Identification and upregulation of galactose/N-acetylgalactosamine macrophage lectin in rat cardiac allografts with arteriosclerosis.

Using differential mRNA display to uncover potential mediators associated with chronic rejection, we identified a cDNA fragment induced in Lewis to F344 rat cardiac allografts with arteriosclerosis but not Lewis syngrafts. The full-length cDNA (1.4 kb) isolated from a rat cardiac allograft cDNA library was 99% identical to galactose/N-acetylgalactosamine (Gal/GalNAc) macrophage lectin, a cell-surface receptor. This cDNA hybridized in Northern analysis with total RNA from eight cardiac allografts but not with host hearts, syngrafts, or other organs. There was a significant allograft-specific increase in transcript levels measured by reverse transcriptase PCR at days 7, 14, 28, and 75 in comparison with paired F344 host hearts (subject to same circulation but histologically normal), day-0 hearts, and syngrafts (P < 0.008, n = 4 at each time). Transcript levels in cardiac allografts were higher than those in paired host spleens (a major source of inflammatory cells) (P < 0.0001), indicating the localized nature of Gal/GalNAc lectin induction. By in situ hybridization and immunostaining, Gal/GalNAc lectin expression localized to a subset of inflammatory cells in cardiac allografts. These findings link Gal/GalNAc macrophage lectin to the chronic rejection process, as a possible mediator of macrophage infiltration.

Experimental graft arteriosclerosis. II. Immunocytochemical analysis of lesion development.

The development of progressive graft arteriosclerosis causes the majority of late deaths occurring in cardiac transplant recipients. The pathogenesis of this process remains unclear. In order to characterize the cellular composition of lesions progressively, we employed a model of graft arteriosclerosis in the rat involving untreated heterotopic cardiac allografts transplanted across minor histocompatibility barriers. Immunocytochemical studies were performed on arterial lesions in allografts removed at 15, 45, 75, and 120 days posttransplantation, using monoclonal antibodies specific for smooth muscle cells (HHF35, CGA7), monocytes/macrophages (ED1), T cells (W313), and endothelial cells (anti-vWf). We found areas of coronary intimal thickening demonstrated marked cellular heterogeneity. The earliest lesions involved the adherence of monocytes and T cells to the coronary endothelial surface. At later time points, we noted marked subendothelial accumulations of macrophages and occasional T cells in areas of intimal thickening. In contrast, smooth muscle cells were the major cell type identified in intimal lesions in 120-day-old allografts. Intimal macrophages are frequently seen in spontaneous human arteriosclerotic lesions; our findings suggest that macrophages, perhaps interacting with T cells, play an important role in the pathogenesis of graft arteriosclerosis.

Upregulation of cytokines associated with macrophage activation in the Lewis-to-F344 rat transplantation model of chronic cardiac rejection.

Lewis-to-F344 rat cardiac allografts develop chronic rejection and arteriosclerotic lesions rich in mononuclear cells (especially macrophages). This study was performed to determine whether cytokine pathways associated with macrophage activation are upregulated in hearts undergoing chronic rejection. Gene transcript levels for IFN-gamma, monocyte chemoattractant protein-1 (MCP-1), and IL-6 were measured with reverse-transcription PCR assays optimized for each gene. Gene products were confirmed by immunohistology. For all three genes, transcript levels in rat cardiac allografts increased significantly on day 7 and remained elevated on days 14 and 28 posttransplantation, as compared with naive hearts, paired host hearts, and syngrafts (P < 0.006). For the inducible genes IFN-gamma and MCP-1, high transcript levels in cardiac allografts were in contrast with low levels in host spleens. On the other hand, transcript levels for the basally expressed gene IL-6 were elevated in both organs. Immunostaining confirmed allograft-specific expression for all three cytokines and localized the gene products to infiltrating mononuclear cells in the interstitium and vasculature. The sustained expression of these cytokines in cardiac allografts undergoing chronic rejection supports the widely held hypothesis that the intimal changes associated with transplant arteriosclerosis are mediated by cellular activation and cytokine production.

Intrathymic tolerance in the Lewis-to-F344 chronic cardiac allograft rejection model.

