Donor-specific cytokine production by graft-infiltrating lymphocytes induces and maintains graft vascular disease in human cardiac allografts

Patterns of de novo allo B cells and antibody formation in chronic cardiac allograft rejection after alemtuzumab treatment

Even though the etiology of chronic rejection (CR) is multifactorial, donor specific antibody (DSA) is considered to have a causal effect on CR development. Currently the antibody-mediated mechanisms during CR are poorly understood due to lack of proper animal models and tools. In a clinical setting, we previously demonstrated that induction therapy by lymphocyte depletion, using alemtuzumab (anti-human CD52), is associated with an increased incidence of serum alloantibody, C4d deposition and antibody-mediated rejection in human patients. In this study, the effects of T cell depletion in the development of antibody-mediated rejection were examined using human CD52 transgenic (CD52Tg) mice treated with alemtuzumab. Fully mismatched cardiac allografts were transplanted into alemtuzumab treated CD52Tg mice and showed no acute rejection while untreated recipients acutely rejected their grafts. However, approximately half of long-term recipients showed increased degree of vasculopathy, fibrosis and perivascular C3d depositions at posttransplant day 100. The development of CR correlated with DSA and C3d deposition in the graft. Using novel tracking tools to monitor donor-specific B cells, alloreactive B cells were shown to increase in accordance with DSA detection. The current animal model could provide a means of testing strategies to understand mechanisms and developing therapeutic approaches to prevent chronic rejection.

Interferon-γ Axis in Graft Arteriosclerosis

Cardiac transplantation is the most effective treatment for advanced heart failure. Despite improvements in immunosuppression therapy that prevent acute rejection, cardiac allografts fail at rates of 3% to 5% per posttransplant year. The hallmark morphological lesion of chronically failing cardiac allografts, also seen in chronic renal and liver graft failure, is luminal stenosis of blood vessels, especially of conduit arteries. Late graft failure results from widespread secondary ischemic injury to the graft parenchyma rather than direct immune-mediated damage. Although this process affects the entire graft vasculature, graft arteriosclerosis is a suitable term to describe the problem because it applies to different types of failing organs and because it emphasizes the central feature, namely an accelerated form of arterial injury and remodeling. The precise pathogenesis of graft arteriosclerosis is unknown. In this review, we make the case that the signature T-helper type 1 cytokine, interferon (IFN)-γ, is a key effector in graft arteriosclerosis, which, together with the IFN-γ–inducing cytokine interleukin-12 and IFN-γ–inducible chemokines such as CXCR3 ligands, constitute a positive feedback loop for T-cell activation, differentiation, and recruitment that we refer to as the IFN-γ axis. We evaluate the evidence to support this hypothesis in clinical observational and experimental animal studies. Additionally, we examine the regulation of IFN-γ production within the artery wall, the effects of IFN-γ on vessel wall cells, and the outcome of therapeutic agents on IFN-γ production and signaling. These observations lead us to suggest that new therapies for graft arteriosclerosis should be optimized which focus on reducing IFN-γ synthesis or actions.

Heparin Displaces Interferon-γ–Inducible Chemokines (IP-10, I-TAC, and Mig) Sequestered in the Vasculature and Inhibits the Transendothelial Migration and Arterial Recruitment of T Cells

Background— Heparin, used clinically as an anticoagulant, also has antiinflammatory properties and has been described to inhibit interferon (IFN)-γ responses in endothelial cells. We investigated the effects of heparin on the IFN-γ–inducible chemokines IP-10/CXCL10, I-TAC/CXCL11, and Mig/CXCL9, which play important roles in the vascular recruitment of IFN-γ–producing Th1 cells through interactions with their cognate receptor, CXCR3.

Methods and Results— Patients undergoing coronary artery bypass grafting were studied because coronary atherosclerosis is recognized as a Th1-type inflammatory disease and the subjects required systemic heparinization. Plasma levels of IP-10, I-TAC, and Mig increased immediately after heparin administration and diminished promptly after heparin antagonism with protamine. These effects were independent of detectable circulating IFN-γ or the IFN-γ inducer interleukin-12. We confirmed previous reports that heparin inhibits the IFN-γ–dependent production of CXCR3 chemokine ligands using atherosclerotic coronary arteries in organ culture. In addition to prolonged treatment decreasing chemokine secretion, heparin rapidly displaced membrane-associated IP-10 from cultured endothelial cells that did not express CXCR3 and reduced the IP-10–dependent transendothelial migration of T helper cells under conditions of venular shear stress. Finally, heparin administration to immunodeficient mouse hosts decreased both the recruitment and accumulation of memory T cells within allogeneic human coronary arteries.

