UMLS:C0009443 - FACTA Search

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Query: UMLS:C0009443 (cold)
92,137 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Attempting to find out whether universal kidney donors exist in the same sense as do universal blood donors this investigation was performed on donors and recipients in 45 pair transplantations, or in other words on 90 recipients transplanted with kidneys from 45 donors (G.S. 6 months). The result of pair transplantation was the same in the two recipients in 23 instances; 15 pairs had successful transplantations while the grafts failed in 8 pairs. In 22 pair transplantations the two recipients had different postoperative records. The mean age of the donors was 32 years, the mean age of the recipients 42. The donor age was lower in the successful pair transplantations than in the failures. The duration of cold ischaemia ranged from 6.6 to 9 hours in the different groups. The results of transplantation were not influenced by the duration of ischaemia. A higher degree of histocompatibility and a greater number of shared haplotypes were features typical of the successful cases. Moreover, antibodies occurred less frequently in connection with successful transplantations. Absence of shared halotypes and/or incompatibility in locus B had an unfavourable effect on the course of grafting. By contrast, the presence of blood group O in both donor and recipient and even in donor alone had a favourable effect. HLA-A2 occurred less frequently and A1 and B8 more frequently in donors whose grafts failed than in the donors of successful pair transplants. The question of whether a universal kidney donor exists could not be definitely answered on the basis of this investigation.
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PMID:Results in necrokidney transplantation to pair recipients. 78 6

In the serum of a young normal male, never transfused, a cold cytotoxic IgM antibody was found reacting exclusively with A2 homozygous cells on a French panel, as shown by population and family studies. This antibody needs about two to five times more lymphocytes or platelets to be absorbed than an immune anti-A2 of the same titre. The antigen recognized by this antibody seems to be covered by the same molecule as HLA-A2, according to redistribution experiments.
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PMID:A "natural" anti-HLA-A2 antibody reacting with homozygous cells. 96 99

Cytotoxic T lymphocytes (CTL), CD3+, alpha/beta T-cell-receptor-positive, are important effector cells with specific immunity in melanoma patients. The establishment and expansion in vitro of CTL of a specific phenotype to tumor cells strongly depends on the method of activation and sensitization with tumor cells. We generated CD3+ CTL lines to melanoma by co-culturing peripheral blood lymphocytes with autologous irradiated melanoma cells and repetitive stimulation with high-dose interleukin-4 in a "cocktail" culture medium. CTL lines were investigated for their specificity to kill autologous and allogeneic melanoma. Histocompatibility locus antigen (HLA) class I (A, B) molecules are important restrictive recognition antigens for CTL. Although these antigens are highly polymorphic, they can share a similar immunogenic molecular epitope(s) and can be immunologically cross-reactive. The CTL lines generated were found to kill not only autologous melanoma, but also allogeneic melanomas having class I HLA-A antigens shared or "cross-reactive" with autologous HLA-A. These CTL lines were poor killers of melanomas bearing non-shared or non-cross-reactive HLA-A. Cold-target inhibition assays demonstrated this CTL cross-reactivity to allogeneic melanoma specificity. Epstein-Barr-virus-transformed autologous and allogeneic B lymphoblastoid cell lines failed to block autologous melanoma killing, indicating that CTL were not recognizing major histocompatibility complex antigens, serum proteins or culture medium products as the primary target antigen. HLA-A2 was the major shared HLA-A antigen recognized by CTL lines on the melanoma lines studied. CTL lines also recognized shared HLA-A11 and A24 on allogeneic melanoma. There were no CTL lines showing restriction to HLA-B. These results suggest that common tumor-associated antigens are present on melanomas and are recognized in association with distinct HLA-A epitopes by CTL.
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PMID:Cytotoxic T cell lines recognize autologous and allogeneic melanomas with shared or cross-reactive HLA-A. 137 43

