Cytomegalovirus Latency Promotes Cardiac Lymphoid Neogenesis and Accelerated Allograft Rejection in CMV Naïve Recipients

Human cytomegalovirus (HCMV) infection is associated with the acceleration of transplant vascular sclerosis (TVS) and chronic allograft rejection (CR). HCMV‐negative recipients of latently HCMV infected donor grafts are at highest risk for developing CMV disease. Using a rat heart transplant CR model, we have previously shown that acute rat CMV (RCMV) infection following transplantation significantly accelerates both TVS and CR. Here, we report that RCMV‐naïve recipients of heart allografts from latently RCMV‐infected donors undergo acceleration of CR with similar kinetics as acutely infected recipients. In contrast to acutely infected recipients, treatment of recipients of latently infected donor hearts with ganciclovir did not prevent CR or TVS. We observed the formation of tertiary lymphoid structures (TLOs) containing macrophages and T cells in latently infected hearts prior to transplantation but not in uninfected rats. Moreover, pathway analysis of gene expression data from allografts from latently infected donors indicated an early and sustained production of TLO‐associated genes compared to allografts from uninfected donors. We conclude that RCMV‐induced TLO formation and alteration of donor tissue T cell profiles prior to transplantation in part mediate the ganciclovir‐insensitive rejection of latently infected donor allografts transplanted into naïve recipients by providing a scaffold for immune activation.     

Elimination of donor-specific alloreactivity prevents cytomegalovirus-accelerated chronic rejection in rat small bowel and heart transplants

BACKGROUND: The primary cause for late failure of vascularized allografts is chronic rejection (CR) characterized by transplant vascular sclerosis (TVS). Cytomegalovirus (CMV) infection accelerates TVS and CR by unclear mechanisms involving direct effects of CMV, indirect effects of the recipient's immune response to CMV, or interactions between CMV and the recipient's alloreactivity. This study examined the role of CMV and the alloreactive response in the development of TVS using bone marrow chimerism (BMC) in rat small bowel (SB) and heart transplantation models. METHODS: Fisher 344 (F344) rat heart or SB grafts were transplanted into F344/Lewis bone marrow chimera. F344 heart or SB grafts transplanted into Lewis recipients (low-dose cyclosporine) were positive controls for the development of TVS. Lewis heart or SB grafts transplanted into Lewis recipients (+/-cyclosporine) were transplantation controls. The effect of rat CMV (RCMV) (5x105 plaque-forming units) on TVS (neointimal index, NI) and graft survival was studied in these groups. RCMV infection was assessed by serologic analysis and quantitative polymerase chain reaction techniques (TaqMan). RESULTS: RCMV infection accelerated the time to graft CR (SB 70-38 days; hearts 90-45 days) and increased the severity of TVS in both the SB allografts (day 38, NI=27 vs. 52) and the heart allografts (day 45, NI=43 vs. 83). Grafts from CMV-infected syngeneic recipients failed to develop TVS and CR. Donor-specific tolerance induced by BMC prevented allograft TVS and CR in both transplant models. In contrast to na?ve Lewis recipients, RMCV infection failed to cause allograft TVS and CR in bone marrow (BM) chimeras. CONCLUSIONS: The events in CMV-induced acceleration of TVS involve a crucial interplay between CMV infection and the recipient's alloreactive immune response.     

Rat Cytomegalovirus Vaccine Prevents Accelerated Chronic Rejection in CMV‐Naïve Recipients of Infected Donor Allograft Hearts

Cytomegalovirus accelerates transplant vascular sclerosis (TVS) and chronic rejection (CR) in solid organ transplants; however, the mechanisms involved are unclear. We determined the efficacy of a CMV vaccine in preventing CMV‐accelerated rat cardiac allograft rejection in naïve recipients of CMV+ donor hearts. F344 donor rats were infected with RCMV 5 days prior to heterotopic cardiac transplantation into CMV‐naïve or H₂O₂‐inactivated RCMV‐vaccinated Lewis recipients. Recipients of RCMV‐infected donor hearts rejected at POD59, whereas vaccinated recipients exhibited a significantly prolonged time to rejection‐POD97, similar to recipients of uninfected donor hearts (POD108). Although all of the donor hearts were preinfected, the vaccinated recipients had lower graft and PBMC viral loads at POD 7 compared to unvaccinated controls. Adoptive T cell and passive antibody transfers from vaccinated Lewis rats into naïve recipients demonstrate that both T‐cell and B‐cell arms of the adaptive immune response provide protection against CMV‐accelerated rejection. Similar findings were obtained when testing three different adjuvants in passive transfer experiments. We have determined that the timing of the vaccine prior to transplantation and the specific adjuvant play critical roles in mediating anti‐viral responses and promoting graft survival. CMV vaccination prior to transplantation may effectively increase graft survival.     

