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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Atherosclerotic lesions show features of a cell-mediated immune inflammatory process. From this viewpoint, the potential role of arterial endothelium in the recruitment of mononuclear cells (T lymphocytes and macrophages) was studied. The endothelium of diffuse intimal thickening (DIT) and atheromatous plaques (AP) in human coronary arteries and abdominal aortas was characterized for the expression of adhesion molecules ELAM-1, ICAM-1, and the major histocompatibility complex (MHC) class II antigens HLA-DR/DP. A marked increase in expression of ICAM-1 and ELAM-1, and to a lesser extent HLA-DR/DP was observed on endothelial cells that were adjacent to subendothelial infiltrates of T lymphocytes (CD3+, CD11a+, HLA-DR/DP+) and macrophages (CD14+, CD11a+, CD11c+, HLA-DR/DP+). This contrasted with a lower or absent expression of these activation markers at sites without prominent inflammatory cell infiltrates. These findings could be demonstrated in DIT as well as in AP. The observations suggest that cytokines produced by the subintimal infiltrates may activate the endothelium in a similar way as is observed in the microvasculature at sites of immune inflammation. The expression of these activation markers in the microvasculature is associated with enhanced leukocyte adhesion, permeability for macromolecules, and procoagulant activity, features known to occur also in early experimental atherosclerosis. The findings therefore support the concept that arterial endothelium plays an active role in the recruitment of mononuclear cells in atherosclerotic lesions.
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PMID:Adhesion molecules on the endothelium and mononuclear cells in human atherosclerotic lesions. 128 21

Occlusive disease of coronary arteries of engrafted hearts is the major obstacle to long-term survival of human cardiac allografts. The pathogenesis of this process remains uncertain. The identity and localization of cells found in transplantation-associated arteriosclerosis lesions from human cardiac allografts were evaluated, and their expression of class II major histocompatibility complex (human leukocyte antigen-DR [HLA-DR]), surface molecules required for recognition of foreign cells by CD4+ T lymphocytes, was noted. Expanded intimas of transplanted coronary arteries contain T lymphocytes (both CD4+ and CD8+ in approximately equal number) and HLA-DR+ macrophages, both localized primarily in a ring immediately below the luminal endothelium, a distribution strikingly different from that in typical atherosclerosis. Coronary arterial endothelium from six of six transplanted hearts studied bore high levels of HLA-DR. Normal human arteries or usual atherosclerotic lesions have few if any HLA-DR+ endothelial cells. The significance of these findings was tested by evaluating the ability of HLA-DR+ arterial cells to interact with allogeneic T cells in vitro. Endothelial cells (but not smooth muscle cells) cultured from human arteries stimulated foreign CD4+ T cells to proliferate and augmented their secretion of interleukin-2. These findings suggest that ongoing stimulation of recipient T lymphocytes by HLA-DR+ endothelium of donor coronary arteries contributes to a sustained regional immune response. Consequent local release of cytokines may regulate smooth muscle cell proliferation and matrix accumulation within the coronary arteries of allografted hearts.
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PMID:Human coronary transplantation-associated arteriosclerosis. Evidence for a chronic immune reaction to activated graft endothelial cells. 201 71

Chronic rejection has several histological appearances, depending on the type of organ graft. Common to all of them is transplant arteriosclerosis associated with an ongoing inflammatory response in the transplanted graft. To the contrary of classical atherosclerosis, in which the manifestations are mostly focal, proximal, and asymmetric, transplant arteriosclerosis is generalized, and the intimal thickening is concentric. In this article, we describe an experimental animal model whereby transplant arteriosclerosis may be investigated in the inbred rat. Aortic allografts were transplanted from DA (RTIa) to major histocompatibility complex-incompatible WF (RTIv) rats or, for control, to rats of the DA strain. Transplantation was followed by an acute inflammation episode in the aortic adventitia of the allograft, largely lacking in the syngeneic graft, with a prominence of lymphoid activation markers (Cd25) in the cells of the inflammatory infiltrate. The inflammation episode peaked at 2 months after transplantation, became attenuated, and was followed by a proliferative response of myocytes in the allograft media. An increase in the migration of myocytes to the subendothelial space (presumably through small breaks generated in the internal elastic lamina) was observed thereafter, and myocyte proliferation continued in the intima with some intermingled macrophages. Finally, necrosis and disappearance of myocytes and their replacement by fibrous tissue were observed in the media. These alterations are virtually identical with the vascular lesion of chronically rejecting parenchymal organ transplants in human subjects. We suggest that aortic allografts exchanged between histoincompatible rat strains may be used as an experimental model for transplant arteriosclerosis.
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PMID:Chronic rejection in rat aortic allografts. An experimental model for transplant arteriosclerosis. 202 5