Autologous melanoma-specific CTL recognize a common tumor-associated Ag (TAA) in the context of HLA class I antigens. We have demonstrated that HLA-A2 can be a restricting Ag and, in T cell lines homozygous for HLA-A2, that CTL can be generated by stimulation with HLA-A2 allogeneic melanomas. In the current study, we have investigated T cell lines from patients who are heterozygous at HLA-A region locus, to determine the relative importance of each A-region allele in this MHC-restricted recognition of tumor. We have shown that HLA-A1 can be a restricting Ag, and that allogeneic melanomas expressing HLA-A1 can substitute for the autologous tumor in the generation of HLA-A1-restricted CTL. However, when T cell lines express both HLA-A1 and HLA-A2, the HLA-A2 allele governed restriction of the melanoma TAA. Three autologous-stimulated HLA-A1, A2 CTL lines all demonstrated restriction by the HLA-A2 allele, when examined in cytotoxicity assays, cold-competition assays, and proliferation assays. There was no evidence of restriction by the second HLA-allele, HLA-A1. Although the autologous-stimulated CTL use a single A-region allele for tumor recognition, the autologous HLA-A1, A2 tumors are lysed by both HLA-A1-restricted and HLA-A2-restricted CTL. The dominance of restricting alleles was further demonstrated when HLA-matched allogeneic melanomas were used as the stimulating tumor to generate tumor-specific CTL. Stimulation of the heterozygous (HLA-A1, A2) lymphocytes with HLA-A2-matched allogeneic melanomas resulted in CTL specific for the autologous tumor, and restricted by the HLA-A2 Ag. However, stimulation with an HLA-A1-matched allogeneic melanoma failed to induce tumor-specific CTL restricted by the HLA-A1 Ag. The data suggest there is a dominance of HLA-A region Ag at the level of the T cell, such that only one is restricting in the recognition of the autologous melanoma. At the level of the tumor, however, the TAA is expressed in the context of both HLA-A region alleles. We can generate specific CTL from lymph node cells or PBL and HLA-A region matched allogeneic melanomas; however, because most patients are heterozygous at the HLA-A region locus, an understanding of the dominant restricting alleles must be obtained so that an appropriately matched allogeneic melanoma can be selected.
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PMID:MHC-restricted recognition of autologous melanoma by tumor-specific cytotoxic T cells. Evidence for restriction by a dominant HLA-A allele. 167 80

Human melanoma is an immunogenic neoplasm whereby enhancement of specific cell-mediated immunity can alter tumor progression. HLA-A2-restricted CTL have been demonstrated to kill allogeneic HLA-A2-matched melanoma. We investigated the ability of allogeneic melanoma cells sharing HLA-A antigens to sensitize melanoma patients' lymphocytes to induce HLA-A-restricted CTL to autologous melanoma. PBL from melanoma patients were cocultured with autologous melanoma cells in defined "cocktail medium" to generate melanoma-specific HLA-A-restricted CTL lines. CTL generated by sensitization with allogeneic melanoma bearing shared HLA-A2, A11, A24, or "cross-reactive" HLA-A antigens could kill almost as many autologous melanoma cells as CTL sensitized with autologous melanoma. There are HLA-A antigens that are immunogenically cross-reactive because they share determinant epitopes. CTL were not activated NK or LAK cells. The HLA restriction and melanoma cell specificity of the CTL were demonstrated by cold target inhibition with autologous and allogeneic melanoma and B lymphoblasts. Anti-CD3 and anti-HLA AB inhibited CTL killing of melanoma. The CTL were predominantly CD3+CD4+ TCR alpha/beta+. These studies demonstrate that melanomas being shared or cross-reactive HLA-A can be used for in vitro generation of HLA-restricted CTL that recognize melanoma-associated antigens. The findings have very important implications in human tumor immunotherapy.
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PMID:Induction of CD4+ cytotoxic T cells by sensitization with allogeneic melanomas bearing shared or cross-reactive HLA-A. 173 12

