Francis Alonzo scite author profile

T-helper-17 (Th17) cells have critical roles in mucosal defense and in autoimmune disease pathogenesis 1-3. They are most abundant in the small intestine lamina propria (SILP), where their presence requires colonization of mice with microbiota 4-7. Segmented Filamentous Bacteria (SFB) are sufficient to induce Th17 cells and to promote Th17-dependent autoimmune disease in animal models 8-14. However, the specificity of Th17 cells, the mechanism of their induction by distinct bacteria, and the means by which they foster tissue-specific inflammation remain unknown. Here we show that the T cell receptor (TCR) repertoire of intestinal Th17 cells in SFB-colonized mice has minimal overlap with that of other intestinal CD4+ T cells and that most Th17 cells, but not other T cells, recognize antigens encoded by SFB. T cells with antigen receptors specific for SFB-encoded peptides differentiated into RORγt-expressing Th17 cells, even if SFB-colonized mice also harbored a strong Th1 cell inducer, Listeria monocytogenes, in their intestine. The match of T cell effector function with antigen specificity is thus determined by the type of bacteria that produce the antigen. These findings have significant implications for understanding how commensal microbiota contribute to organ-specific autoimmunity and for developing novel mucosal vaccines.

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CCR5 is a receptor for Staphylococcus aureus leukotoxin ED

Alonzo

Kozhaya

Rawlings

et al. 2012

Nature

263

300

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Pore-forming toxins are critical virulence factors for many bacterial pathogens and are central to Staphylococcus aureus-mediated killing of host cells. S. aureus encodes pore-forming bi-component leukotoxins that are toxic toward neutrophils, but also specifically target other immune cells. Despite decades since the first description of Staphylococcal leukocidal activity, the host factors responsible for the selectivity of leukotoxins toward different immune cells remain unknown. Here we identified the HIV co-receptor, CCR5, as a cellular determinant required for cytotoxic targeting of subsets of myeloid cells and T lymphocytes by the S. aureus leukotoxin ED (LukED). We further demonstrate that LukED-dependent cell killing is blocked by CCR5 receptor antagonists, including the HIV drug maraviroc. Remarkably, CCR5-deficient mice are largely resistant to lethal S. aureus infection, highlighting the importance of CCR5 targeting in S. aureus pathogenesis. Thus, depletion of CCR5+ leukocytes by LukED suggests a novel S. aureus immune evasion mechanism that can be therapeutically targeted.

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The Bicomponent Pore-Forming Leucocidins of Staphylococcus aureus

Alonzo

Torres

2014

Microbiol Mol Biol Rev

239

290

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SUMMARY The ability to produce water-soluble proteins with the capacity to oligomerize and form pores within cellular lipid bilayers is a trait conserved among nearly all forms of life, including humans, single-celled eukaryotes, and numerous bacterial species. In bacteria, some of the most notable pore-forming molecules are protein toxins that interact with mammalian cell membranes to promote lysis, deliver effectors, and modulate cellular homeostasis. Of the bacterial species capable of producing pore-forming toxic molecules, the Gram-positive pathogen Staphylococcus aureus is one of the most notorious. S. aureus can produce seven different pore-forming protein toxins, all of which are believed to play a unique role in promoting the ability of the organism to cause disease in humans and other mammals. The most diverse of these pore-forming toxins, in terms of both functional activity and global representation within S. aureus clinical isolates, are the bicomponent leucocidins. From the first description of their activity on host immune cells over 100 years ago to the detailed investigations of their biochemical function today, the leucocidins remain at the forefront of S. aureus pathogenesis research initiatives. Study of their mode of action is of immediate interest in the realm of therapeutic agent design as well as for studies of bacterial pathogenesis. This review provides an updated perspective on our understanding of the S. aureus leucocidins and their function, specificity, and potential as therapeutic targets.

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Staphylococcus aureusLukAB cytotoxin kills human neutrophils by targeting the CD11b subunit of the integrin Mac-1

DuMont

Yoong

Day

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

193

279

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Staphylococcus aureus causes diseases ranging from superficial wound infections to more invasive manifestations like osteomyelitis and endocarditis. The evasion of host phagocytes recruited to the site of infection is essential to the success of S. aureus as a pathogen. A single S. aureus strain can produce up to five different bicomponent pore-forming leukotoxins that lyse immune cells by forming pores in the cellular plasma membrane. Although these leukotoxins have been considered redundant due to their cytotoxic activity toward human neutrophils, each toxin displays varied species and celltype specificities. This suggests that cellular factors may influence which cells each toxin targets. Here we describe the identification of CD11b, the α subunit of the αM/β2 integrin (CD11b/CD18), macrophage-1 antigen, or complement receptor 3, as a cellular receptor for leukocidin A/B (LukAB), an important toxin that contributes to S. aureus killing of human neutrophils. We demonstrate that CD11b renders human neutrophils susceptible to LukAB-mediated killing by purified LukAB as well as during S. aureus infection ex vivo. LukAB directly interacts with human CD11b by binding to the I domain, a property that determines the species specificity exhibited by this toxin. Identification of a LukAB cellular target has broad implications for the use of animal models to study the role of LukAB in S. aureus pathogenesis, explains the toxin's tropism toward human neutrophils and other phagocytes, and provides a cellular therapeutic target to block the effect of LukAB toward human neutrophils.toxin receptor | pore-forming cytotoxin

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γδ T Cells Exhibit Multifunctional and Protective Memory in Intestinal Tissues

et al. 2013

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Summary The study of T cell memory and the target of vaccine design has focused on memory subsumed by T cells bearing the αβ T cell receptor. Alternatively, γδ T cells are thought to provide rapid immunity particularly at mucosal borders. Here we have shown that a distinct subset of mucosal γδ T cells mounts an immune response to oral Listeria monocytogenes (Lm) infection leading to the development of multifunctional memory T cells in the murine intestinal mucosa that is capable of simultaneously producing interferon-γ and interleukin-17A. Challenge infection with oral Lm, but not oral Salmonella or intravenous Lm, induced rapid expansion of memory γδ T cells suggesting contextual specificity to the priming pathogen. Importantly, memory γδ T cells were able to provide enhanced protection against infection. These findings illustrate a previously unrecognized role for γδ T cells with hallmarks of adaptive immunity in the intestinal mucosa.

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Francis Alonzo

Focused specificity of intestinal TH17 cells towards commensal bacterial antigens

CCR5 is a receptor for Staphylococcus aureus leukotoxin ED

The Bicomponent Pore-Forming Leucocidins of Staphylococcus aureus

Staphylococcus aureusLukAB cytotoxin kills human neutrophils by targeting the CD11b subunit of the integrin Mac-1

γδ T Cells Exhibit Multifunctional and Protective Memory in Intestinal Tissues

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