Robert Maile

Naive CD8+ T Cells Do Not Require Costimulation for Proliferation and Differentiation into Cytotoxic Effector Cells

Most current models of T cell activation postulate a requirement for two distinct signals. One signal is delivered through the TCR by engagement with peptide/MHC complexes, and the second is delivered by interaction between costimulatory molecules such as CD28 and its ligands CD80 and CD86. Soluble peptide/MHC tetramers provide an opportunity to test whether naive CD8+ T cells can be activated via the signal generated through the TCR-αβ in the absence of any potential costimulatory molecules. Using T cells from two different TCR transgenic mice in vitro, we find that TCR engagement by peptide/MHC tetramers is sufficient for the activation of naive CD8+ T cells. Furthermore, these T cells proliferate, produce cytokines, and differentiate into cytolytic effectors. Under the conditions where anti-CD28 is able to enhance proliferation of normal B6 CD4+, CD8+, and TCR transgenic CD8+ T cells with anti-CD3, we see no effect of anti-CD28 on proliferation induced by tetramers. The results of this experiment argue that given a strong signal delivered through the TCR by an authentic ligand, no costimulation is required.

Functional Modularity of the Arginine Catabolic Mobile Element Contributes to the Success of USA300 Methicillin-Resistant Staphylococcus aureus

The USA300 community-associated methicillin-resistant Staphylococcus aureus (CA-MRSA) lineage causes the majority of skin and soft tissue infections (SSTIs) and is highly associated with the carriage of the arginine catabolic mobile element (ACME). However, the contribution of ACME to USA300s success in SSTIs is not completely understood. We show that the constitutive ACME-encoded arginine-deiminase system (Arc) allows USA300 to thrive in acidic environments that mimic human skin. Consequently, the ACME-Arc system drives excessive production of host polyamines, compounds uniquely toxic to S. aureus. To mitigate this, ACME also encodes SpeG, a polyamine-resistance enzyme that is essential for combating excess host polyamines in a murine SSTI model. Inhibiting host polyamine production not only restored ΔspeG persistence within infected wounds but also severely altered the host healing process, implying that polyamines play an integral role in coordinating the wound-healing response. Together, these data underscore the functional modularity of ACME and its contribution to the success of USA300 CA-MRSA.

CD8+ T Cell Activation Is Governed by TCR-Peptide/MHC Affinity, Not Dissociation Rate

Binding of peptide/MHC (pMHC) complexes by TCR initiates T cell activation. Despite long interest, the exact relationship between the biochemistry of TCR/pMHC interaction (particularly TCR affinity or ligand off-rate) and T cell responses remains unresolved, because the number of complexes examined in each independent system has been too small to draw a definitive conclusion. To test the current models of T cell activation, we have analyzed the interactions between the mouse P14 TCR and a set of altered peptides based on the lymphocytic choriomeningitis virus epitope gp33–41 sequence bound to mouse class I MHC Db. pMHC binding, TCR-binding characteristics, CD8+ T cell cytotoxicity, and IFN-γ production were measured for the peptides. We found affinity correlated well with both cytotoxicity and IFN-γ production. In contrast, no correlation was observed between any kinetic parameter of TCR-pMHC interaction and cytotoxicity or IFN-γ production. This study strongly argues for an affinity threshold model of T cell activation.

Interplay between TCR affinity and necessity of coreceptor ligation: high-affinity peptide-MHC/TCR interaction overcomes lack of CD8 engagement.

CD8 engagement is believed to be a critical event in the activation of naive T cells. In this communication, we address the effects of peptide-MHC (pMHC)/TCR affinity on the necessity of CD8 engagement in T cell activation of primary naive cells. Using two peptides with different measured avidities for the same pMHC-TCR complex, we compared biochemical affinity of pMHC/TCR and the cell surface binding avidity of pMHC/TCR with and without CD8 engagement. We compared early signaling events and later functional activity of naive T cells in the same manner. Although early signaling events are altered, we find that high-affinity pMHC/TCR interactions can overcome the need for CD8 engagement for proliferation and CTL function. An integrated signal over time allows T cell activation with a high-affinity ligand in the absence of CD8 engagement.