Hyperhomocyst(e)inemia Induces Accelerated Transplant Vascular Sclerosis in Syngeneic and Allogeneic Rat Cardiac Transplants

Chronic rejection (CR) and transplant vascular sclerosis (TVS) cause the majority of graft failures in cardiac transplantation. Hyperhomocyst(e)inemia [hH(e)] is associated with human TVS without a proven causal relationship. This study investigated the effect of hH(e) on graft survival and TVS in allogeneic and syngeneic rat cardiac transplants. Lewis recipients of heterotopic F344 heart allografts, received normal or hH(e)-inducing (folate, methionine) diets [controls: syngeneic transplanted [+/- hH(e), + CsA] and nontransplanted rats [+/- hH(e), +/- CsA]]. Serial plasma homocyst(e)ine [H(e)] levels were measured. TVS was assessed in clinically rejected grafts and a subset of pre-rejection normal diet allografts (day 64) (neointimal index, NI). The hH(e) diet elevated plasma H(e) levels. When compared with normal diet controls (n = 9), hH(e) diet allografts (n = 9) had decreased time to onset of CR (40 +/- 9 vs. 72 +/- 10d, p = 0.02), and graft failure (64 +/- 10 vs. 107 +/- 12d, p = 0.009). hH(e) diet allografts at rejection (n = 9, 64d) had more severe TVS (NI = 68 +/- 2) than both time-matched normal diet allografts (NI = 49 +/- 6, n = 8, 64d, p <0.001) and normal diet allografts at rejection (NI = 58 +/- 5, n = 9, 107d, p = 0.007). hH(e) induced TVS in syngeneic grafts (NI=50 +/- 3, n = 10 vs. NI = 5 +/- 3, n = 10, 130d, p <0.001). hH(e) accelerated rejection and increased the severity of TVS in allogeneic cardiac transplants, and induced TVS in syngeneic cardiac transplants.     

Cytomegalovirus accelerates chronic allograft nephropathy in a rat renal transplant model with associated provocative chemokine profiles

BACKGROUND: Studies have shown that rat cytomegalovirus (RCMV) infection accelerates transplant vascular sclerosis (TVS) in rat heart and small bowel allotransplants. In these models, RCMV-accelerated TVS results from increased graft infiltration of inflammatory cells through up-regulation of chemokine expression. The aim of this study was to determine if RCMV infection accelerates renal transplant chronic allograft nephropathy (CAN), and the role of chemokines in this process. METHODS: F344 kidneys were transplanted into Lewis recipients with and without RCMV infection. To monitor CAN, serum creatinine (Cr) levels were measured starting at 4 weeks posttransplantation. At 7 and 21 days, and at terminal rejection, grafts were examined for histologic changes, inflammatory cell infiltrates, viral load, and chemokine expression profiles. RESULTS: By week 8, serum Cr showed significant elevation (P < .01) in the RCMV-infected group vs uninfected group, and remained significantly elevated through the end of the study. RCMV+ renal allografts had significant inflammatory cell infiltration and increased CAN at postoperative day (POD) 28. The CC chemokines RANTES, MCP-1, and MIP-1alpha, and the CXC chemokine IP-10 were up-regulated in RCMV-infected vs uninfected allografts. IP-10 was significantly up-regulated early in the process, whereas RANTES and MCP-1 were induced at a later time. CONCLUSIONS: RCMV infection accelerates CAN, with associated graft inflammatory infiltrates, which is paralleled by an increase in expression of CC and CXC chemokines. Our findings suggest that the early induction of IP-10 in the infected allografts promotes alterations in T-cell and monocyte migration to the graft, which initiates accelerated inflammatory and fibrotic changes associated with CAN.     

