UMLS:C0033036 - FACTA Search

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined mechanisms of tolerance to circulating self-proteins in mice that are transgenic for human insulin. Normal, nontransgenic mice develop serum antibody responses when injected with human insulin in CFA; syngeneic transgenic mice do not. B cell responsiveness was assessed by immunizing with human insulin coupled to a T-independent Ag, Brucella abortus. No differences were found in the numbers of insulin-specific splenic plaque-forming cells between transgenic and nontransgenic mice suggesting that insulin-specific B cells are not tolerant in transgenic mice. Similarly, APC from transgenic and nontransgenic mice display no differences in their ability to process and present human insulin to human insulin-specific T cells in vitro. However, marked differences were detected between transgenic and nontransgenic T cells. Lymph node T cells from transgenic mice primed with human insulin provided no detectable helper activity for secondary antibody responses to human insulin whereas, lymph node T cells from nontransgenic mice did. Nevertheless, lymph node T cells from transgenic mice developed significant proliferative responses to human insulin. Lymph node T cells obtained from transgenic and nontransgenic mice were fused to BW5147 and human insulin-specific T cell hybridomas were generated. The fact that human insulin-specific T cell hybridomas were obtained from the transgenic mice suggests that these T cells were not clonally deleted. In addition, APC from transgenic mice did not stimulate human insulin-specific hybridomas from normal mice in the absence of exogenous insulin. We suggest that T cells specific for human insulin are not deleted in the thymus of transgenic mice because APC in the thymus do not bear the requisite levels of endogenous human insulin/Ia complexes. Therefore, we conclude that tolerance in the transgenic mice is preserved by peripheral mechanisms.
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PMID:A peripheral mechanism preserves self-tolerance to a secreted protein in transgenic mice. 197 65

In this report we describe a system for the generation of functional, class I MHC-restricted, T-T hybridomas. The BW5147 cell line was transfected with the CD8 gene. BW5147 transfectants were obtained that stably expressed CD8 and this expression was maintained after somatic cell hybridization with activated T lymphocytes. To determine whether the stable expression of CD8 would facilitate the generation of class I MHC-specific T-T hybridomas, the transfected cells were fused with alloreactive T cells and the resultant hybrids were screened for their ability to produce lymphokines in response to antigenic stimulation. Somatic cell hybridizations with BW5147-CD8 transfectants give rise to a much higher frequency of class I MHC-specific T-T hybridomas relative to parallel fusions with BW5147. To determine whether the BW5147-CD8 transfectants would also support the generation of Ag-specific, class I MHC-restricted T-T hybridomas, they were fused with OVA-specific CTL. Several T-T hybrid clones were identified that produced lymphokines after stimulation with a transfected APC that was synthesizing OVA, or with a tryptic digest of OVA in the presence of syngeneic APC. The stimulation by Ag was MHC-restricted and mapped to the Kb molecule. An anti-CD8 mAb inhibited the stimulation of these hybridomas by Ag plus APC, whereas their stimulation by mitogen was unaffected. Cytolytic activity was not detected when several of the OVA-specific or alloreactive hybridomas were tested for their ability to kill target cells bearing the appropriate Ag. These results demonstrate that the BW5147-CD8 transfectants allow the generation of class I MHC-restricted T-T hybridomas. The potential utility of this system is discussed.
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PMID:Generation of class I MHC-restricted T-T hybridomas. 211 42