Conclusions— Besides inhibiting IFN-γ responses, heparin has further immunomodulatory effects by competing for binding with IP-10, I-TAC, and Mig on endothelial cells. Disruption of CXCR3 + Th1 cell trafficking to arteriosclerotic arteries may contribute to the therapeutic efficacy of heparin in inflammatory arterial diseases, and nonanticoagulant heparin derivatives may represent a novel antiinflammatory strategy.

Influence of IFN-γ polymorphism on the development of coronary vasculopathy after cardiac transplantation

BACKGROUND

The development of coronary vasculopathy (CV) limits survival after cardiac transplantation. Interferon (IFN)-gamma is an important immunomodulator affecting the growth and function of T cells and macrophages, free radical formation, adhesion molecule, and MHC class I and II expression, which are important processes for CV formation. IFN-gamma is expressed early after transplantation and neutralization or genetic absence of the cytokine can abrogate CV development. The expression of IFN-gamma is influenced by a dinucleotide repeat in the first intron of the IFN-gamma gene. We investigated the effect of this polymorphism on the development of CV.

METHODS

Using sequence specific primers to the IFN-gamma polymorphic region, polymerase chain reaction (PCR) and gel electrophoresis identified the genotype in 144 cardiac transplant recipients and 134 donors. An association was sought between the presence of a high, intermediate or low IFN-gamma producing genotype and the development of CV diagnosed by routine surveillance posttransplant angiography.

RESULTS

High, intermediate, and low IFN-gamma producers made up 29.2%, 44.4%, 26.4% and 24.6%, 40.3%, 35.1% of recipients and donors respectively (p = NS). IFN-gamma polymorphism in cardiac graft recipients had no impact on the time to first diagnosis of CV; high producers 4.03 years (+/- 129.9 days), intermediate producers 3.40 years (+/- 79.7 days), low producers 4.01 years (+/- 102.9 days); p = 0.16. Similar results were found on investigating donor polymorphism; high producers (3.68 years +/- 120.1 days), intermediate producers (3.83 years +/- 105.9 days), low producers (3.3 years +/- 77.7 days); p = 0.35. Multivariate analysis identified the number of rejection episodes of ISHLT grade 3 or greater and increasing donor age to be independent risk factors for CV development.

CONCLUSIONS

Dinucleotide repeat polymorphism in the first intron of the human IFN-gamma gene does not influence CV development and cannot be used as a genetic risk marker.

Interferon-gamma plays a nonredundant role in mediating T cell-dependent outward vascular remodeling of allogeneic human coronary arteries

Vascular remodeling (change in vessel diameter) rather than intimal hyperplasia is the most important predictor of luminal loss in immune-mediated arterial injury, yet little is known about its mechanisms. Here, we show that outward vascular remodeling and intimal thickening, two manifestations of arteriosclerosis with opposing effects on luminal size, result from immune effector mechanisms that are T-cell dependent and interferon (IFN)-gamma mediated. In our in vivo model of human coronary artery injury by allogeneic peripheral blood mononuclear cells, both processes occur concurrently and are characterized by T-cell infiltrates with a predominantly IFN-gamma-producing cytokine profile. Neutralization of IFN-gamma inhibits the arterial and intimal expansion, whereas administration of IFN-gamma enhances these effects. The nonredundant role of IFN-gamma in T-cell-dependent remodeling of human coronary arteries demonstrated here presents a new therapeutic target for preservation of vessel lumen in arteriosclerosis.