Cytomegalovirus-enhanced development of transplant arteriosclerosis in the rat; effect of timing of infection and recipient responsiveness

Cytomegalovirus (CMV) is put forward as a risk factor for transplant arteriosclerosis (TA). In this article, we studied CMV‐enhanced development of TA in rats in different donor/recipient combinations in relation to the timing of infection. Recipient rats transplanted with an aortic allograft (BN to Lew) were infected with rat CMV (RCMV) at different time‐points relative to transplantation. The virus‐induced effects on TA development were also determined in other strain combinations (PVG to AO and DA to WF). Finally, transmission of RCMV from aortic grafts and its effect on TA was studied. RCMV infection enhanced TA development only in Lew recipients and only after infection early post‐transplantation (days 1–5). Virus transmission to the recipient only occurred from 5 and 10 days infected aortic donor‐grafts, however without affecting TA development. These data indicate that the acute alloresponse and acute CMV infection need to occur simultaneously to enhance TA. This effect, however, appears to be strain combination dependent and therefore cannot be generalized.     

The Role of Angiogenic and Wound Repair Factors During CMV-Accelerated Transplant Vascular Sclerosis in Rat Cardiac Transplants

Human cytomegalovirus (HCMV) accelerates transplant vascular sclerosis (TVS), a consequence of angiogenesis (AG) and wound repair (WR). While HCMV can be localized to TVS lesions, the low number of infected cells suggests a global effect on target tissues. We used microarray analysis followed by real-time-polymerase chain reaction (RT-PCR) in an RCMV-accelerated TVS rat cardiac transplant model to determine whether CMV activates host WR and AG factors. Dysregulated cellular genes in allografts from RCMV-infected recipients were compared to those from uninfected recipients and native hearts. We demonstrated that RCMV upregulates the genes involved in WR and AG, which was highest during the critical time of TVS acceleration (21–28 days). Using a standard in vitro AG assay, virus and serum-free supernatants collected at 48 h postinfection significantly induced endothelial cell (EC) migration, branching and tubule formation compared to supernatants from mock-infected cells. Supernatants from ultraviolet (UV)-inactivated RCMV-infected cells failed to induce AG, indicating that virus replication is required. Upregulation of WR and AG genes occurs during the critical period of CMV-accelerated TVS. Targeting these genes may prevent this process and improve allograft survival.     

A rat small bowel transplant model of chronic rejection: histopathologic characteristics.

BACKGROUND: The major impediment to long-term success in solid organ transplantation is the development of chronic rejection (CR). The vascular lesion of CR, transplant vascular sclerosis (TVS) is characterized by neointimal smooth muscle cell proliferation, and is driven by both immune- and nonimmune-mediated mechanisms. Although the features of chronic heart and kidney allograft rejection have been well characterized, the more immunogenic small bowel allograft has not received similar study. METHODS: F344 small bowel (SB) was transplanted heterotopically into Lewis recipients that were treated with low-dose Cyclosporine A for 15 days. Lewis recipients of F344 or Lewis SB grafts without immunosuppression, served as controls. Grafts were assessed histologically when recipients showed clinical signs of rejection or at predetermined time points. The immunological components involved in the chronic rejection process were evaluated by immunohistochemical staining. RESULTS: All SB allografts (100%) developed histologic evidence of CR Cyclosporine A. TVS was seen in 36 of the 46 (78%) of these allografts. The median time to develop TVS was 45 days. Immunohistochemical staining of chronically rejected grafts showed infiltration predominantly by CD4+ cells and macrophages, uniform up-regulation of class II MHC molecule expression, moderate to intense ICAM-1 staining in grafts harvested at postoperative day 45, and uniform neointimal cell staining for smooth muscle cell alpha-actin in the TVS lesions. CONCLUSIONS: This F344 to Lewis SB transplant model is a useful model that reproduces significant features of CR. The highly immunogenic nature of the SB allografts allows this model to serve as a stringent test for protocols designed to prevent CR.     

