt

et al. 1987

Antonie van Leeuwenhoek

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We cloned and sequenced the H8 gene from N. meningitidis FAM18. The predicted amino acid sequence included a consensus lipoprotein signal sequence processing site, consistent with lipid modification that could account for the unusual electrophoretic and solubilization properties of H8. The amino acid sequence was rich in alanine and proline, especially in an imperfectly periodic region near the amino terminus, which encompassed the epitope recognized by available monoclonal antibodies. In a panel of neisserial strains, the presence of DNA homologous to the H8 gene correlated with the expression of an H8 protein. We cloned a gene from N. meningitidis JB515 that was distinct from the H8 gene but encoded a protein also recognized by an anti-H8 monoclonal antibody. Mice were not protected from meningococcemia by passive immunization with such an antibody.

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Tom Kawula

A Clonal Culture System Demonstrates That IL-4 Induces a Subpopulation of Noncytolytic T Cells with Low CD8, Perforin, and Granzyme Expression

Dining in: intracellular bacterial pathogen interplay with autophagy

TAM receptors are dispensable in the phagocytosis and killing of bacteria

Bacterial Synchronized Transfer Assays in Bone Marrow Derived Macrophages

The H8 antigen of pathogenic Neisseriae

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