Peripheral “CD8 Tuning” Dynamically Modulates the Size and Responsiveness of an Antigen-Specific T Cell Pool In Vivo

In this study, we suggest that CD8 levels on T cells are not static, but can change and, as a result, modulate CD8+ T cell responses. We describe three models of CD8 modulation using novel weak-agonist (K1A) and super-agonist (C2A) altered peptide ligands of the HY smcy peptide. First, we used peripheral nonresponsive CD8low T cells produced after peripheral HY-Db MHC class I tetramer stimulation of female HY TCR transgenic and wild-type mice. Second, we used genetically lowered CD8int T cells from heterozygote CD8+/0 mice. Finally, we used pre-existing nonresponsive CD8low T cells from male HY TCR transgenic mice. In CD8low and CD8high mice, presence of a lower level of CD8 greatly decreased the avidity of the peptide-MHC for HY TCR as reflected by avidity (KD) and dissociation constant (T1/2) measurements. All three models demonstrated that lowering CD8 levels resulted in the requirement for a higher avidity peptide-MHC interaction with the TCR to respond equivalently to unmanipulated CD8high T cells of the same specificity. Additionally, direct injections of wild-type HY-Db and C2A-Db tetramers into female HY TCR or female B6 mice induced a high frequency of peripheral nonresponsive CD8low T cells, yet C2A-Db was superior in inducing a primed CD8+CD44+ memory population. The ability to dynamically modulate the size and responsiveness of an Ag-specific T cell pool by “CD8 tuning” of the T cell during the early phases of an immune response has important implications for the balance of responsiveness, memory, and tolerance.

Antigen-Specific Modulation of an Immune Response by In Vivo Administration of Soluble MHC Class I Tetramers

Soluble MHC/peptide tetramers that can directly bind the TCR allow the direct visualization and quantitation of Ag-specific T cells in vitro and in vivo. We used HY-Db tetramers to assess the numbers of HY-reactive CD8+ T cells in HYTCR-transgenic mice and in naive, wild-type C57BL/6 (B6) mice. As expected, tetramer staining showed the majority of T cells were male-specific CD8+ T cells in female HY-TCR mice. Staining of B6 mice showed a small population of male-specific CD8+ T cells in female mice. The effect of administration of soluble MHC class I tetramers on CD8+ T cell activation in vivo was unknown. Injection of HY-Db tetramer in vivo effectively primed female mice for a more rapid proliferative response to both HY peptide and male splenocytes. Furthermore, wild-type B6 female mice injected with a single dose of HY-Db tetramer rejected B6 male skin grafts more rapidly than female littermates treated with irrelevant tetramer. In contrast, multiple doses of HY-Db tetramer did not further decrease graft survival. Rather, female B6 mice injected with multiple doses of HY-Db tetramer rejected male skin grafts more slowly than mice primed with a single injection of tetramer or irradiated male spleen cells, suggesting clonal exhaustion or anergy. Our data highlight the ability of soluble MHC tetramers to identify scarce alloreactive T cell populations and the use of such tetramers to directly modulate an Ag-specific T cell response in vivo.

Low-avidity CD8lo T cells induced by incomplete antigen stimulation in vivo regulate naive higher avidity CD8hi T cell responses to the same antigen

We have previously reported that multiple injections of soluble MHC class I tetramers assembled with wild‐type HY peptide induces unresponsiveness to male skin grafts in naive female C57BL/6 (B6) mice. Induction of unresponsiveness is dependent on a population of unresponsive allospecific CD8lo T cells. Reduced expression of CD8 acts to limit a T cell response to HY peptide by limiting the avidity window of effective signal transduction. We and others have demonstrated that CD8lo T cells are an alternative stable phenotype of CD8αβ+ T cells in vitro and in vivo after antigen stimulation. We show here that CD8lo T cells can suppress naive CD8+ T cell responses to HY antigen in vitro and male skin graft rejection in vivo after adoptive transfer into female recipients. These novel regulatory T cells express surface TGF‐β1 and secrete T cytotoxic 2 cytokines after antigen‐specific stimulation. Anti‐TGF‐β antibody and latency‐associated peptide inhibit the suppressive effects in vitro. We also show that HY‐specific memory CD8+ T cells overcome regulation by CD8lo T cells. These data define a novel peripheral regulatory CD8+ T cell population that arises after repeated antigen encounter in vivo. These cells have implications in the maintenance of tolerance and memory.