Rat cytomegalovirus infection in kidney allograft recipients is associated with increased expression of intracellular adhesion molecule-1 vascular adhesion molecule-1, and their ligands leukocyte function antigen-1 and very late antigen-4 in the graft

BACKGROUND: Cytomegalovirus (CMV) infection is suggested to be a risk factor for chronic rejection. We have recently shown that rat CMV (RCMV) increases the inflammatory response and accelerates chronic rejection in a model of rat kidney allograft. In this study, the early inflammatory response and time-related expression of intercellular adhesion molecule-1 (ICAM-1) and vascular cell adhesion molecule-1 (VCAM-1) and their ligands, leukocyte function antigen-1 (LFA-1) and very late antigen-4 (VLA-4), in the grafts were investigated in RCMV-infected rats and compared to noninfected rats developing chronic rejection. METHODS: Transplantations were performed in a rat strain combination of DA (RT1a)->BN (RT1n) receiving triple drug immunosuppression. One group of rats was infected with RCMV, and the other was left uninfected. The grafts were harvested at different time points after transplantation. The adhesion molecules, their ligands and activation markers, MHC class II antigens and interleukin-2-receptors (IL-2-R), were demonstrated by monoclonal antibodies and immunoperoxidase staining from frozen sections of the grafts. Graft histology was evaluated according to the Banff criteria. RESULTS: RCMV caused a significant, prolonged increase of VCAM-1 and ICAM-1 expression in the vascular endothelium compared to the noninfected grafts. Also, the number of cells expressing activation markers, LFA-1 and VLA-4 was significantly enhanced in these animals. Significantly enhanced histological changes of chronic rejection were seen in the RCMV-infected group. CONCLUSIONS: Prolonged, increased expression of ICAM-1 and VCAM-1, and increased numbers of inflammatory cells expressing their ligands in the CMV infected grafts, were associated with accelerated chronic allograft nephropathy.     

Tolerance induced by bone marrow chimerism prevents transplant vascular sclerosis in a rat model of small bowel transplant chronic rejection

BACKGROUND: The major impediment to success in solid organ transplantation is chronic rejection (CR). The characteristic lesion of CR is transplant vascular sclerosis (TVS). Although the mechanism of TVS is thought to have an immunologic basis, in humans immunosuppression does not prevent or reverse it. One possible therapy to prevent TVS is induction of donor-specific tolerance. Bone marrow chimerism has been successful in inducing tolerance in acute and chronic rejection heart and kidney transplant models. The highly immunogenic small bowel (SB) allograft provides a rigorous test of the efficacy of this tolerance regimen. We examined whether induction of tolerance by bone marrow chimerism could prevent TVS in a model of Fisher 344 (F344) to Lewis (LEW) rat SB transplantation. METHODS: Bone marrow chimeras (BMC) were created by transplantation of T-cell-depleted F344 bone marrow into irradiated LEW rats. Chimerism was assessed by flow cytometric method. F344 SB, heterotopically transplanted into the chimeras, was clinically and histologically assessed for CR. F344 SB grafts, transplanted into cyclosporine-A-treated LEW recipients, served as control grafts for CR. RESULTS: Cyclosporine-A-treated LEW rats chronically rejected F344 SB grafts. By contrast, the BMC group demonstrated tolerance and had long-term SB graft survival (>120 days) without TVS. The BMC demonstrated immunocompetence by prompt rejection of third party ACI (RT1av1) SB allografts. CONCLUSIONS: Bone marrow chimerism prevents chronic graft failure secondary to TVS in a model of chronic SB rejection. TVS fails to develop when tolerance is established, suggesting that the mechanisms involved in TVS are, in part, immunologically mediated.     