Successful induction of donor-specific unresponsiveness by intrathymic inoculation of alloantigen in several experimental acute rejection models has led us to hypothesize that similar immune manipulations can prevent chronic rejection and development of graft arteriosclerosis in the Lewis-to-F344 rat chronic cardiac allograft rejection model. Recipient F344 rats were treated with donor (Lewis) splenocytes by intrathymic injection (i.t.) alone (10 x 10(6) cells/lobe); with donor splenocytes i.t. plus a one-time dose of ALS (1 mg) by intraperitoneal injection (i.p.); or with ALS i.p. (1 mg) alone 2 and 6 weeks prior to heterotopic Lewis heart transplantation. Control F344 recipients received saline i.t. Allografts were monitored by daily palpation, and long-term surviving grafts were harvested on day 90 for histopathologic analysis. Control allografts had 28.6% long-term survival (> 90 days) with mean graft survival of 46.7 +/- 12.2 days. At day 90 the surviving control allografts were enlarged and fibrotic with barely palpable heartbeat (mean heartbeat grade 0.29 +/- 0.18), and histologically showed diffuse moderate mononuclear cell infiltrates and advanced graft arteriosclerosis (mean vessel score 3.57 +/- 0.10 and 89 +/- 1% vessels diseased). Recipient treatment with intrathymic donor splenocytes alone significantly prolonged graft survival (89% long-term survival; mean 83.8 +/- 6.2 days, P < 0.04), but did not significantly inhibit the development of graft arteriosclerosis (score 2.98 +/- 0.53 and 79 +/- 8% diseased, P = NS). By contrast, treatment with i.t. donor splenocytes plus ALS 2 weeks prior to transplantation prolonged graft survival (100% long-term; mean 90.0 +/- 0.0 days, P < 0.04), and markedly inhibited graft arteriosclerosis (score 0.80 +/- 0.14, P < 0.05; 27 +/- 4% diseased, P < 0.05). ALS alone given two weeks prior to transplantation also prolonged graft survival (100% long-term; mean 90.0 +/- 0.0 days, P < 0.04), and inhibited graft arteriosclerosis (score 0.89 +/- 0.31, P < 0.05; 25 +/- 7% diseased, P < 0.05). However, when ALS was given 6 weeks prior to heart transplantation the beneficial effect of ALS alone was abolished, suggesting that lymphocyte depletion may have been responsible for the observed effects when ALS was administered at 2 weeks. Interestingly, intrathymic donor splenocytes plus ALS 6 weeks prior to transplantation, on the other hand, showed significant prolongation of allograft survival (100% long-term, mean 90.0 +/- 0.0 days, P < 0.04), and inhibited graft arteriosclerosis (score 0.41 +/- 0.02, P < 0.05; 16 +/- 2% diseased, P < 0.05).(ABSTRACT TRUNCATED AT 400 WORDS)

Chronic cardiac rejection: identification of five upregulated genes in transplanted hearts by differential mRNA display.

Transplant arteriosclerosis, the major manifestation of chronic rejection, develops after allogeneic (Lewis to F344) but not syngeneic (Lewis to Lewis) rat cardiac transplantation. To identify transcriptionally regulated mediators associated with chronic cardiac rejection, we adapted the differential mRNA display technique for in vivo transplant specimens. Gene transcript patterns in four allogeneic hearts showing early signs of chronic rejection were compared with those in two syngeneic hearts exposed to the same surgical procedure but histologically normal. Twelve differentially expressed cDNA bands were identified. We improved the probability of isolating one or more allograft-specific cDNAs from a single display band by first using recovered and reamplified PCR products as probes in RNA blot analysis. cDNA fragments cloned from individual bands were then used in a second RNA blot analysis, which allowed for the correlation of specific mRNA transcripts with cDNA clones. Five cDNA clones produced time-dependent, allograft-specific hybridization. Sequence analysis demonstrated that two of these cDNAs corresponded to unknown genes, whereas the other three represented known genes not previously associated with chronic rejection. The latter group included the macrophage lectin specific for galactose/N-acetylgalactosamine (a cell-surface receptor), the nuclear P1 gene (a homologue of a yeast replication protein), and a ubiquitin-like gene. Our application of the differential display technique allowed the direct identification of potential mediators under in vivo conditions that preserve the environment of the disease process--including infiltrating cell populations critical to the inflammatory response.

Early and persistent induction of monocyte chemoattractant protein 1 in rat cardiac allografts.

