Schirren Ca scite author profile

Schirren Ca

4Publications

104Citation Statements Received

70Citation Statements Given

How they've been cited

130

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Affiliations

Klinikum Vest, Ludwig-Maximilians-Universität München, DKFZ-ZMBH Alliance

Publications

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A vigorous virus-specific CD4+ T cell response may contribute to the association of HLA-DR13 with viral clearance in hepatitis B

Diepolder

Keller³

et al. 1998

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A strong virus-specific CD4+ and CD8+ T lymphocyte response to hepatitis B virus (HBV) has been associated with viral clearance, but little is known about factors determining the individual's ability to mount such a T cell response. Recently a strong association between the HLA class II allele DR13 and a self-limited course of HBV infection has been described. In the present study of 33 patients with acute hepatitis B we show that individuals carrying HLA-DR13 mount a more vigorous CD4+ T cell response to HBV core (5706 ct/min (25th/75th percentile 3239 ct/min; 10,552 ct/min)) than patients without HLA-DR 13 (1365 ct/min (490 ct/min; 5334 ct/min); P = 0.006). However, peptide epitopes aa 50-69, aa 61-85, and aa 81-105 were recognized most frequently by both patient groups. Moreover, among 14 HBV core-specific CD4+ T cell clones from two patients with HLA-DR13, only one T cell clone was HLA-DR13-restricted. Our data suggest that the beneficial effect of the HLA-DR13 alleles on the outcome of HBV infection could be explained by a more vigorous HBV core-specific CD4+ T cell response, which may either be due to more proficient antigen presentation by the HLA-DR13 molecules themselves or a linked polymorphism in a neighbouring immunoregulatory gene.

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Analysis of T cell activation pathways in patients with liver cirrhosis, impaired delayed hypersensitivity and other T cell-dependent functions

Jung²,

Zachoval

et al. 1997

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SUMMARYPatients with cirrhosis of the liver frequently demonstrate anergy in intracutaneous tests and fail to respond to vaccination, suggesting impaired delayed hypersensitivity and other T cell-dependent functions in vivo. T cell activation through the coordinated interaction of different cells of the immune system (B cell, antigen-presenting cells (APC)) is an important step in the induction of cellular and humoral immune responses. Impaired T cell-dependent functions in patients with liver cirrhosis may thus be explained by defective T cell activation. We prospectively investigated T cell activation pathways in 12 patients (nine males, three females) with alcoholic liver cirrhosis (seven Child Pugh stage A and B (CP A + B), five Child Pugh stage C (CP C)) and five healthy controls and compared the in vitro results of T cell activation with data obtained in vivo, e.g. intracutaneous tests and vaccination against hepatitis B surface antigen (HBs-Ag). Five out of eight patients who completed vaccination against hepatitis B virus infection were non-responders; one of the three responders had a non-protective antiHBs titre. Moreover, three of five patients with alcoholic liver cirrhosis CP A + B, and two out of three with CP C were anergic in intracutaneous tests to a set of diverse antigens. All parameters of T cell activation were normal, including proliferation mediated by CD2, CD3-T cell receptor (TCR) complex, and CD28; acquisition of responsiveness to exogenous IL-2 and IL-4; activation of proteinkinase C (PKC) by phorbol ester and calcium influx by addition of ionomycin. The ability of monocytes to deliver costimulatory signals was preserved in patients with alcoholic cirrhosis. In addition, serum of patients with alcoholic liver disease did not inhibit T cell proliferation. We conclude that, although in patients with alcoholic liver cirrhosis T cell-dependent functions are impaired in vivo, T cell activation pathways are not responsible for the observed immune defect.

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Adhesion molecules on freshly recovered T leukemias promote tumor- directed lympholysis

Völpel

1992

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Besides facilitating cell to cell adhesion, the molecular interactions between CD2 and its ligand CD58 (lymphocyte function-associated antigen- 3 [LFA-3]), as well as between CD11a/18 (LFA-1) and CD54 (intercellular adhesion molecule-1) have recently been recognized to participate in lymphocyte activation, recirculation, and effector function, including cytolytic activity towards tumor cells. We have investigated the role of CD2/CD58 and CD11a/18/CD54 interactions in cellular immune responses directed towards freshly recovered human T-cell leukemias. The data support the notion that downregulation of CD54 and CD58 correlates with enhanced numbers of blasts in circulation and unsusceptibility to killing by autologous cytotoxic lymphocytes. Importantly, after induction of CD54 and CD58 expression on leukemic cells by recombinant cytokines such as tumor necrosis factor-alpha, tumor cells become highly susceptible to lymphocyte-mediated lysis in vitro. Our findings, therefore, stress the point that successful immunotherapy of malignant disease may be facilitated by influencing not only the immune response itself, but also adhesion molecules on the malignant tumor targets.

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Response of T cells from HCV reinfected grafts after LTX resembles that of T cells from peripheral blood in acute hepatitis C

Ca¹,

Jung²,

Worzfeld³

et al. 1998

Journal of Hepatology

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Schirren Ca

A vigorous virus-specific CD4+ T cell response may contribute to the association of HLA-DR13 with viral clearance in hepatitis B

Analysis of T cell activation pathways in patients with liver cirrhosis, impaired delayed hypersensitivity and other T cell-dependent functions

Adhesion molecules on freshly recovered T leukemias promote tumor- directed lympholysis

Response of T cells from HCV reinfected grafts after LTX resembles that of T cells from peripheral blood in acute hepatitis C

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