Soluble ligands specific for cell surface molecules involved in APC-T cell interactions can signal cells and modulate immune responses. Recently, we reported that LFA3TIP, a fusion protein comprised of the first LFA-3 extracellular domain fused to the hinge, CH2, and CH3 regions of a human IgG1 inhibits proliferation of human T cells in vitro. We report herein the cell-based mechanism(s) of LFA3TIP in inhibition by studying the effects of structurally altered LFA3-Ig fusion proteins on proliferation of human PBL in vitro and on responses of mice transgenic for human CD2. We show that LFA3TIP inhibition requires expression of both the LFA-3 and CH2 domains of the fusion protein that bind CD2 and Fc gamma RI or Fc gamma RIII, respectively. LFA3TIP forms an intracellular Fc gamma R/CD2 bridge and directs cytolysis of CD2+ cells by freshly drawn human PBL in vitro as well as the non-C-mediated depletion of peripheral T cells of human CD2 transgenic mice. The cell-based mechanism(s) of LFA3TIP inhibition are discussed.
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PMID:Mechanism of lymphocyte function-associated molecule 3-Ig fusion proteins inhibition of T cell responses. Structure/function analysis in vitro and in human CD2 transgenic mice. 751 25

Since mouse keratinocytes are tolerogenic antigen presenting cells for T cell activation, the expression of second signal molecules such as B7-1 was targeted to epidermal keratinocytes (KC) in vivo in transgenic mice. The expression vector used to create transgenic mice consisted of a keratin 14 promoter fused 5' to the full length open reading frame of the cDNA encoding mouse B7-1 (between 10 and 30 copies of the transgene per genome). Expression of B7-1 cell surface protein was assessed by in situ immunostaining of cryostat sections of tail skin with CTLA-4/Ig fusion protein, revealing high levels of cell surface expression of B7 by all epidermal KC of transgenic mice, and a lack of such expression in nontransgenic animals. The skin of such transgenic mice (derived from three different founder mice) was grossly and histologically normal, with normal numbers of Langerhans cells and dendritic epidermal T cells. Immunologic challenge of transgenic mice with epicutaneous haptens such as fluorescein isothiocyanate revealed enhanced and persistent delayed-type hypersensitivity responses, with an altered kinetics of resolution when compared with nontransgenic controls. These data indicate that in normal, nontransgenic mice, tolerogenic antigen presentation by KC plays an important physiologic role in damping T cell-mediated inflammation in the skin by competing with professional APC for TCR occupancy in antigen specific T-lymphocytes that migrate into the epidermis. This also implies that altered regulation of B7-1 gene expression by epidermal cells may account for skin "hyperresponsiveness" encountered in some chronic dermatologic disorders.
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PMID:Exaggerated and persistent cutaneous delayed-type hypersensitivity in transgenic mice whose epidermal keratinocytes constitutively express B7-1 antigen. 751 45

To examine the specificity of T helper cells activated during murine graft-vs-host disease (GVHD), T cell hybridomas from GVHD spleens and livers were generated and analyzed. CTL-depleted C57BL/6 (B6) donor cells were injected into irradiated (B6 x bm12)F1 or (bm1 x bm12)F1 recipient mice. Five or fourteen days later, cells from livers and spleens were fused directly with the TCR-deficient (alpha beta)- BW5147 thymoma line. The in vivo-activated T cells produced hybridomas as efficiently as either T cells activated in a primary mixed lymphocyte reaction or expanded in vitro after isolation from GVHD mice. Overall, 91% (396 of 437) of hybridomas generated from GVHD animals responded to immobilized anti-CD3 and 56% (220 of 396) of these hybridomas responded specifically to APC expressing host bm1 or bm12 alloantigens. More than 80% of bm12-specific hybridomas expressed CD4; all (53 of 53) of the bm12-specific hybridomas tested reacted to homozygous bm12 APC. Of the alloreactive T hybridomas generated from B6-->(bm1 x bm12)F1 GVHD mice, 7% responded to bm1 APC. Five bm1-specific hybridomas were analyzed further. One CD4+ hybridoma recognized a bm1 peptide presented by self I-Ab and was blocked by anti-Ia Ab; the other four hybridomas, two of which also expressed CD4, responded to transfected L cells expressing H-2Kbm1 and were not inhibited by anti-Ia Ab. These results indicate that a high percentage of CD4+ T hybridomas generated from freshly isolated T cells activated in vivo during GVHD are specific for host MHC class II or class I alloantigens.
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PMID:Reactivity of hybridomas derived from T cells activated in vivo during graft-versus-host disease. 796 59

