Gillian Harcourt

Ex vivo analysis of human memory CD4 T cells specific for hepatitis C virus using MHC class II tetramers

Containment of hepatitis C virus (HCV) and other chronic human viral infections is associated with persistence of virus-specific CD4 T cells, but ex vivo characterization of circulating CD4 T cells has not been achieved. To further define the phenotype and function of these cells, we developed a novel approach for the generation of tetrameric forms of MHC class II/peptide complexes that is based on the cellular peptide-exchange mechanism. HLA-DR molecules were expressed as precursors with a covalently linked CLIP peptide, which could be efficiently exchanged with viral peptides following linker cleavage. In subjects who spontaneously resolved HCV viremia, but not in those with chronic progressive infection, HCV tetramer-labeled cells could be isolated by magnetic bead capture despite very low frequencies (1:1,200 to 1:111,000) among circulating CD4 T cells. These T cells expressed a set of surface receptors (CCR7+CD45RA-CD27+) indicative of a surveillance function for secondary lymphoid structures and had undergone significant in vivo selection since they utilized a restricted Vbeta repertoire. These studies demonstrate a relationship between clinical outcome and the presence of circulating CD4 T cells directed against this virus. Moreover, they show that rare populations of memory CD4 T cells can be studied ex vivo in human diseases.

Preferential loss of IL-2–secreting CD4+ T helper cells in chronic HCV infection†

Hepatitis C virus (HCV) becomes persistent in the majority of infected individuals. In doing so, the virus evades host adaptive immune responses, although the mechanisms responsible in this evasion are not clear. Several groups have demonstrated weak or absent HCV‐specific CD4+ T cell responses during chronic HCV infection using proliferation assays and, more recently, class II tetramers. However, the functional status of HCV‐specific CD4+ T cells in resolved and persistent infection is poorly understood. Using interferon γ (IFN‐γ) and interleukin 2 (IL‐2) enzyme‐linked immunospot assays, we analyzed cytokine secretion patterns in chronically infected patients and compared them with those with resolved infection. In the spontaneous resolver group, strong IL‐2 secretion in relation to IFN‐γ secretion was observed. However, in the persistently infected group, a consistent and significant loss of IL‐2–secreting cells, compared with IFN‐γ–secreting cells, was identified. In vitro addition of IL‐2 had a substantial effect in restoring CD4+ T cell activity. In conclusion, failure of IL‐2 secretion, as opposed to physical deletion or complete functional unresponsiveness, appears to be an important determinant of the status of CD4+ T cell populations in chronic HCV infection. Loss of IL‐2 secretory capacity may lead to disruption of IFN‐γ and proliferative function in vivo—a status that characterizes the cellular immune response in both CD4+ and CD8+ compartments in chronic disease. (HEPATOLOGY 2005;41:1019–1028.)

Frequency and phenotype of circulating Valpha24/Vbeta11 double-positive natural killer T cells during hepatitis C virus infection.

ABSTRACT Natural killer T (NKT) cells are thought to be involved in innate responses against infection. We investigated one specific type of NKT cell, Vα24/Vβ11 double positive, in hepatitis C virus (HCV) infection. Lower frequencies of this population were detected in the blood of HCV PCR-positive patients than in controls. Unlike Vα24/Vβ11 NKT cells found in blood, those in the liver appeared to be recently activated.

Effect of HLA class II genotype on T helper lymphocyte responses and viral control in hepatitis C virus infection

Hepatitis C virus (HCV) infection is very common worldwide, but has a broad range of outcomes. A minority of patients are able to clear infection spontaneously, and this is thought to be due to the emergence and maintenance of effective cell‐mediated immunity, particularly CD4+ T lymphocyte responses. Furthermore, genetic studies have indicated that HLA class II genotype strongly influences the outcome of infection. We have therefore investigated the influence of the protective HLA class II haplotype (DQB1*0301, which is in tight linkage disequilibrium with DRB1*1101) on the CD4+ T lymphocyte responses to HCV. We observe a strong association between this genotype and maintenance of a multispecific CD4+ T helper response. The effect on T helper responses was also maintained after combination interferon‐α/ribavirin therapy, although the latter influenced the pattern of viral antigens to which patients responded. This is the first disease in which an association of HLA genotype with clinical outcome has been linked to an alteration of the immunological phenotype. The selection of protective peptides in those with the favourable HLA class II genotype may point in the direction of suitable vaccine candidates.

T-cell reactivity in myasthenia gravis

In a proliferation assay, peripheral blood lymphocytes (PBL) from a relatively small proportion of myasthenia gravis (MG) patients and from controls responded to Torpedo acetylcholine receptor (T-AChR), which shows approximately 75% homology with the human AChR. Over 50% of MG patients responded to recombinant human AChR alpha-subunit (r37-437) however, compared with 9% of controls. A proportion of MG PBL respond to synthetic peptides of the extracellular portion of the human alpha-subunit, but only MG patients (18%) responded to the juxta-membrane sequence p257-269. MG T-cell lines raised against native T-AChR failed to respond to the synthetic peptides. These results underline the need to use human AChR sequences to test relevant T-cell reactivity in MG. T-cell lines raised from three MG patients to human alpha-subunit r37-437 have shown Stimulation Index (SI) values of 3.5-22. Three clones derived from one of these had SI values of 100-500. Preliminary testing of responsiveness in one of these clones showed reactivity to several recombinant polypeptides including r37-437 and r37-181, as in the parent line. The epitope(s) within this latter sequence have not yet been identified, but the experimental approach used here should make it possible to define critical T-cell epitopes in MG, and to determine their functional relevance by investigating the ability of AChR-reactive T-cell clones to provide specific help in anti-AChR antibody production.