Coronary artery disease in the transplanted heart

Coronary artery disease in the transplanted heart limits the long-term success of cardiac transplantation. Intravascular ultrasound studies reveal a dual morphology with donor-transmitted and de novo plaques. Coronary vasomotor dysfunction may occur independently of morphological alterations. The disease is characterized by the interaction of activated T lymphocytes with cytokines and donor epicardial and microvascular endothelium. Various noxious stimuli contribute to the continuing inflammatory response. Consequently, adhesion molecule expression is upregulated, leukocytes migrate into the allograft, thrombocytes accumulate, and growth factors are expressed, finally resulting in functional and morphological chronic allograft lesions. Blocking the activation of T cells, CD4+ cytokines, and adhesion molecules may prevent endothelial injury and subsequent intimal thickening. Strategies to decrease the formation of anti-endothelial and anti-HLA-DR antibodies may also be protective, as may antiproliferative drugs, augmentation of endogenous nitric oxide bioactivity, and new immunosuppressive regimens. Revascularization procedures have a limited role in treating significant focal lesions. Retransplantation, the only definitive treatment, remains ethically controversial.

Ex vivo propagation and characterization of lymphocytes from rejecting rat-kidney allografts

Today, most clinically used methods for analysis of alloreactivity in organ transplantation are based on humoral immunity. In order to study the cellular alloresponse, a rat kidney transplantation model with culturing of graft infiltrating lymphocytes was developed. Kidney transplantations between inbred rat strains were performed with the animals initially immunosuppressed with cyclosporine. In order to initiate acute cellular rejection, immunosuppression was withdrawn after 10 days. Infiltrating lymphocytes were analysed using an in vitro culture system, allowing cells to propagate from the biopsies to culture medium. The propagated cells were counted and analysed for subtype activation markers and donor-specificity using flow cytometry and a proliferation assay. Syngeneically transplanted animals and animals given constant immunosuppression upon transplantation were used as controls. During rejection, significantly more T lymphocytes were propagating from the biopsies compared to controls. A higher percentage of the propagated T lymphocytes in the rejection group expressed activation markers [CD25 and major histocompatibility complex (MHC) class II antigen] compared to spleen- and peripheral blood T lymphocytes from the same individuals. Propagated mononuclear cells from biopsies in the rejection group were proliferating and showed donor-specific reactivity whereas mononuclear spleen cells from animals in the same group did not show this donor specificity. In conclusion, we have presented a rat kidney allotransplantation model with in vitro propagation of graft-infiltrating, activated and donor-specific T lymphocytes. This technique offers a possibility to study cellular reactivity in allotransplantation.

Intragraft platelet-derived growth factor-alpha and transforming growth factor-beta1 during the development of accelerated graft vascular disease after clinical heart transplantation

This study was to determine whether the growth factors platelet-derived growth factor-alpha (PDGF-alpha) and transforming growth factor-beta1 (TGF-beta1) contribute to the development of graft vascular disease (GVD) after clinical heart transplantation. We analysed intragraft PDGF-alpha and TGF-beta1 messenger RNA (mRNA) expression levels by competitive template reverse transcriptase polymerase chain reaction (RT-PCR). Endomyocardial biopsies (EMB) were obtained at 1 and 9 months post-transplant from cardiac allograft recipients with (n = 11) and without (n = 11) angiographic evidence of GVD at 1 year. In 1-month EMB, comparable TGF-beta1 mRNA levels were found in patients with and without GVD at 1 year (p = 0.84, Mann-Whitney U-test). In contrast, in 9-month EMB during the development of GVD, intragraft mRNA levels of both PDGF-alpha (p = 0.08) and TGF-beta1 (p = 0.03) were higher in patients with GVD after the first year compared to patients without GVD. These results suggest that intragraft PDGF-alpha and TGF-beta1 play a role in the pathogenesis of accelerated GVD after clinical heart transplantation.

Modulation of coronary vasomotor tone by cytokines in cardiac transplant recipients

BACKGROUND

Upon exposure to cytokines, endothelial cells may undergo profound alterations of vasomotor function. In this study, we characterized the relationship between coronary epicardial and microvascular vasomotor function and expression of specific cytokine patterns in human heart transplant recipients.

METHODS

We studied 49 cardiac transplant recipients, without acute rejection or infection at an average of 6+/-3 months after transplantation. Coronary resistance vessel function was measured in an endothelium-dependent manner with acetylcholine (5 and 150 microg/5 min; intracoronary injection) and in an endothelium-independent manner with adenosine (400 and 800 microg/5 min; intracoronary injection) using an intracoronary Doppler flow wire. Simultaneous epicardial diameter changes were measured using quantitative coronary angiography. Coronary sinus and aortic serum levels of soluble interleukin (IL)-2 receptor and soluble tumor necrosis factor-a receptors (sTNF-R1 and sTNF-R2), TNF-alpha, and IL-6 were determined. Transcardiac cytokine release (coronary sinus minus aortic levels) was correlated with coronary vasomotor function.