Flagellin Treatment Prevents Increased Susceptibility to Systemic Bacterial Infection after Injury by Inhibiting Anti-Inflammatory IL-10+ IL-12- Neutrophil Polarization

Severe trauma renders patients susceptible to infection. In sepsis, defective bacterial clearance has been linked to specific deviations in the innate immune response. We hypothesized that innate immune modulations observed during sepsis also contribute to increased bacterial susceptibility after severe trauma. A well-established murine model of burn injury, used to replicate infection following trauma, showed that wound inoculation with P. aeruginosa quickly spreads systemically. The systemic IL-10/IL-12 axis was skewed after burn injury with infection as indicated by a significant elevation in serum IL-10 and polarization of neutrophils into an anti-inflammatory (“N2”; IL-10+ IL-12−) phenotype. Infection with an attenuated P. aeruginosa strain (ΔCyaB) was cleared better than the wildtype strain and was associated with an increased pro-inflammatory neutrophil (“N1”; IL-10−IL-12+) response in burn mice. This suggests that neutrophil polarization influences bacterial clearance after burn injury. Administration of a TLR5 agonist, flagellin, after burn injury restored the neutrophil response towards a N1 phenotype resulting in an increased clearance of wildtype P. aeruginosa after wound inoculation. This study details specific alterations in innate cell populations after burn injury that contribute to increased susceptibility to bacterial infection. In addition, for the first time, it identifies neutrophil polarization as a therapeutic target for the reversal of bacterial susceptibility after injury.

Toll-like receptor 2 and 4 ligation results in complex altered cytokine profiles early and late after burn injury.

BACKGROUND Toll-like receptors (TLR) 2 and TLR4 expressed on innate immune cells are important mediators of the immune response to pathogens. In this study, we hypothesized that burn injury results in altered cytokine secretion profiles after TLR2 or TLR4 ligation that is associated with altered TLR expression on innate immune cells. METHODS Female C56BL/6 mice were subjected to 20% full thickness burn or sham injury. Three or 14 days after injury whole splenocytes or purified splenic macrophages were cultured with TLR2 ligand peptidoglycan or TLR4 ligand lipopolysaccharide. Supernatants were assayed for TNF-alpha, MCP-1, IL-6 and IL-10. Cell death was assessed using flow cytometry. Innate CD11b F4/80 macrophages were sorted 14 days after burn injury and TLR2 and 4 expression was determined by quantitative reverse-transcriptase polymerase chain reaction and flow cytometry. RESULTS Burn injury results in a steady accumulation in the periphery of CD11bF4/80 macrophages. Macrophages purified early after burn injury upregulated TLR2 and 4, followed by a decrease of TLR2 and TLR4 expression late after burn injury. TLR2 and TLR4 ligation of an equivalent number of purified macrophages 3 days after burn injury revealed no significant differences in cytokine secretion compared with sham. Stimulation 14 days after burn injury revealed a significant reduction in tumor necrosis factor-alpha secretion by macrophages compared with sham mice. In contrast, interleukin-10 was significantly increased (mean, approximately 1.8-fold) late after burn injury after either TLR2 or TLR4 stimulation. Interleukin-6 and monocyte chemotactic protein-1 secretion was unchanged from sham levels. In contrast, whole splenocyte stimulation resulted in increased cytokine 3 days and 14 days after burn injury. This effect is likely caused by the accumulation of TLR macrophages, which are resistant to TLR-induced cell death. CONCLUSIONS Cytokine secretion profiles after TLR2 and TLR4 ligation after burn injury are altered in a manner not clearly reflective of an anti-inflammatory or proinflammatory state and are associated with unique changes in the macrophage population. TLR2 and TLR4 ligation have complex and varied roles in mediating the immune response to burn injury.

Peptidic termini play a significant role in TCR recognition.

TCR recognition of class I MHC is dependent on the composition of the antigenic peptide and the MHC. Single amino acid substitutions in either the MHC or the peptide may dramatically alter recognition. While the major interactions between TCR and the peptide/MHC complex appear to be focused on the complementarity-determining region (CDR)3, it is also clear from the cocrystal structure of class I MHC and TCR that the amino and carboxyl ends of the peptide may play a role through interactions with the CDR1. In this work we show that gp33 variants substituted at the peptidic termini at the putative CDR1 contact regions show improved recognition in B6 mice. The rank order of recognition is different using the P14 transgenic T cells, suggesting that one reason for improved recognition is a change in the TCR repertoire that recognizes the peptide. However, the affinity of the TCR by some of the peptide/MHC complex with increased recognition is improved, as shown by increased tetramer binding to P14 T cells. These substitutions at the termini of the peptide-binding cleft cause localized conformational changes as seen by changes in mAb binding and crystallographic structures. The different peptide structures also show different conformations in the center of the peptide, but these are shown to be energetically similar and thus most likely have no significance with respect to TCR recognition. Therefore, small conformational changes, localized to the CDR1 contact regions, may play a significant role in TCR recognition.