Major histocompatibility complex (MHC) class I antigens (Ag), particularly human lymphocyte antigen (HLA)-A2, have been shown to function as restriction elements in human cytotoxic T lymphocyte recognition of tumor. This study was undertaken to determine the function of non-A2 MHC class I Ag in tumor recognition by tumor-infiltrating lymphocytes (TILs) cultured from six melanomas, and to find evidence for shared or unique tumor-associated Ag. Four predominantly CD8+ and two mixed CD4+, CD8+ population TIL cultures were tested for lysis in short-term 51Cr-release assays against a panel of targets including 29 fresh melanomas, 2 fresh sarcomas, 11 cultured melanoma lines, and 14 nonmelanoma cell lines derived from HLA-typed patients. All six melanoma TILs lysed the autologous melanoma. Two of three TILs from HLA-A2+ patients lysed allogeneic melanomas matched for HLA-A2, giving evidence for shared tumor Ag; one of these TILs also used HLA-B44 as a restriction element. The third HLA-A2+ TIL lysed autologous melanoma but not autologous Epstein-Barr virus-transformed B cells nor 14 HLA-A2 matched allogeneic melanomas, suggesting the possibility of a unique tumor Ag in this system. The three HLA-A2- TILs each lysed multiple HLA-matched melanomas, using HLA-A24, HLA-A31, and HLA-Cw7 as restriction elements. Blocking of autologous and allogeneic melanoma lysis by TILs with mAb w6/32 (anti-MHC class I) and anti-CD3, as well as cold target inhibition assays, confirmed that specific interaction of the T-cell receptor with MHC class I Ag and the relevant tumor Ag on the target cell surface is required for tumor lysis. These data provide evidence for specific recognition of shared melanoma Ag by human TILs.
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PMID:Common expression of melanoma tumor-associated antigens recognized by human tumor infiltrating lymphocytes: analysis by human lymphocyte antigen restriction. 186 40

The specificity analysis of a CD3+, WT31+, CD8+ cytotoxic T lymphocyte (CTL) clone (CTL 49), isolated from peripheral blood lymphocytes of a melanoma patient (no. 665) after mixed lymphocyte culture with an HLA-A2+ allogeneic lymphoblastoid cell line (VSKB-LCL), revealed that CTL 49 could lyse, in addition to HLA-A2+ lines, autologous HLA-A2- melanoma (Me665/2) and K562 targets. Killing of VSKB-LCL, but not of Me665/2, could be inhibited by anti-CD3 and by anti-HLA-A2 antibodies or by modulation of the CD3 complex. Cold-target competition studies showed that K562, but not VSKB-LCL, could compete with Me665/2 for lysis by CTL 49. However, unlike K562, Me665/2 could be lysed by CTL 49 in a Ca2(+)-independent fashion in 4 h and 18 h assays. CTL 49 expressed mRNA specific for tumor necrosis factor (TNF alpha) and, to a lesser extent, for lymphotoxin (TNF beta). Exposure of the clone to anti-CD3 antibodies induced the expression of interferon(IFN)-gamma-specific mRNA. Antibodies to TNF alpha, TNF beta and IFN reduced the lysis of Me665/2, but not of K562, by CTL 49 in 18-h cytotoxic assays. Antibodies to TNF alpha and to IFN gamma almost completely inhibited the lysis seen on Me665/2 (but not on K562), in 96-h assays, by supernatants isolated from VSKB-LCL- or anti-CD3-stimulated CTL 49 cells. Taken together, these data indicate that major-histocompatibility-complex-independent lysis of autologous tumor cells and of natural killer reference targets by the same alloreactive T cell clone are activities related at the level of target recognition but distinct at the level of the lytic hit. Thus, efficient lysis of autologous tumor cells results from a complex mechanism based upon direct effector-target interaction as well as on cytokine-mediated cytolytic effects.
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PMID:T lymphocytes can mediate lysis of autologous melanoma cells by multiple mechanisms: evidence with a single T cell clone. 214 69

