Lloyd D'Orsogna

Allo-HLA reactivity of virus-specific memory T-cells is common

Graft-versus-host disease and graft rejection are major complications of allogeneic HLA-mismatched stem cell transplantation or organ transplantation that are caused by alloreactive T cells. Because a range of acute viral infections have been linked to initiating these complications, we hypothesized that the cross-reactive potential of virus-specific memory T cells to allogeneic (allo) HLA molecules may be able to mediate these complications. To analyze the allo-HLA reactivity, T cells specific for Epstein-Barr virus, cytomegalovirus, varicella zoster virus, and influenza virus were tested against a panel of HLA-typed target cells, and target cells transduced with single HLA molecules. Eighty percent of T-cell lines and 45% of virus-specific T-cell clones were shown to cross-react against allo-HLA molecules. The cross-reactivity of the CD8 and CD4 T-cell clones was directed primarily against HLA class I and II, respectively. However, a restricted number of CD8 T cells exhibited cross-reactivity to HLA class II. T-cell receptor (TCR) gene transfer confirmed that allo-HLA reactivity and virus specificity were mediated via the same TCR. These results demonstrate that a substantial proportion of virus-specific T cells exert allo-HLA reactivity, which may have important clinical implications in transplantation settings as well as adoptive transfer of third-party virus-specific T cells.

Circulating memory B-cell subpopulations are affected differently by HIV infection and antiretroviral therapy

Objective:To determine if the depletion of IgM memory B cells might contribute to the increased susceptibility of HIV patients to pneumococcal infection, memory B-cell subpopulations were investigated in HIV patients, including patients receiving antiretroviral therapy (ART). Methods:Blood B cells with the phenotype of IgM memory B cells (CD27+, IgM+) and switched memory B cells (CD27+, IgM−) were measured in antiretroviral-treated (n = 32) and untreated (n = 24) HIV patients and non-HIV controls (n = 35). Serum levels of IgG and IgG2 antibodies to pneumococcal polysaccharides, IgG, IgG subclasses, IgM and IgA were also assayed in HIV patients. Results:Switched memory B-cell counts were lower than controls in HIV patients (P < 0.01) irrespective of antiretroviral status and correlated with CD4 T-cell counts (r = 0.56, P = 0.001) in treated patients. In untreated patients, IgM memory B-cell counts correlated with CD4 T-cell counts (r = 0.73, P < 0.0001) reflecting higher values than controls in patients with CD4 T-cell counts greater than 300 cells/μl (P = 0.004) and lower values than controls in patients with CD4 T-cell counts below 300 cells/μl (P = 0.0001). There was no relationship between serum levels of pneumococcal antibodies and IgM or switched memory B cells. Conclusion:The depletion of IgM memory B cells in untreated HIV patients with a CD4 T-cell count below 300 cells/μl might be a risk factor for pneumococcal infection. The depletion of switched memory B cells is a complication of HIV infection irrespective of ART and might contribute to impaired IgG antibody responses. Memory B-cell subpopulations might predict the risk of pneumococcal sepsis more accurately than the CD4 T-cell count or pneumococcal antibody levels.

Alloreactivity from human viral specific memory T-cells

The mechanisms by which alloreactive memory T-cells are generated in non-sensitized individuals have begun to be elucidated. It is generally accepted that a very high level of crossreactivity is an essential feature of the T-cell receptor. Indeed it has recently been shown that alloreactivity from viral specific memory T-cells is far more common than predicted, 45% of viral specific T-cell clones were found to be allo-HLA crossreactive. In this overview the evidence for crossreactive alloresponses from human viral specific memory T-cells is discussed with special emphasis on the unexpected high frequency of these crossreactive responses, the peptide and tissue specificity of the responses, and the mechanistic insights gleaned from the elucidation of the crystal structure of an allo-HLA crossreactive viral specific TCR. The possible implications for clinical solid organ and bone marrow transplantation and tolerance induction will be discussed.

ABO-incompatible matching significantly enhances transplant rates in kidney paired donation

Background Although preformed donor-specific anti–human leukocyte antigen antibodies (DSA) can be overcome by plasmapheresis-based strategies with some success in renal transplantation, kidney paired donation (KPD) is a more effective strategy to avoid DSA. In contrast, ABO incompatibility can be crossed with outcomes equivalent to ABO-compatible transplantation. Here, we report the ability of accepting human leukocyte antigen–compatible but ABO-incompatible donors to increase the number of exchanges in a KPD program. Methods In the Australian KPD program, virtual crossmatch is used to allocate suitable donors to recipients. Acceptance of ABO-incompatible donors is allowed in cases where anti–blood group antibody titres are deemed amenable to removal by apheresis or immunoabsorption. The number of matched recipients, identified chains, and transplants performed with and without acceptance of ABO incompatibility was analyzed. Results In 2 years, 115 pairs were included in nine quarterly match runs. Incompatibility due to DSA accounted for 86% of the listed pairs and 52% were also blood group incompatible to their coregistered donor. Median calculated panel-reactive antibody in registered recipients was 83% (mean, 67%±37%). ABO-incompatible donors were accepted for 36 patients. Two waitlist recipients and 48 KPD candidates were matched and transplanted. Ten recipients (20%) of an ABO-incompatible donor kidney were distributed across 8 chains that resulted in 21 recipients being transplanted. Thus, without ABO-incompatible matching, only 27 recipients in 12 chains would have been transplanted. Conclusion Acceptance of blood group–incompatible donors for patients with low to moderate anti–blood group antibody significantly increases transplant rates for highly sensitized recipients.