A juxta-membrane epitope on the human acetylcholine receptor recognized by T cells in myasthenia gravis.

T cell proliferative responses to synthetic peptides taken from the human nicotinic acetylcholine receptor (AChR) alpha-chain sequence, or to whole AChR purified from electric fish (Torpedo marmorata), have been studied, using blood, thymus, and lymph node cells, from 34 patients with myasthenia gravis (MG) and 17 controls mostly with other neurological diseases. Peptides were selected because they contained amino acid motifs that recur in most defined T cell epitopes. Peptide 257-269 (from the extracellular loop of the AChR alpha-chain between the second and third trans-membrane domains) stimulated cells from six patients and no controls. Peptides from region 125-143 (from the main extracellular 1-210 stretch), which is thought to be an important T cell epitope in rats, provoked responses in 26% of patients and 41% of controls. Two patients responded both to these peptides and to peptide 257-269, thereby implying some heterogeneity of their reacting T cells. Whereas the initial blood T cell samples sometimes responded both to Torpedo AChR and to the 125-143 peptides, T cell lines selected with either antigen subsequently showed no response to the other. This observation suggests that it may be essential to use human AChR sequences for studying truly autoreactive T cells in MG. Finally, no strong association was found between any of the responses to peptides and the HLA types of the responding individuals.

Viral escape and T cell exhaustion in hepatitis C virus infection analysed using Class I peptide tetramers

Hepatitis C virus (HCV) has infected over 170 million people world wide, and in the majority sets up a chronic infection associated with hepatic inflammation. How it evades host immunity, particularly CD8+ T cells (CTL) is unclear, but two major factors are likely to operate, viral escape mutation and T cell exhaustion. We have investigated the role of CTL in control of infection during acute disease using Class I peptide tetramers. Although the immune response is quite diverse and numerous epitopes can be targeted, we observe that, especially during acute disease, one epitope (NS3 1073-81) is commonly recognised in HLA-A2 positive individuals. However, the levels of response to this epitope (and others) are very much lower if persistence is established. We examined in detail whether the cause of this low level of reactivity is due to mutation within the epitope. We find that, in fact this epitope is highly conserved during chronic infection, at a clonal level, between individuals, and over time. Thus, although variation within the epitope does occur, lack of reactivity in peripheral blood against this epitope in chronic disease, and loss of control of virus cannot be explained entirely by viral escape. Escape through mutation probably does play an important role in persistence of HCV, but we also discuss other mechanisms which lead to attenuation of T cell responses which may be important in determining the outcome.

T-cell responses and previous exposure to hepatitis C virus in indeterminate blood donors

Blood donors are routinely screened for hepatitis C virus infection. Some individuals have weak or restricted virus-specific antibody responses, and are classed as indeterminate. Such donors are almost always negative for viral RNA in blood. We postulated that previous transient virus exposure might account for some of these cases. With sensitive ex-vivo analyses of T-cell responses, we identified virus-specific responses in 15 of 30 indeterminate blood donors tested, compared with none in controls (p=0.0013). Additionally, these responses were typically focused on core-derived peptides. These findings suggest previous exposure to the virus in many indeterminate blood donors.

Diminished frequency of hepatitis C virus specific interferon γ secreting CD4+ T cells in human immunodeficiency virus/hepatitis C virus coinfected patients

Background: Human immunodeficiency virus/hepatitis C virus (HIV/HCV) coinfection is a common and complex clinical problem in which loss of immunological control of HCV occurs, with increased HCV viral load and more aggressive liver disease. Cellular immune responses, particularly secretion of interferon γ (IFN-γ) appear to be important in the control of HCV, and a detectable HCV specific CD4 response is associated with clearance of the virus. HCV specific CD8+ T cell responses, weak in chronic HCV infection, have been shown to be further impaired in HIV coinfection and this CD8+ T cell deficiency is related to the decline in CD4 T cell count. Aims: To compare the CD4 T cell response to HCV in HIV/HCV coinfected and HCV monoinfected individuals and to determine the relationship of responses with declining CD4 count. Patients: The study subjects were a cohort of 68 HCV monoinfected and 67 HCV/HIV coinfected haemophiliac children and adolescents (the Hemophilia Growth and Development Study) who were followed for a seven year period. Methods: We analysed IFN-γ secreting CD4+ responses to HCV proteins and peptides and HIV p24 antigen using an ELISpot assay. Results: We found a significant decrease in HCV specific responses among those who were HIV coinfected (10/67 v 36/68; p<0.0001) both in numbers of responders and frequency of specific cells. This did not appear to be closely related to CD4 count. Conclusions: The reduction in HCV specific CD4 T cells in coinfection provide a cellular mechanism for the loss of control of HCV in coinfected individuals, even in those with relatively preserved CD4+ T cell counts and CD4+ T cell responses to HIV.

ANTIGEN PRESENTATION BY THYMOMA EPITHELIAL CELLS FROM MYASTHENIA GRAVIS PATIENTS TO POTENTIALLY PATHOGENIC T CELLS

Thymomas associate strongly with myasthenia gravis (MG). We now show that cultured thymoma epithelial cells can present synthetic acetylcholine receptor (AChR) peptides to HLA-sharing responder T cell lines/clones nearly as efficiently as blood mononuclear cells. Responses depended strictly on the specific antigen added. Processing of longer recombinant AChR polypeptides was clearly less efficient than by blood mononuclear cells, and was selectively abolished by preculture with chloroquine. The T cell responses depended on the presence of LFA-3 on the thymoma cells. This study demonstrates that thymoma epithelial cells have the capacity to stimulate T cells and perhaps, therefore, to autosensitize against AChR in vivo.