Autologous tumor-specific cytotoxic T-lymphocytes (CTLs), generated by repeated stimulation with autologous melanoma and expanded in interleukin 2, are major histocompatibility complex restricted. These CTLs recognize a common tumor-associated antigen in the presence of HLA class I determinants, suggesting that allogeneic melanomas which express the restricting HLA-A region antigen could substitute for the autologous tumor in the generation of CTLs. This was investigated in the HLA-A2 system. Four T-cell lines were established by stimulation of lymphocytes with either autologous tumor or an HLA-A2-matched allogeneic melanoma. Allogeneic stimulated CTLs specifically lysed the autologous tumor and demonstrated an identical pattern of HLA-A2 restriction, when compared to the autologous stimulated CTLs. Lysis by the allogeneic stimulated CTLs was blocked by a monoclonal antibody to HLA class I antigens; lysis was also inhibited by both autologous tumor or HLA-A2 allogeneic melanomas when evaluated in cold target competition studies. The allogeneic stimulated CTLs proliferated in response to both autologous tumor and HLA-A2 melanomas, but not in response to HLA-A2 nonmelanomas. By phenotypic analysis these CTLs were CD3+ and predominantly CD8+ cells. We conclude that autologous tumor-specific CTLs can be generated using HLA-A region-matched allogeneic melanomas for stimulation. Since established, HLA-typed melanoma tumor lines can be used in the absence of autologous tumor; this procedure can be applied clinically to a broad patient population and may prove useful in the adoptive immunotherapy of melanoma.
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PMID:Generation of human autologous melanoma-specific cytotoxic T-cells using HLA-A2-matched allogeneic melanomas. 240 72

Primary infection with EBV during acute infectious mononucleosis (IM) is associated with a cytotoxic response against allogeneic target cells. C depletion with anti-CD3 (OKT3) and anti-CD8 (OKT8) mAb decreased the allogeneic cytolysis of two EBV-infected lymphoblastoid cell lines (LCL) by 96% and 89%, respectively. Complement depletion with the NK cell-specific mAb Leu-11b and NKH-1a resulted in only a slight decrease (less than 35%) in the lysis of these LCL. mAb inhibition studies with OKT3 and OKT8 inhibited the allogeneic lysis of two LCL by 87% and 82%, respectively. The alloreactive cytotoxic response was strongly inhibited by mAb specific for MHC class I determinants (W6/32, 65% inhibition and BBM.1, 58% inhibition). Acute IM lymphocytes lysed the allogeneic EBV-negative cell lines HSB2 (45%) and HTLV-1 T cell lines (16%). NK cell-depleted lymphocytes from an acute IM patient demonstrated preferential lysis of K562 transfected with human HLA-A2 (73%) compared with the K562 transfected control (20%). Cold target competition studies with allogeneic and autologous target and competitor LCL demonstrated no significant competitive inhibition between allogeneic and autologous cells. We interpret these results as evidence that 1) the acute IM-alloreactive cytotoxic response is mediated primarily by CTL; 2) these alloreactive CTL lyse allogeneic target cells irrespective of EBV antigenic expression; 3) MHC class I expression is sufficient for allogeneic recognition and lysis of target cells; 4) distinct effector CTL populations mediate lysis of autologous and allogeneic target cells; and 5) during acute IM, EBV infection results in the induction of both virus-specific and alloreactive CTL populations.
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PMID:Characterization of the T cell-mediated cellular cytotoxicity during acute infectious mononucleosis. 247 49

To test the hypothesis that susceptibility to NK cell-mediated cytolysis varies inversely with the levels of target cell class I HLA expression, NK-susceptible K562 and MOLT-4 target cells have been transfected via electroporation with cloned human class I HLA-A2 and HLA-B7 genes. Stably transfected cells expressing varying levels of cell-surface class I HLA have been selected by fluorescent activated cell sorting and tested for susceptibility to NK-mediated cytolysis by freshly isolated peripheral blood NK cells from nine normal volunteers as well as by cloned human NK effectors and tumor cells from a patient with an NK cell lymphoproliferative disorder. Expression of class I HLA did not alter the susceptibility of K562 or MOLT-4 target cells to NK-mediated cytolysis by any of the effectors tested. In addition, the class I HLA-expressing transfectant cells were identical to mock transfected cells in their ability to compete for lysis in cold target inhibition assays. Treatment of both mock-transfected and class I HLA-transfected K562 cells with IFN-gamma resulted in decreased susceptibility to NK-mediated cytolysis which was independent of the total level of class I HLA expression. These results demonstrate that the level of target cell class I HLA expression is not sufficient to determine susceptibility or resistance to NK-mediated cytolysis of the classical NK targets K562 and MOLT-4.
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PMID:Susceptibility to natural killer cell-mediated cytolysis is independent of the level of target cell class I HLA expression. 249 7

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