Zhengguo Xiao scite author profile

Stimulation of naïve CD8+ T cells with antigen and costimulation results in proliferation and weak clonal expansion, but the cells fail to develop effector functions and are tolerant long term. Initiation of the program leading to the strong expansion and development of effector functions and memory requires a third signal that can be provided by interleukin-12 (IL-12) or interferon-alpha (IFN-alpha). CD4+ T cells condition dendritic cells (DCs) to effectively present antigen to CD8+ T cells, and this conditioning involves, at least in part, CD40-dependent upregulation of the production of these signal 3 cytokines by the DCs. Upon being fully activated, the cytotoxic T lymphocytes develop activation-induced non-responsiveness (AINR), a form of split anergy characterized by an inability to produce IL-2 to support continued expansion. If antigen remains present, IL-2 provided by CD4+ T cells can reverse AINR to allow further expansion of the effector population and conversion to responsive memory cells following antigen clearance. If IL-2 or potentially other proliferative signals are not available, persistent antigen holds cells in the AINR state and prevents the development of a responsive memory population. Thus, in addition to antigen and costimulation, CD8+ T cells require cytokine signals at distinct stages of the response to be programmed for optimal generation of effector and memory populations.

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Programming for CD8 T Cell Memory Development Requires IL-12 or Type I IFN

Xiao

Casey

Jameson³

et al. 2009

191

277

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Inflammation can have both positive and negative effects on development of CD8 T cell memory, but the relative contributions and cellular targets of the cytokines involved are unclear. Using CD8 T cells lacking receptors for IL-12, type I IFN, or both, we show that these cytokines act directly on CD8 T cells to support memory formation in response to vaccinia virus and Listeria monocytogenes infections. Development of memory to vaccinia is supported predominantly by IL-12, whereas both IL-12 and type I IFN contribute to memory formation in response to Listeria. In contrast to memory formation, the inability to respond to IL-12 or type I IFN had a relatively small impact on the level of primary expansion, with at most a 3-fold reduction in the case of responses to Listeria. We further show that programming for memory development by IL-12 is complete within 3 days of the initial naive CD8 T cell response to Ag. This programming does not result in formation of a population that expresses killer cell lectin-like receptor G1, and the majority of the resulting memory cells have a CD62Lhigh phenotype characteristic of central memory cells. Consistent with this, the cells undergo strong expansion upon rechallenge and provide protective immunity. These data demonstrate that IL-12 and type I IFN play an essential early role in determining whether Ag encounter by naive CD8 T cells results in formation of a protective memory population.

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Immunological Responses of Swine to Porcine Reproductive and Respiratory Syndrome Virus Infection

2002

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The immunology of porcine reproductive and respiratory syndrome virus (PRRS) begins with an initial encounter of PRRSV with the pig. Regardless of the route of entry of PRRSV--via inhalation, intramuscular vaccination, insemination, or other routes--productive infection occurs predominately in alveolar macrophages of the lung. Thus, innate responses of the lung and the alveolar macrophage comprise the initial defense against PRRSV. The virus appears not to elicit innate interferon and cytokine responses characteristic of other strongly immunogenic viral pathogens, and its effects are consistent with induction of a weak adaptive immune response. Humoral and cell-mediated immunity is induced in due course, and results in clearance of virus from the circulation but not from lymphoid tissues, where the infection becomes persistent. Subsequent reexposure to PRRSV elicits an anamnestic response that is partially to completely protective. Within this unconventional picture of anti-PRRSV immunity lie a variety of unresolved issues, including the nature of protective immunity within individual pigs and among pigs in commercial populations, the efficacy of protective immunity against genetically different PRRSV isolates, the effects of developmental age, sex, genetics, and other host factors on the immune response to PRRSV, and the possible suppression of host immunity to other pathogens.