Endothelialization of the inner face of a prosthesis appears to improve patency of small caliber arterial substitutes. The importance of understanding the factors that affect human endothelial cell behavior is highlighted by failure of vascular prosthetic grafts to endothelialize when implanted in man. In the present study, endothelial cells isolated from microvasculature are used for their ability to be easily selected from human adult fat, their proliferative capacity, and for their immunologic properties relevant to human pathology: allograft implantation, vessel injury or atherosclerosis. The system described provides a tool for assessing the individual roles of shear stress in modulating endothelial cell morphology and major histocompatibility complex (MHC) antigen expression. Using indirect immunofluorescent staining, initial results showed a homogenous increase of class I and appearance of class II expression after an exposure for 30 hr to physiologic arterial values. Significantly increased staining intensity was observed following exposure to supraphysiologic values. Moreover, precoating of substrate with fibronectin instead of poly-L-Lysine enhanced MHC straining intensity. Scanning electron microscopy (SEM) confirmed the activated morphology of stained cells. This provides a model to study involvement of MHC expression in endothelial cell activation under physical constraints. It may contribute to the development of biomaterial for implantation.
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PMID:Shear stress affects expression of major histocompatibility complex antigens on human endothelial cells. 259 66

Experimental Marek's disease virus (MDV) infection in chickens was used to study the early pathogenesis of virus-induced atherosclerosis. Previous investigations using this model have reported the occurrence of atherosclerotic lesions after approximately 7 months postinfection. In this study, a total of 75 susceptible Cornell P-line chickens were inoculated intraperitoneally with the CU-2 strain of MDV at 3 days of age and subsequently perfused for histologic examination. At 2, 4, 8, 13, and 20 weeks postinoculation, the ascending aorta and the brachiocephalic and coronary arteries were evaluated for early changes. Expression of class II major histocompatibility complex (Ia) antigen by the vascular endothelium was demonstrated by indirect immunodetection as early as 2 weeks after virus inoculation. This change was followed by significant thickening of the intimal layer associated with mononuclear cell infiltration. All the arteries examined from the MDV-infected chickens were affected. Preliminary immunohistochemical staining showed the presence of CD3+ CD4+, and CD8+ cells among the infiltrating cells. The results suggest that an immunopathologic mechanism may be involved in the early pathogenesis of MDV-induced atherosclerosis in chickens.
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PMID:Endothelial MHC class II antigen expression and endarteritis associated with Marek's disease virus infection in chickens. 748 15