Rat cytomegalovirus infection and chronic kidney allograft rejection

Abstract  To investigate the effect of cytomegalovirus (CMV) infection on the development of experimental chronic kidney allograft rejection, orthotropic kidney allografts from DA donors (Ag- RTl^al) to WF (Ag- RTl^u) recipients were used. The rats received cyclosporine A (CsA) for 12 weeks. A group of recipients was infected with 10⁵ plaque-forming units of rat CMV (RCMV), and another group was left non-infected and used as controls. The grafts were removed 12 weeks after transplantation. RCMV infection significantly enhanced the development of chronic kidney allograft rejection as follows: the intensity of interstitial inflammation ( P < 0.025), particularly the degree of pyroninophilic cells in the inflammatory infiltrate ( P < 0.025); the glomeruli mesangial matrix increase ( P < 0.05) and capillary basement membrane thickening ( P < 0.01); the extent of endothelial cell swelling ( P < 0.025) and intimae proliferation (P < 0.025) in the graft vasculature; and the extent of tubular epithelial atrophy ( P < 0.025). The chronic allograft damage index (CADI) was significantly increased to 4.2 ± 0.9 in RCMV-infected allograft, compared with 0.8 ± 0.4 in non-infected ( P < 0.02). At the molecular level, RCMV infection significantly increased vascular endothelial ( P < 0.05) and tubular epithelial ( P < 0.01) ICAM-1 expression. Viral antigens were detected in tubular epithelial cells and in some inflammatory cells.     

CMV increases tubular apoptosis through the TNF-alpha-TNF-R1 pathway in a rat model of chronic renal allograft rejection

INTRODUCTION: Destruction of transplanted kidneys through chronic allograft nephropathy [CAN], also known as chronic rejection, is the greatest obstacle in successful kidney transplantation. Causes behind CAN are many, from pre-transplant causes to infections. Viral infections, especially CMV, are a risk factor for chronic rejection. We have previously developed a rat kidney transplant model, in which CMV enhances the development of chronic rejection under triple drug treatment. In this model we have now further studied the routes of apoptosis in virus induced early CAN vs. the routes of apoptosis in a later developing non-infectious CAN. MATERIALS AND METHODS: Renal transplantations were performed in a strain combination of DA/BN under immunosuppression. One group of animals was infected with RCMV and the other was left uninfected. The grafts were harvested on days 3-40 after transplantation. Apoptotic cells were visualised by in situ terminal transferase mediated dUTP nick end labelling [TUNEL] from paraffin embedded, formalin fixed kidney grafts. Cytokines were labelled imunohistochemically from frozen sections, among them tumour necrosis factor alpha [TNF-alpha] and its receptor-protein 1 [TNF-R1] as well as CD 95 [FAS], caspase 3 and CD14. The results were semi-quantitatively scored from 0 to 3+ over various tissues structures separately. RESULTS: In the CMV infected grafts, we could demonstrate a more intense TUNEL reaction in tubular epithelium [2.0+/-1.0 vs. 0.8+/-0.5 at day 14, P<0.05] as well as an earlier increase in the expression TNF-alpha in the vascular endothelium [2.0+1.0 vs. 0.0+0.0 at days 3-5, P<0.05] than in the non-infected group. There was also an earlier increase in the tubular TNF-R1 expression [2.2+0.8 vs. 1.0+0.0 at days 5-7, P<0.05]. There was no difference in the expression of CD14, caspase 3 or FAS between the groups. CONCLUSIONS: CMV enhanced development of CAN was associated with tubular apoptosis and concomitant increase of TNF-alpha-TNF-R1, rather than the FAS-FAS-ligand activation.     

肝移植术后巨细胞病毒感染的防治研究

目的探讨肝移植患者术后巨细胞病毒 (CMV)感染情况及其与急性排斥反应的关系。方法应用PCR和ELISA方法检测 78例肝移植受体手术前后、78例供体及 70例接受上腹部手术的非肿瘤患者血清中的CMV DNA和CMV抗体 ,用免疫组织化学方法检测肝组织中CMV抗原。结果供、受体术中肝脏活体组织学检查的CMV早期抗原 (EA)和晚期抗原 (LA)全部为阴性。术前CMV DNA或CMV IgM阳性的受体术后均为阳性 ;术前CMV DNA或CMV IgM阴性的受体术后CMV DNA或CMV IgM转为阳性的分别有 2 6 %和 10 %。 78例受体CMV DNA阳性率由术前的 5 %增加到术后的 31% ,两者比较差异有显著意义 (P <0 0 5 )。 2 6例患者发生了 33次急性排斥反应 ,16次 (49% )CMV DNA检测阳性、11次 (33% )CMV IgM检测阳性 ,而在术后常规检测血CMV DNA和CMV IgM的阳性率分别不超过 13%和 9% ,两者比较差异有显著意义 (P <0 0 5 )。 2 6例发生急性排斥患者肝脏活体组织学检查CMV EA和CMV LA阳性者均为 9例 (2 7% ) ,与术后的常规肝脏穿刺结果比较差异有显著意义 (P <0 0 5 )。结论 1.肝移植术后CMV感染率明显升高。 2 .CMV感染可能是发生急性排斥反应的危险因素。 3.发生急性排斥反应时 ,应使用抗CMV药物 ;未感染CMV的受体接受感染供体的肝脏时应预防用药。     