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The Level of Virus-Specific T-Cell and Macrophage Recruitment in Porcine Reproductive and Respiratory Syndrome Virus Infection in Pigs Is Independent of Virus Load

Xiao¹,

Batista

Dee

et al. 2004

J Virol

162

126

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Porcine reproductive and respiratory syndrome virus (PRRSV) is the most important infectious disease agent of pigs worldwide, causing reproductive failure in pregnant sows and respiratory problems in nursing and growing pigs. PRRSV infection is characterized by a prolonged viremia of 30 or more days and an extended persistent infection of lymphoid tissues. To better understand the immunological basis for prolonged acute and persistent PRRSV infection, we have examined the cell-mediated immune (CMI) response throughout the course of infection and compared the results to the local distribution and abundance of PRRSV in infected tissues. PRRSV-specific T cells, enumerated by gamma interferon enzyme-linked immunospot assay, did not appear until 2 weeks after PRRSV inoculation, and their abundance exhibited substantial variation over time and among animals. In all cases the T-cell response was transient. High levels of viral RNA were present in lymphoid tissues of all animals in the acute phase of infection. Viral loads were decreased 1,000-fold or more in persistent infections, with the primary sites of persistence being tonsil, sternal lymph node, and inguinal lymph node. The abundance of virus-specific T cells in either acutely or persistently infected animals was highly variable and showed no correlation to the level of virus in lymphoid tissues. No significant difference in antigen-specific T-cell abundance was observed in secondary lymphoid tissues in either acute or persistent infection except for tonsil, in which the number of responding cells was extremely low. CD4؉ -and CD8 ؉ -T-cell frequencies did not change after PRRSV infection, though a decrease in ␥␦ T cells was observed. Macrophages, the permissive cell type for PRRSV, were present in various levels in all tissue preparations and were not in proportion to local virus load. These findings indicate that a weak CMI response contributes to prolonged PRRSV infection and suggests that PRRSV suppresses T-cell recognition of infected macrophages. Thus, the slow but eventual resolution of PRRSV infection may be dependent on limiting permissive macrophages and on innate immune factors.

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Detuning CD8 T cells: down-regulation of CD8 expression, tetramer binding, and response during CTL activation

2007

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CD8 is critical for T cell recognition of peptide/class I major histocompatability complex ligands, yet is down-regulated during activation of CD8 T cells. We report that loss of CD8 expression early during in vivo responses to vaccinia virus or Listeria monocytogenes (LM) correlates with decreased T cell staining with specific class I/peptide tetramers and reduced CD8 T cell sensitivity for antigen. Loss of CD8 cell surface expression occurs despite sustained mRNA expression, and CD8 levels return to normal levels during differentiation of memory cells, indicating a transient effect. We determined that during response to LM, CD8 down-regulation is regulated by T cell reactivity to type I interferon (IFN-I) because CD8 loss was averted on IFN-I receptor–deficient T cells. IFN-I alone was not sufficient to drive CD8 down-regulation, however, as antigen was also required for CD8 loss. These results suggest that CD8 effector T cell differentiation involves a transient down-regulation of antigen sensitivity (CTL “detuning”), via reduced CD8 expression, a feature that may focus the effector response on target cells expressing high levels of antigen (e.g., infected cells), while limiting collateral damage to bystander cells.

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Zhengguo Xiao

Signals required for programming effector and memory development by CD8⁺ T cells

Programming for CD8 T Cell Memory Development Requires IL-12 or Type I IFN

Immunological Responses of Swine to Porcine Reproductive and Respiratory Syndrome Virus Infection

The Level of Virus-Specific T-Cell and Macrophage Recruitment in Porcine Reproductive and Respiratory Syndrome Virus Infection in Pigs Is Independent of Virus Load

Detuning CD8 T cells: down-regulation of CD8 expression, tetramer binding, and response during CTL activation

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Zhengguo Xiao

Signals required for programming effector and memory development by CD8+ T cells

Programming for CD8 T Cell Memory Development Requires IL-12 or Type I IFN

Immunological Responses of Swine to Porcine Reproductive and Respiratory Syndrome Virus Infection

The Level of Virus-Specific T-Cell and Macrophage Recruitment in Porcine Reproductive and Respiratory Syndrome Virus Infection in Pigs Is Independent of Virus Load

Detuning CD8 T cells: down-regulation of CD8 expression, tetramer binding, and response during CTL activation

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Signals required for programming effector and memory development by CD8⁺ T cells