Interleukin (IL)-1 differs from most other cytokines by the lack of a signal sequence, which results in the retention of the immature proform intracellularly (i.c.). Several cell types have the capacity to produce IL-1, but release has been shown to be restricted predominantly to monocytes/macrophages and associated with apoptosis of the producer cell. These features have limited the studies on IL-1 in early T cell-APC interactions. To develop a model for studying the biological effects of IL-1 beta release during long-lasting immune responses, we have established cells transfected with IL-1 beta cDNA constructs. To construct a hybrid gene for IL-1 beta release, the signal sequence from the related IL-1 receptor antagonist was fused to the gene encoding the 17-kDa mature form of IL-1 beta. A murine fibroblast cell line was transduced with retroviral technique and analyzed for the expression of human IL-1 beta, with or without a signal sequence (ssIL-1 beta and IL-1 beta, respectively). The fibroblasts transduced with either IL-1 beta or ssIL-1 beta expressed similar levels of human IL-1 beta mRNA. High levels of IL-1 bioactivity were recorded in freeze-thaw extracts from cells expressing the IL-1 beta protein i.c., and in supernatants of ssIL-1 beta-transduced cells, which indicates that the initial formation of a proform of IL-1 beta is not required for correct folding of the protein. Treatment of ssIL-1 beta-transduced cells with Brefeldin A (BFA), an inhibitor of protein transport in the endoplasmatic reticulum, induced accumulation of the protein i.c. BFA treatment did not affect IL-1 beta-transduced cells, while lipopolysaccharide-activated human monocytes increased the secretion of IL-1 beta. Cytoplasmic staining of single cells demonstrated that expression of the ssIL-1 beta gene directed the protein to a perinuclear Golgi-like compartment, whereas cells transduced with IL-1 beta cDNA showed a diffuse cytoplasmic distribution pattern. Secretion of IL-1 beta from human monocytes was under certain conditions accompanied by cell death. In contrast, in the fibroblast cell line transduced to secrete IL-1 beta, no accompanying cell death could be detected. Gene targeting of IL-1 to the secretory or cytoplasmic pathway may be useful for elucidating the role of IL-1 in T cell-APC interactions, avoiding cell death of the producer cells.
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PMID:Fusion of a signal sequence to the interleukin-1 beta gene directs the protein from cytoplasmic accumulation to extracellular release. 862 May 50

Aberrations of the HMGIC gene, encoding an architectural transcription factor and located in the chromosomal region 12q15, are very frequent among benign mesenchymal tumors, such as lipomas, uterine leiomyomas, or pulmonary chondroid hamartomas. These HMGIC aberrations are caused by characteristic structural chromosomal aberrations, either visible by conventional cytogenetics or as cryptic abnormalities. Some of these aberrations of chromosome 12 are not specific for particular tumor entities but can occur in a variety of tumors with HMGIC abnormalities. One such example is the pericentric inversion inv(12)(p11.2q15). Starting from the ectopic sequence derived from an HMGIC fusion transcript of an aggressive angiomyxoma with such an inversion we established three PAC clones covering the breakpoint region 12p11 and cloned part of a yet unknown gene in 12p11.2, which is fused to the third exon of HMGIC. Using fluorescence in situ hybridization with these PACs we were able to show that the same region was involved by 12p11.2 aberrations in lipomas, aggressive angiomyxomas, and pulmonary chondroid hamartomas.
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PMID:Cloning and molecular characterization of part of a new gene fused to HMGIC in mesenchymal tumors. 946 69

