Peptide Requirement for CTL Activation Reflects the Sensitivity to CD3 Engagement: Correlation with CD8αβ Versus CD8αα Expression

Cawthon, Andrew G.; Lu, Haiping; Alexander-Miller, Martha A.

doi:10.4049/jimmunol.167.5.2577

Cited by 88 publications

(121 citation statements)

References 35 publications

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“…Antigen dose has been established as a potent signal that can drive alteration in avidity (3,16,18,36,37). Thus encounter with APC bearing high pMHC in vivo is one potential trigger for reduced avidity.…”

Section: Discussionmentioning

confidence: 99%

“…Previous studies from our laboratory have established the ability of individual cells to modulate avidity during the initial encounters with antigen (36). Here we tested the hypothesis that these early effectors could give rise to low avidity cells following stimulation with APC bearing high levels of pMHC, a well-established approach for generating low avidity cells in vitro (16)(17)(18)(36)(37)(38). MLN cells were isolated from memory mice on d1 post-secondary infection with PIV5 and CD25 + CD8 + cells sorted.…”

Section: High Avidity Cells Present At Early Times Can Give Rise To Lmentioning

confidence: 99%

“…At the individual cell level, several factors have been implicated in influencing functional avidity, including TCR affinity and the absolute level or isoform of CD8 expressed (16,18,61). The contribution of TCR affinity to functional avidity has been studied largely through utilization of tetramer dissociation assays as a correlate of TCR affinity (13,61).…”

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confidence: 99%

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In vivoModulation of Avidity in Highly Sensitive CD8⁺Effector T Cells Following Viral Infection

et al. 2013

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Numerous studies have demonstrated a critical role for T cell avidity in predicting in vivo efficacy. Even though the measurement of avidity is now a routine assessment for the analysis of effector and memory T cell populations, our understanding of how this property is controlled in vivo at both the population and individual cell levels is limited. Our previous studies have identified high avidity as a property of the initial effector population generated in mice following respiratory virus infection. As the response progresses, lower avidity cells appear in the effector pool. The studies described here investigate the mechanistic basis of this in vivo regulation of avidity. We present data supporting in vivo avidity modulation within the early high avidity responders that results in a population of lower avidity effector cells. Changes in avidity were correlated with decreased lck expression and increased sensitivity to lck inhibitors in effector cells present at late versus early times postinfection. The possibility of tuning within select individual effectors is a previously unappreciated mechanism for the control of avidity in vivo.

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Section: Discussionmentioning

confidence: 99%

Section: High Avidity Cells Present At Early Times Can Give Rise To Lmentioning

confidence: 99%

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In vivoModulation of Avidity in Highly Sensitive CD8⁺Effector T Cells Following Viral Infection

et al. 2013

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“…Superior T cell avidity may be explained by various mechanisms, including increased levels of TCR [24], an increased CD8b/CD8a ratio [25,26], increased levels of accessory molecules on the cell surface [27,28], more efficient localization of signaling and accessory molecules to lipid rafts [25,29], and increased levels and/or localization of the Src tyrosine kinase, Lck, one of the first signal transduction molecules activated following TCR ligation [8]. TCRb expression levels were found to be similar on D b NP 366 -and D b PA 224 -specific cells (Fig.…”

Section: Avidity Differences Are Not Due To Differential Expression/lmentioning

confidence: 99%

A correlation between function and selected measures of T cell avidity in influenza virus‐specific CD8⁺ T cell responses