The early response gene for monocyte chemoattractant protein 1 (MCP-1) encodes a potent chemotactic factor that is specific for monocytes. To determine whether MCP-1 is involved in macrophage recruitment in cardiac allografts, we studied time-dependent MCP-1 gene and protein expression patterns in the heterotopic, Lewis to F-344 rat transplantation model (by reverse transcription-PCR and immunohistochemistry). There was a significant increase (8- to 12-fold) in MCP-1 gene transcripts in cardiac allografts compared with host hearts at 7, 14, and 28 days after transplantation. This induction was not observed with syngeneic transplants or hosts exposed to the same circulating cells and blood products. The MCP-1 gene product was expressed predominantly by mononuclear cells that double-stained with antimacrophage antibody (ED1) and localized to the interstitial and vascular spaces of the allografts. Immunocytochemical cell counting revealed significant increases in both MCP-1- and ED1-immunopositive cells in 7-, 14-, and 28-day allografts (in comparison with day 0 hearts). The absolute number of MCP-1-positive cells (5-7%) was lower than that of ED1-positive cells (25-34%) at all time points, suggesting that MCP-1-positive cells represent a subpopulation of activated macrophages. The persistent expression of MCP-1 in association with increased macrophage localization suggests that this inducible mediator contributes to the chronic inflammatory response following cardiac transplantation and that it may play a role in the pathogenesis of transplant arteriosclerosis.

Chronic rejection in experimental cardiac transplantation: studies in the Lewis-F344 model.

Despite recognition of chronic vascular injection by numerous investigators since the beginning of experimental and solid organ transplantation, the pathogenesis of graft arteriosclerosis remains poorly understood. We have defined a reproducible model of this disease by transplanting heterotopic cardiac grafts across minor histocompatibility barriers using inbred strains of rat. We found that long-term surviving Lewis grafts in untreated F344 recipients are subjected to a chronic rejection process which results in the development of diffuse graft arteriosclerotic lesions, indistinguishable in appearance from those seen in human cardiac grafts. Immunohistochemical studies confirm that end-stage lesions are similar in composition to human lesions, made up predominantly of vascular smooth muscle cells with occasional monocytes and T cells. Analysis of serial rejecting allografts demonstrates that a distinct inflammatory stage precedes smooth muscle cell accumulation in areas of intimal thickening, suggesting that mononuclear cells play a role in the developing lesion. Endothelial expression of class II and ICAM-1 appears to lead to early mononuclear cell adherence to the endothelium. Analysis using quantitative RT-PCR confirms that MCP-1 is expressed by ED1-positive monocyte/macrophages in rejecting cardiac grafts, suggesting that this chemoattractant may help drive mononuclear cell accumulation in the expanding intima. Immunohistochemical labelling of PDGF, TNF, and IL-1 in vascular lesions suggests that these growth factors may trigger intimal vascular smooth muscle cell proliferation in chronically rejecting allografts. Hypercholesterolemia did not enhance the severity of lesion development in long-term surviving allografts, suggesting that lipid levels are not a major etiologic factor in graft arteriosclerotic lesion formation in the Lewis-F344 model. Finally, the dietary manipulation of EFAD reduced graft infiltration by mononuclear cells and markedly diminished arterial lesion development in chronically rejecting grafts. Heparin anologues have previously been shown to inhibit proliferative vascular smooth muscle cell lesions in rats following endothelial injury (Clowes & Karnovsky 1977), and we are currently assessing the role of heparin in the therapy of graft arteriosclerosis in the Lewis-F344 model. We are also investigating the role of CD4-positive mononuclear cells in the pathogenesis of lesion development, using the anti-CD4 monoclonal antibody BWH-4 to deplete recipients of CD4-positive cells (Sayegh et al. 1991). In summary, our studies in the Lewis-F344 model suggest that monocyte/macrophages play an important role in the pathogenesis of cardiac graft arteriosclerosis. Future studies utilizing this model should help further elucidate the mechanisms resulting in--and help define potential therapies for--chronic rejection in cardiac transplantation.

CD4+ mononuclear cells induce cytokine expression, vascular smooth muscle cell proliferation, and arterial occlusion after endothelial injury.

