Darrell O'Quinn scite author profile

A new lineage of effector CD4+ T cells characterized by production of interleukin (IL)-17, the T-helper-17 (T(H)17) lineage, was recently described based on developmental and functional features distinct from those of classical T(H)1 and T(H)2 lineages. Like T(H)1 and T(H)2, T(H)17 cells almost certainly evolved to provide adaptive immunity tailored to specific classes of pathogens, such as extracellular bacteria. Aberrant T(H)17 responses have been implicated in a growing list of autoimmune disorders. T(H)17 development has been linked to IL-23, an IL-12 cytokine family member that shares with IL-12 a common subunit, IL-12p40 (ref. 8). The IL-23 and IL-12 receptors also share a subunit, IL-12Rbeta1, that pairs with unique, inducible components, IL-23R and IL-12Rbeta2, to confer receptor responsiveness. Here we identify transforming growth factor-beta (TGF-beta) as a cytokine critical for commitment to T(H)17 development. TGF-beta acts to upregulate IL-23R expression, thereby conferring responsiveness to IL-23. Although dispensable for the development of IL-17-producing T cells in vitro and in vivo, IL-23 is required for host protection against a bacterial pathogen, Citrobacter rodentium. The action of TGF-beta on naive T cells is antagonized by interferon-gamma and IL-4, thus providing a mechanism for divergence of the T(H)1, T(H)2 and T(H)17 lineages.

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Th22 Cells Are an Important Source of IL-22 for Host Protection against Enteropathogenic Bacteria

Basu

et al. 2012

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SUMMARY Interleukin-22 (IL-22) is central to host protection against bacterial infections at barrier sites. Both innate lymphoid cells (ILCs) and T cells produce IL-22. However, the specific contributions of CD4+ T cells and their developmental origins are unclear. We found that the enteric pathogen Citrobacter rodentium induced sequential waves of IL-22 producing ILCs and CD4+ T cells that were each critical to host defense during a primary infection. Whereas IL-22 production by ILCs was strictly IL-23–dependent, development of IL-22 producing CD4+ T cells occurred via an IL-6–dependent mechanism that was augmented by, but not dependent on, IL-23, and was dependent on both transcription factors T-bet and AhR. Transfer of CD4+ T cells differentiated with IL-6 in the absence of TGF-β (“Th22” cells) conferred protection of infected IL-22-deficient mice whereas transferred Th17 cells did not. These findings establish Th22 cells as an important component of mucosal anti-microbial host defense.

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Noninvasive Bioluminescence Imaging in Small Animals

Zinn¹,

Chaudhuri²,

Szafran³

et al. 2008

ILAR Journal

131

106

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There has been a rapid growth of bioluminescence imaging applications in small animal models in recent years, propelled by the availability of instruments, analysis software, reagents, and creative approaches to apply the technology in molecular imaging. Advantages include the sensitivity of the technique as well as its efficiency, relatively low cost, and versatility. Bioluminescence imaging is accomplished by sensitive detection of light emitted following chemical reaction of the luciferase enzyme with its substrate. Most imaging systems provide 2-dimensional (2D) information in rodents, showing the locations and intensity of light emitted from the animal in pseudo-color scaling. A 3-dimensional (3D) capability for bioluminescence imaging is now available, but is more expensive and less efficient; other disadvantages include the requirement for genetically encoded luciferase, the injection of the substrate to enable light emission, and the dependence of light signal on tissue depth. All of these problems make it unlikely that the method will be extended to human studies. However, in small animal models, bioluminescence imaging is now routinely applied to serially detect the location and burden of xenografted tumors, or identify and measure the number of immune or stem cells after an adoptive transfer. Bioluminescence imaging also makes it possible to track the relative amounts and locations of bacteria, viruses, and other pathogens over time. Specialized applications of bioluminescence also follow tissue-specific luciferase expression in transgenic mice, and monitor biological processes such as signaling or protein interactions in real time. In summary, bioluminescence imaging has become an important component of biomedical research that will continue in the future.

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Chapter 5 Emergence of the Th17 Pathway and Its Role in Host Defense

O'Quinn

Palmer

Lee³

et al. 2008

111

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Experimental evidence of pathogenic role of IgG autoantibodies in IgA nephropathy

Moldoveanu

Suzuki

Reily

et al. 2021

Journal of Autoimmunity

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Darrell O'Quinn

Transforming growth factor-β induces development of the TH17 lineage

Th22 Cells Are an Important Source of IL-22 for Host Protection against Enteropathogenic Bacteria

Noninvasive Bioluminescence Imaging in Small Animals

Chapter 5 Emergence of the Th17 Pathway and Its Role in Host Defense

Experimental evidence of pathogenic role of IgG autoantibodies in IgA nephropathy

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