High transplant rates of highly sensitized recipients with virtual crossmatching in kidney paired donation

Background In kidney paired donation (KPD), flexibility in the allocation of incompatible pairs is required if a critical mass of pairs to efficiently find matches cannot be reached. Methods In the Australian KPD program, virtual crossmatch is used for the allocation of suitable donors to registered recipients. Matching is based on acceptable mismatches, and donors are excluded from matching to recipients with donor-specific antibodies (DSAs) greater than 2000 mean fluorescence intensity (MFI). Match and transplant rates in the first year of the program were reviewed with respect to recipient and donor characteristics, including blood group distribution, level of recipient’s sensitization, and postallocation crossmatches. Results Four quarterly match runs were performed, which included 53 pairs and 2 altruistic donors. Human leukocyte antigen incompatibility accounted for 90% of the listed pairs. In the second run, the DSA threshold was increased to greater than 8000 MFI, because no matches were found with standard allocation. Optional ABO-incompatible matching was introduced from run 3. Matches were identified in 37 (70%) patients, of whom 92% had a negative crossmatch with their matched donor. Crossmatch positive results were found only in recipients with DSAs greater than 2000 MFI in the second run. In 4 cases immunological reasons and in 4 cases other reasons resulted in breakdown of chains and 17 patients not progressing to transplantation. Eventually, 20 (38%) patients received a KPD transplant, and 35% of these had a calculated panel-reactive antibody greater than 90%. Conclusions KPD using virtual crossmatch is a valid and effective solution for patients with immunologically incompatible donors even in the context of highly sensitized recipients.

New tools to monitor the impact of viral infection on the alloreactive T-cell repertoire

Accumulating evidence suggests that alloreactive memory T-cells may be generated as a result of viral infection. So far, a suitable tool to define the individual human leukocyte antigen (HLA) cross-reactivity of virus-specific memory T-cells is not available. We therefore aimed to develop a novel system for the detection of cross-reactive alloresponses using single HLA antigen expressing cell lines (SALs) as stimulator. Herein, we generated Epstein-Barr Virus (EBV) EBNA3A specific CD8 memory T-cell clones (HLA-B*0801/FLRGRAYGL peptide restricted) and assayed for alloreactivity against a panel of SALs using interferon-gamma Elispot as readout. Generation of the T-cell clones was performed by single cell sorting based on staining with viral peptide/major histocompatibility complex-specific tetramer. Monoclonality of the T-cell clones was confirmed by T-cell receptor (TCR) polymerase chain reaction analysis. First, we confirmed the previously described alloreactivity of the EBV EBNA3A-specific T-cell clones against SAL-expressing HLA-B*4402. Further screening against the entire panel of SALs also showed additional cross-reactivity against SAL-expressing HLA-B*5501. Functionality of the cross-reactive T-cell clones was confirmed by chromium release assay using phytohemagglutinin blasts as targets. SALs are an effective tool to detect cross-reactivity of viral-specific CD8 memory T-cell clones against individual class I HLA molecules. This technique may have important implications for donor selection and monitoring of transplant recipients.

Vaccine-induced allo-HLA-reactive memory T cells in a kidney transplantation candidate.

Background. Allo-human leukocyte antigen (HLA) reactivity by naturally acquired viral-specific memory T cells is common. However, the effect of successful vaccination on the alloreactive memory T-cell repertoire is unclear. We hypothesized that vaccination could specifically induce allo-HLA–reactive memory T cells. Methods. A varicella-zoster virus (VZV) immediate early 62 (IE62)-specific CD8 memory T-cell clone was single cell sorted from a VZV seronegative renal transplant candidate after response to live attenuated varicella vaccination. To analyze the allo-HLA reactivity, the VZV IE62-specific T-cell clone was tested against HLA-typed target cells and target cells transfected with HLA molecules, in both cytokine production and cytotoxicity assays. Results. The varicella vaccine–induced VZV IE62-specific T-cell clone specifically produced interferon-&ggr; when stimulated with HLA-B*55:01–expressing Epstein-Barr virus–transformed B cells and HLA-B*55:01–transfected K562 cells (single HLA antigen expressing cell line [SALs]) only. The clone also demonstrated specific cytolytic effector function against HLA-B*55:01 SALs and phytohemagglutinin blasts. Cytotoxicity assays using proximal tubular epithelial cell and human umbilical vein endothelial cell targets confirmed the kidney tissue specificity of the allo-HLA-B*55:01 reactivity, and the relevance of the cross-reactivity to clinical kidney transplantation. The results also suggest that molecular mimicry, and not bystander proliferation, is the mechanism underlying vaccine-induced alloreactivity. Conclusions. Varicella vaccination generated a de novo alloreactive kidney cell–specific cytolytic effector memory T cell in a patient awaiting renal transplantation. Vaccination-induced alloreactivity may have important clinical implications, especially for vaccine timing and recipient monitoring.