Atherosclerotic lesions contain multiple cell types including smooth muscle cells, macrophages, and T lymphocytes. The development of an extralymphatic T lymphocyte focus of inflammation in this condition requires chemoattractant-induced cell migration and growth factor-induced cell activation. In a previous study, we described a novel 13-15-kDa T lymphocyte-specific chemotactic cytokine, endothelial cell-derived lymphocyte chemoattractant activity (ED-LCA), secreted by serotonin-stimulated bovine aortic endothelial cells that is distinct from previously identified endothelial cell-derived interleukins (IL) 1, 6, and 8. Because of the association between T lymphocyte chemotactic and growth factor activity, in the current study we investigated the effect of ED-LCA on T cell growth. We assessed its capacity to induce markers of the passage of T cells from the resting (G0) state into the G1 phase of the cell cycle, such as receptors for IL-2 (IL-2R) and transferrin (TFR) and class II major histocompatibility complex antigens (HLA-DR). Incubation of G0 freshly isolated human T lymphocytes for 48 h with chromatographically resolved, partially purified ED-LCA resulted in a threefold increase in expression of the p55 subunit of IL-2R, a threefold increase in TFR, and a twofold increase in HLA-DR. Passage into the G1 phase of the cell cycle was confirmed by cell cycle analysis employing acridine orange. Evaluation of CD4+ and CD8+ T cell subsets by double-antibody labeling demonstrated that the p55 subunit of IL-2R was induced in both T cell subsets. Although incubation of human T cells with ED-LCA alone did not induce proliferation, addition of exogenous IL-2 to T cells pulsed with ED-LCA for 24 h caused a proliferative response with a stimulation index of 3. By up-regulating functional cell surface receptors for IL-2, ED-LCA is a competence growth factor for T lymphocytes and primes them to respond to IL-2. By virtue of its effect on T cells, as a chemotactic and competence factor, this endothelial cell-derived mitoattractant could participate with other T cell growth factors like IL-2 in the recruitment and amplification of the extralymphatic T cell component of atherosclerosis.
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PMID:Serotonin-stimulated aortic endothelial cells secrete a novel T lymphocyte chemotactic and growth factor. 751 99

The early stages of atherosclerosis are characterized by penetration into the arterial intima by both T lymphocytes and monocytes. Some of these T lymphocytes show signs of activation, though the mechanisms by which they become activated are not known. The monocytes develop into macrophages and subsequently into foam cells filled with oxidized LDL (oxLDL)-derived lipids. OxLDL has been found to exert several proinflammatory effects, including enhanced adhesiveness of endothelial cells and monocytes, chemotaxis of monocytes and T cells, and T-cell activation. The enzyme-linked immunospot (ELISPOT) assay has been shown to be a sensitive method for detection of single cells secreting antibodies or cytokines. Here we have used this method to characterize the T-cell cytokine secretion pattern after exposure to oxLDL in vitro. In peripheral blood mononuclear cells from healthy donors (n = 27), a significantly enhanced number of INF-gamma-producing cells was detected by ELISPOT (P < .001) after stimulation with 5 micrograms/mL oxLDL. In contrast, production of interleukin-4 was not significantly enhanced after stimulation with oxLDL. OxLDL-induced IFN-gamma secretion and T-cell proliferation were completely inhibited by major histocompatibility complex (MHC) class II antibodies. Furthermore, oxLDL was found to enhance the antibody secretion, indicating B-cell activation. Our results indicate that oxLDL activates T cells by an MHC class II-dependent mechanism. In healthy individuals, oxLDL induces IFN-gamma, which is produced by T helper type 1-like cells. These findings demonstrate that oxLDL induces a cell-dependent immune reaction, which may play an important role in the development of atherosclerosis.
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PMID:Oxidized LDL induces enhanced antibody formation and MHC class II-dependent IFN-gamma production in lymphocytes from healthy individuals. 758 30

T lymphocytes and macrophages (M phi) have been seen to accumulate at sites of lesions in blood vessel walls, suggesting that these cells may contribute to the pathogenesis of inflammatory reactions. Tumour necrosis factor-alpha (TNF-alpha), a cytokine produced by both M phi and T lymphocytes, plays a major role in inflammatory reactions, blood vessel formation, thrombosis and atherosclerosis. We now report that secretion of TNF-alpha by cloned CD4+ rat T cells, and to a lesser degree by peripheral T cells, and M phi can be induced in vitro in the absence of antigen, in a major histocompatibility complex (MHC) class II-independent manner by integrin-mediated recognition of immobilized components of extracellular matrix such as fibronectin and laminin; the secretion of TNF-alpha by the interacting resting cells on fibronectin was partially abrogated by the presence of the Arg-Gly-Asp (RGD)-containing amino acid sequence. This T cell-M phi interaction involves CD2 and CD4 molecules and requires a signal transduced in the T cells by a protein tyrosine kinase. Thus, a multicellular interaction with extracellular matrix protein exposed as a consequence of vascular wall injury can serve to signal the secretion of TNF-alpha which induces the recruitment of additional immune cells to the developing lesion.
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PMID:Extracellular matrix induces tumour necrosis factor-alpha secretion by an interaction between resting rat CD4+ T cells and macrophages. 809 10