RESULTS

The highest amounts of cardiac cytokine release were observed for IL-6 (32+/-14% increase) and sTNF-R1 (26+/-13% increase). A significant inverse correlation between microvascular endothelial function and cardiac release of soluble IL-2 receptor (P=0.04) and IL-6 (P=0.03) was detected, whereas a positive correlation was observed to sTNF-R1 (P=0.004). Distal epicardial endothelial vasomotion was inversely correlated to transcardiac sTNF-R2 release (P=0.03).

CONCLUSIONS

Cytokine production and activation, a common phenomenon early after heart transplantation, is related at least in part to endothelial vasomotor dysfunction of the epicardial and microvascular compartment. These results support the hypothesis that coronary endothelial dysfunction after cardiac transplantation is an immunologic phenomenon. Since endothelial dysfunction seems to be a crucial step in the pathogenesis of cardiac allograft vasculopathy, coronary cytokine suppression should be a therapeutic target of improved future immunosuppressive regimens.

Possible role of proinflammatory cytokines in heart allograft coronary artery disease

Transplant coronary artery disease (Tx-CAD) is the main determinant of long-term prognosis after heart transplantation. Immunologic processes may play a central role in the development of Tx-CAD, but the pathogenesis has not been fully clarified. We examined plasma levels of the proinflammatory cytokines tumor necrosis factor-alpha (TNF-alpha), interleukins (IL)-1beta and IL-6, and the CC-chemokine macrophage chemoattractant protein-1 (MCP-1) in 62 cardiac allograft recipients undergoing yearly heart catherization with coronary angiography for evaluation of graft disease. In this cross-sectional study, we found significantly increased levels of IL-1beta, IL-6, TNF-alpha, and MCP-1 compared with healthy controls even several years (median 7 years) after transplantation in periods with no intercurrent illness. Although no significant differences were found in plasma levels of IL-1beta and TNF-alpha between patients with (n = 25) and without (n = 37) Tx-CAD, the Tx-CAD group had significantly increased levels of IL-6 and MCP-1 compared with both controls and transplant recipients without Tx-CAD. Increased IL-6 levels compared with controls were found only in patients with Tx-CAD. Finally, while there was no significant relation between Tx-CAD and altered lipid status, the combination of high plasma concentrations of IL-6 or MCP-1 and high low-density lipoprotein cholesterol was strongly associated with increased occurrence of Tx-CAD. These findings indicate that cardiac allograft recipients have a persistent immune activation long term after transplantation. This activation, as particularly reflected in increased MCP-1 and IL-6 levels, may be related to the development of Tx-CAD.

The frequency and avidity of committed cytotoxic T lymphocytes (cCTL) for donor HLA class I and class II antigens and their relation with graft vascular disease

Cellular immune processes may trigger the development of graft vascular disease (GVD). CD4 and CD8 cytotoxic T lymphocytes that infiltrate the allograft could play a role in the development of GVD. We studied the presence of in vivo primed or committed CTL (cCTL) and their avidity for donor HLA class I and class II antigens in graft-infiltrating lymphocyte cultures propagated from endomyocardial biopsies derived from patients with and without signs of GVD. The fraction of cCTL with high avidity for HLA class I or class II antigens was estimated by the addition of anti-CD8 or anti-CD4 MoAbs to the cytotoxic phase of the limiting dilution analysis. In the first year after transplantation no difference in the frequency of donor-specific class I cCTL between patients with and without GVD was found. Addition of anti-CD8 MoAb revealed that most cultures predominantly consisted of cCTL with low avidity for donor HLA class I antigens, irrespective of the development of GVD at 1 year after transplantation. However, in patients who did not develop GVD, the frequency of cCTL with donor HLA class II specificity was significantly higher than in patients who did develop GVD. The avidity for donor HLA class II antigens was comparable in both groups. A high frequency of donor-specific cCTL for HLA class II antigens seems to be a protective factor against the development of GVD. These cCTL might be cytotoxic for cells involved in GVD development, e.g. activated endothelium and smooth muscle cells of donor origin.