2006

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Activation of mature CD8 + T cells requires recognition, via the T cell receptor (TCR), of peptide + MHC (pMHC) complexes with an avidity that exceeds a designated threshold. Multiple indicators of T cell avidity have been described that provide unique information on the characteristics of T cell interactions. However, these indicators are routinely used in isolation, and, consequently, little is known about correlations between these measures or which measure, if any, correlates with the quality of the T cell response. Following influenza virus infection of C57BL/6J mice, we analyzed the relative avidities of five epitope-specific CD8 + T cell populations using five different measures. We demonstrated that the quality of CD8 + T cell responses, in terms of cytokine profiles, correlates with TCR dissociation rate and CD8 dependence, but not with the sensitivity to tetramer binding or peptide stimulation. Thus, we propose that, despite significant differences in TCR dissociation rate, the stimulation threshold of influenza-specific CD8 + T cell populations may be equivalent due to compensatory mechanisms largely provided by the CD8 coreceptor. Furthermore, this study shows that different indicators of avidity do not necessarily provide similar information and should be used in combination to obtain an overall picture of the characteristics of TCR binding.Supporting information for this article is available at http://www.wiley-vch.de/contents/jc_2040/2006/36390_s.pdf IntroductionThe fate of a T cell depends heavily on the avidity of the TCR:peptide + MHC (pMHC) interaction (reviewed in [1,2]). The collective avidity, or total strength, of the T cell-APC interaction is determined both by the affinity of a single TCR for its pMHC complex and by the number of TCR-pMHC interactions and the contribution of accessory molecules, such as CD4 or CD8, which can also bind MHC molecules upon TCR engagement [3]. In the thymus, immature T cells die if they do not recognize self pMHC molecules with minimal avidity. Conversely, recognition of pMHC exceeding an upper limit of avidity results in negative selection during T cell development. For mature peripheral T cells, upper and lower avidity limits also exist; below a critical threshold T cells do not receive sufficient signal for activation, while studies have shown that too high an avidity also impairs T cell activation, presumably by reducing the ability of the TCR to dissociate from the pMHC complex, thereby impeding serial TCR engagement [4]. Between the upper and lower avidity thresholds, TCR engagement can result in the functional activation of T cells.The term "avidity" is broadly used to describe various distinct features of T cell-APC interactions, including dependence on coreceptors for stimulation, TCR dissociation rate, and thresholds of T cell binding and/or activation. Thus, while correlations have been made between increased T cell "avidity" and functional responsiveness of T cells [5][6][7][8], the definition of avidity is arbitrary and usually based on the meas...

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“…Several factors have however been implicated in the regulation of functional avidity, e.g. the cytokines IL-12 and IL-15 [10,11], CD8ab expression [7,12], TCR affinity, the level of costimulatory molecules expressed by APC [10,13] and the maturation state of DC. The challenge is therefore to find a vaccine approach that mimics these conditions.…”

Section: Introductionmentioning

confidence: 99%

DNA vaccination with T‐cell epitopes encoded within Ab molecules induces high‐avidity anti‐tumor CD8⁺ T cells

et al. 2010

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Stimulation of high-avidity CTL responses is essential for effective anti-tumor and antiviral vaccines. In this study we have demonstrated that a DNA vaccine incorporating CTL epitopes within an Ab molecule results in high-avidity T-cell responses to both foreign and self epitopes. The avidity and frequency was superior to peptide, peptide-pulsed DC vaccines or a DNA vaccine incorporating the epitope within the native Ag. The DNA Ab vaccine was superior to an identical protein vaccine that can only cross-present, indicating a role for direct presentation by the DNA vaccine. However, the avidity of CTL responses was significantly reduced in Fc receptor c knockout mice or if the Fc region was removed suggesting that cross presentation of Ag via Fc receptor was also important in the induction of high-avidity CTL. These results suggest that generation of high-avidity CTL responses by the DNA vaccine is related to its ability to both directly present and crosspresent the epitope. High-avidity responses were capable of efficient anti-tumor activity in vitro and in vivo. This study demonstrates a vaccine strategy to generate high-avidity CTL responses that can be used in anti-tumor and anti-viral vaccine settings.

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Peptide Requirement for CTL Activation Reflects the Sensitivity to CD3 Engagement: Correlation with CD8αβ Versus CD8αα Expression

Cited by 88 publications

References 35 publications

In vivoModulation of Avidity in Highly Sensitive CD8⁺Effector T Cells Following Viral Infection

In vivoModulation of Avidity in Highly Sensitive CD8⁺Effector T Cells Following Viral Infection

A correlation between function and selected measures of T cell avidity in influenza virus‐specific CD8⁺ T cell responses

DNA vaccination with T‐cell epitopes encoded within Ab molecules induces high‐avidity anti‐tumor CD8⁺ T cells

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Peptide Requirement for CTL Activation Reflects the Sensitivity to CD3 Engagement: Correlation with CD8αβ Versus CD8αα Expression

Cited by 88 publications

References 35 publications

In vivoModulation of Avidity in Highly Sensitive CD8+Effector T Cells Following Viral Infection

In vivoModulation of Avidity in Highly Sensitive CD8+Effector T Cells Following Viral Infection

A correlation between function and selected measures of T cell avidity in influenza virus‐specific CD8+ T cell responses

DNA vaccination with T‐cell epitopes encoded within Ab molecules induces high‐avidity anti‐tumor CD8+ T cells

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In vivoModulation of Avidity in Highly Sensitive CD8⁺Effector T Cells Following Viral Infection

In vivoModulation of Avidity in Highly Sensitive CD8⁺Effector T Cells Following Viral Infection

A correlation between function and selected measures of T cell avidity in influenza virus‐specific CD8⁺ T cell responses

DNA vaccination with T‐cell epitopes encoded within Ab molecules induces high‐avidity anti‐tumor CD8⁺ T cells