Studies of T cell-deficient or immunosuppressed animals undergoing arterial endothelial denudation have yielded conflicting results as to the contribution of the immune system to neointimal vascular smooth muscle cell accumulation and proliferation. We investigated the cell types and cytokine expression associated with intimal hyperplasia occurring 14 days after balloon angioplasty of the carotid artery in Sprague-Dawley rats. Immunohistological studies using monoclonal antibodies showed that the carotid luminal occlusion observed was associated with smooth muscle cell proliferation and neointimal accumulation of large numbers of CD4+, ED1+ mononuclear cells but no T cells. There was also wide-spread staining for the inflammatory cytokine interleukin-1B (IL-1 beta), tumor necrosis factor-alpha (TNF-alpha), and IL-8, as well as dense expression of the potent smooth muscle mitogens platelet-derived growth factor (PDGF), transforming growth factor-beta (TGF-beta), and protein S. The relationship of smooth muscle cell proliferation to monocyte/macrophage accumulation and cytokine expression was tested by daily intraperitoneal administration for 14 days of a rat CD4-specific monoclonal antibody, BWH-4 (500 micrograms/day). Morphometric analysis at day 14 showed that the intimal area of animals treated with CD4 monoclonal antibody comprised 7% +/- 4% of the arterial wall compared with 50% +/- 6% in control animals (n = 6/group, P < 0.001). In addition, immunohistological studies showed that CD4 monoclonal antibody treatment markedly reduced the intimal accumulation of mononuclear and smooth muscle cells and essentially abrogated expression of the cytokines PDGF-BB, TGF-beta, IL-1 beta, TNF-alpha, and IL-8, plus the anticoagulant molecule, protein S. Our results document the extensive expression in vivo of cytokines that in vitro promote vascular smooth muscle cell proliferation, and suggest that CD4+ mononuclear cells or their secreted products play a key role in the pathogenesis of intimal hyperplasia after endothelial injury. Furthermore, these observations may have clinical relevance in the development of novel strategies to prevent arteriosclerosis.

Upregulation and modulation of inducible nitric oxide synthase in rat cardiac allografts with chronic rejection and transplant arteriosclerosis.

BACKGROUND: The Lewis-F344 rat cardiac transplantation model produces cardiac allografts with chronic rejection characterized by arteriosclerotic lesions composed of macrophages and smooth muscle cells. Modulation of the inflammatory response with a diet deficient in essential fatty acids protects against the development of intimal thickening. Little is known about the components of the inflammatory response mediating this process. The cytokine-inducible isoform of nitric oxide synthase (iNOS) regulates the high-output nitric oxide pathway that confers activation properties to macrophages and regulates vasomotion, monocyte adherence, and smooth muscle cell proliferation in the vasculature. The purpose of the present study was to determine whether the iNOS pathway was upregulated during the course of chronic cardiac rejection. METHODS AND RESULTS: We studied iNOS mRNA and protein expression patterns in a series of Lewis-F344 cardiac allografts with early and late chronic rejection and after modulation of the inflammatory response (in an effort to attenuate arteriosclerosis). Relative gene transcript levels were measured with a 32P-dCTP reverse-transcriptase polymerase chain reaction assay designed to amplify iNOS mRNA. The distribution of the iNOS gene product was examined by immunocytochemistry with a polyclonal antibody against iNOS. NOS transcript levels increased significantly in cardiac allografts (days 7, 14, 28, and 75) compared with paired host hearts (exposed to the same circulation) and syngrafts (P < .003). Immunostaining localized the iNOS antigen within subpopulations of mononuclear inflammatory cells in cardiac allografts--presumably, activated macrophages. The number of iNOS-positive mononuclear cells was 25-fold higher in cardiac allografts compared with paired host hearts and syngrafts (P < .009). In cardiac allografts of 75 days or older, there also was striking iNOS staining within some medial and intimal smooth muscle cells in various vessels. Modulation of the inflammatory response (with a diet deficient in essential fatty acids) produced significant decreases in the intimal thickening score and in the percentage of diseased vessels in 28-day cardiac allografts compared with allografts from rats fed a control diet. There was a correlate decrease in iNOS transcript levels and in the number of iNOS-positive mononuclear cells in the 28-day cardiac allografts from rats fed the essential fatty acid-deficient diet. CONCLUSIONS: The early and persistent upregulation of iNOS in chronic cardiac rejection and the coincident reduction in arteriosclerosis and downregulation of iNOS suggest that this inducible regulator may contribute to the inflammatory response mediating transplant arteriosclerosis.