The accumulation of smooth muscle cells is a major phenomenon associated with the pathogenesis of lesions of atherosclerosis. Smooth muscle cell proliferation in response to the release of growth factors from neighboring cells, both smooth muscle and macrophages, is one mechanism postulated to account for the increasing numbers of smooth muscle cells as atherosclerotic lesions progress. Indeed, we recently demonstrated the B chain of platelet-derived growth factor (PDGF-B), a potent smooth muscle mitogen, within macrophages in monkey and human lesions of atherosclerosis. To further test the hypothesis that smooth muscle proliferation and/or activation (eg, expression of major histocompatibility complex proteins) plays a role in the early development of these lesions, we applied antibodies to PDGF-B, HLA-DR (a marker of cell activation), and proliferating-associated marker) on a series of early human atherosclerotic lesions from young adults in conjunction with cell-type-specific antibodies. Smooth muscle cells had previously been demonstrated to comprise a major fraction of the cell population in these lesions. In a continuing study of early and intermediate lesions of individuals ranging in age from 15 to 34 years, PDGF-B was detected within macrophages in 2 of 15 lesions. There was no evidence of HLA-DR expression by the smooth muscle cell population in any of the lesions. PCNA-positive cells comprised less than 2% of the cells in the lesions, and the majority of these were blood-borne cells (macrophages and/or lymphocytes), although a small fraction of the PCNA-positive cells were identified as smooth muscle. Concurrent PCNA and 5'-bromodeoxyuridine studies of peripheral blood monocytes demonstrated the presence of significant numbers of cells positive for these proliferation-related markers. It is concluded that the growth factor PDGF-B may have a role in regulating cell proliferation in early human fatty streaks, but the number of proliferating smooth muscle cells is relatively small, and there is no evidence of smooth muscle cell activation, as judged by HLA-DR positivity, in these lesions.
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PMID:Human atherosclerosis. IV. Immunocytochemical analysis of cell activation and proliferation in lesions of young adults. 809 70

An association between cytomegalovirus infection, cardiac allograft rejection, and atherosclerosis has been described. It has been suggested that cytomegalovirus induces major histocompatibility complex antigen expression in the graft and may trigger rejection. The induction of major histocompatibility complex antigens is thought to be mediated by interferon-gamma produced by activated T cells during the infection. To study whether cytomegalovirus infection induces major histocompatibility complex class II antigen expression in heart endothelium, cultured rat heart endothelial cells were infected with rat cytomegalovirus. The infection was shown by cytopathic effect and immunofluorescence using monoclonal cytomegalovirus-specific antibodies. Major histocompatibility complex class II antigen expression was analyzed before and during cytomegalovirus infection by two different methods, by a fluorescence-activated cell sorter and immunoperoxidase techniques using monoclonal antibodies. Uninfected endothelial cell cultures were treated with interferon-gamma and used as positive controls of class II induction. Induction of class II antigens was recorded in cytomegalovirus-infected endothelial cell cultures, and during the course of infection the class II expression increased toward the appearance of cytopathic effect. In uninfected cells, class II was induced by interferon-gamma, but this induction could be inhibited by adding antiinterferon-gamma antibody to the cultures. However, anti-interferon-gamma did not inhibit the induction of class II caused by cytomegalovirus. In conclusion, cytomegalovirus induced major histocompatibility complex class II antigen expression in rat heart endothelial cells in vitro. This induction of class II was independent of interferon-gamma and was caused by the virus itself. Direct induction of class II antigens by cytomegalovirus in heart endothelium may also be involved in rejection mechanisms in vivo.
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PMID:Cytomegalovirus induces class II expression in rat heart endothelial cells. 803 20


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