The Use of Humoral Responses as a Marker of CMV Burden in HIV Patients on ART Requires Consideration of T-Cell Recovery and Persistent B-Cell Activation

Objectives. Elevated humoral responses to cytomegalovirus (CMV) associate with increased risk of cardiovascular disease (CVD) in HIV patients on antiretroviral therapy (ART). To better understand the persistence of CMV humoral responses in relation to CVD, we determined trends in CMV antibody levels over the first 10 years on ART. Design. We describe longitudinal analyses of plasma from 13 HIV patients commencing ART with <210 CD4 T-cells/µL and 27 controls. Antibodies reactive with CMV (fibroblast lysate, gB and IE-1 antigens), EBV-VCA, and HIVgp41 were quantitated. B-cell activation was assessed via total IgG and sBAFF. Inflammation was assessed via sTNF-RI and sCD14. Results. Amongst CMV seropositive HIV patients, levels of antibody reactive with CMV (P = 0.03) and EBV-VCA (P = 0.02) peaked after 1 year on ART. Levels of total IgG, sCD14, and sTNF-RI declined to approximate those in controls after 10 years, but sBAFF (P = 0.0002), EBV-VCA (P = 0.001), and CMV (P = 0.0004) antibodies remained elevated. A strong correlation between sBAFF and CMVgB antibody was seen at 10 years (R = 0.93, P = 0.0009) and verified in a second cohort. Conclusions. CMV antibody titres peak on ART and remain high. A correlation between CMV antibody and sBAFF suggests a role for HIV-induced B-cell pathology that may affect its use as a marker of CMV burden.

Antibody and B cell responses may control circulating lipopolysaccharide in patients with HIV infection.

Objectives:To examine the relationship between plasma markers of microbial translocation and antibodies to lipopolysaccharide (LPS) and circulating memory B cells in patients with HIV infection. Design:Cross-sectional study in antiretroviral therapy (ART)-naive (n = 23) and ART-treated (n = 27) HIV patients. Methods:Antibodies to LPS and immunoglobulins, assayed in stored serum, and matched memory B-cell counts were correlated with levels of LPS and bacterial 16S ribosome DNA (16S rDNA), assayed in stored plasma. Results:In ART-naive patients, plasma LPS levels correlated inversely with serum levels of IgG and IgA antibodies to LPS (P = 0.03 and 0.006, respectively), serum levels of IgA anti-LPS correlated with total IgA (P < 0.0001) and levels of IgG anti-LPS correlated with IgM+ memory B-cell counts (P = 0.025). In ART-treated patients, plasma LPS levels were not related to levels of LPS antibodies, but were related to CD4+ T-cell and switched memory B-cell counts. There were no correlations with plasma levels of 16S rDNA. Conclusion:Plasma LPS levels were associated with antibody and possibly B-cell responses to LPS in ART-naive HIV patients, whereas they were associated with the degree of immune reconstitution in ART-treated patients.

Endogenous-peptide-dependent alloreactivity: new scientific insights and clinical implications

T-cell alloreactivity is generated via immune responsiveness directed against allogeneic (allo) human leucocyte antigen (HLA) molecules. Whilst the alloresponse is of extraordinary potency and frequency, it has often been assumed to be less peptide-specific than conventional T-cell reactivity. Recently, several human studies have shown that both alloreactive CD8(+) and CD4(+) T cells exhibit exquisite allo-HLA and endogenous peptide specificity that has also underpinned tissue-specific allorecognition. In this review, we summarize former and recent scientific evidence in support of endogenous peptide (self-peptide)-dependence of T-cell alloreactivity. The clinical implications of these findings will be discussed in the context of both solid organ transplantation and haematopoietic stem cell transplantation (HSCT). Insights into the understanding of the molecular basis of T-cell allorecognition will probably translate into improved allograft survival outcomes, lower frequencies of graft vs host disease and could potentially be exploited for selective graft vs leukaemia effect to improve clinical outcomes following HSCT.