The inner leaflet of unilamellar lipid vesicles was labeled with fluorescent lysophosphatidylcholines. The probes make a donor-acceptor pair in resonance energy transfer (RET), being labeled with 9-anthrylvinyl (L-APC, donor) and 3-perylenoyl (L-PPC, acceptor) fluorophores. They migrate rapidly between bilayers through the water phase: tau 1/2 of equilibration is approximately 5 min at 37 degrees C. The probe(s) can be removed from the outer leaflet of uniformly labeled medium-size unilamellar vesicles (MUV) by repeated washings with excess unlabeled large unilamellar vesicles (LUV) (separation by centrifugation). The probes flip-flop across bilayers rather slowly. MUV containing the ganglioside GT1b and labeled with the L-APC/L-PPC pair in the inner leaflet were fused with an equal amount of influenza virus; the process was monitored by an increase of the donor fluorescence in RET assay. If inner MUV leaflet was labeled with the anthrylvinyl probe only, the probe fluorescence decreased by half when the probe was removed from the outer leaflets of the fused membranes. This shows that the lipids of the inner and outer leaflets of the MUV randomize in the process of fusion.
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PMID:Selective labeling of the inner liposome leaflet by fluorescent lipid probes, and studies of liposome fusion with influenza virus. 955 39

The 8p11 myeloproliferative syndrome is a rare, aggressive condition associated with reciprocal translocations of chromosome band 8p11, most commonly the t(8;13)(p11;q12). To identify the genes involved in this translocation, we used fluorescence in situ hybridization (FISH) analysis to show that the chromosome 8 breakpoints fell within YAC 899e2 and that the chromosome 13 breakpoints are clustered in a region flanked by YACs 929f11 and 911h8. FISH using chromosome 13 PAC clones indicated that the t(8;13) is not simply a reciprocal translocation but also involves an inversion of 13q11-12. Exon trapping of a PAC that spanned the chromosome 13 translocation breakpoints led to the identification of a gene, ZNF198, that detected rearranged bands when used as a probe against Southern blots of patient DNA. Conceptual translation of the full-length ZNF198 cDNA sequence predicts a protein of 1377 amino acids that shows significant homology to the DXS6673E/KIAA0385 and KIAA0425 proteins. Alignment of these three proteins revealed a novel, conserved Zn-finger-related motif (MYM domain) of the general form CX2C19-22CX3CX13-19CX2CX19-25FCX3CX3F/Y that is repeated five times in each protein. To identify the translocation partner gene on chromosome 8, 5' and 3' RACE polymerase chain reactions (PCRs) were performed on patient RNA with several combinations of ZNF198 primers. Clones were identified in which the ZNF198 was fused to exon 9 of the fibroblast growth factor receptor-1 (FGFR1), a gene known to map to 8p11. An identical ZNF198-FGFR1 fusion was detected in the three patients with a t(8;13) for whom RNA was available; reciprocal FGFR1-ZNF198 transcripts were not detected. Rearrangements of both ZNF198 and FGFR1 were found in two further patients by Southern blotting. ZNF198-FGFR1 includes the five MYM domains of ZNF198 and the intracellular tyrosine kinase domain of FGFR1. We hypothesize that this fusion leads to constitutive activation of the FGFR1 tyrosine kinase in a manner analogous to the activation of ABL by BCR in chronic myeloid leukemia.
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PMID:Consistent fusion of ZNF198 to the fibroblast growth factor receptor-1 in the t(8;13)(p11;q12) myeloproliferative syndrome. 971 3

Axin is encoded by the fused locus in mice and is required for normal vertebrate axis formation. It has recently been shown that axin associates with APC, beta-catenin and glycogen synthase kinase-3 (GSK-3) in a complex that appears to regulate the level of cytoplasmic beta-catenin. We have identified the Xenopus homologue of axin through its interaction with GSK-3b. Xenopus axin (Xaxin) is expressed maternally and throughout early development with a low level of ubiquitous expression. Xaxin also shows remarkably high expression in the anterior mesencephalon adjacent to the forebrain-midbrain boundary.
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PMID:Xenopus axin interacts with glycogen synthase kinase-3 beta and is expressed in the anterior midbrain. 1007 81

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