Antiviral and immunomodulatory effects of desferrioxamine in cytomegalovirus-infected rat liver allografts with rejection

BACKGROUND: Cytomegalovirus (CMV) infection is associated with acute and chronic allograft rejection. We have recently shown that rat CMV increases portal inflammation and bile duct destruction in a model of rat liver allograft rejection. Desferrioxamine (DFO), an iron chelator and antioxidant, has recently been demonstrated to have antiviral as well as immunomodulatory effects in vitro. We therefore investigated whether DFO inhibits (a) CMV infection and (b) graft destruction in our rat model. METHOD: One day after liver transplantation, PVG (RT1c) into BN(RT1n), the rats were infected with rat CMV (RCMV, Maastricht strain; 10(5) plaque-forming units i.p.). The effects of 100 mg/kg body weight and 200 mg/kg body weight DFO were examined. RESULTS: In the untreated group, the grafts were uniformly RCMV culture-positive. In the group receiving 200 mg/kg DFO, RCMV replication was effectively inhibited. Inflammatory response in the graft, and especially the number of macrophages, was significantly reduced by DFO. Portal inflammation and bile duct destruction were also significantly reduced. In the untreated group, the bile duct epithelial cells were found to be strongly positive for tumor necrosis factor-alpha and this expression was clearly decreased by DFO. In addition, DFO significantly inhibited vascular cell adhesion molecule-1 expression on sinusoidal endothelial cells. CONCLUSIONS: Our in vivo transplant study strongly supports the inhibitory effects of metal chelators on CMV infection and their possible usefulness in the treatment of CMV-induced pathogenic changes.     

Association between cytomegalovirus disease and chronic rejection in kidney transplant recipients

BACKGROUND: It has long been suggested that cytomegalovirus (CMV) disease plays a role in the pathogenesis of chronic rejection (CR). However, its role has been difficult to prove, given the strong association between acute rejection and CMV, and the even stronger association between acute rejection and CR. To try to isolate the relative contribution of CMV infection in the pathogenesis of CR, we used multivariate techniques to examine risk factors for CR, including CMV disease. METHODS: Our study population consisted of adult recipients of a first kidney graft who underwent transplantation at a single center between 1/1/85 and 6/30/97 (n = 1339). RESULTS: Multivariate analysis using time to CR as the dependent variable demonstrated acute rejection to be the strongest risk factor (relative risk [RR] = 17.8, P = 0.0001), followed by older donor age (RR = 1.46, P = 0.01). The presence of CMV disease showed a trend toward increased risk for CR (RR = 1.30, P = 0.10), although the association was not as strong as with the other two variables. Comparing only those recipients with acute rejection and CMV disease versus those with acute rejection but no CMV disease, the relative risk of developing CR was 1.37 times higher in the former group. Recipients with acute rejection and CMV developed CR sooner and with a higher incidence versus those with acute rejection but no CMV (P = 0.002). It is interesting, however, that CMV disease was only a risk factor for CR in the presence of acute rejection. Recipients with no acute rejection and CMV disease did not have a higher incidence of CR versus those with no acute rejection and no CMV (P = NS). CONCLUSION: CMV disease seems to play some role in the pathogenesis of CR but only in the presence of acute rejection. Reasons may include (i) the inability to adequately treat acute rejection due to the presence of CMV disease or (ii) the increased virulence of latent CMV virus in recipients being treated for acute rejection. Our data may suggest a role for more aggressive prophylaxis against CMV disease, especially at the time of treatment for acute rejection.     

Risk factors for chronic rejection after pediatric liver transplantation

BACKGROUND: Chronic rejection is a major cause of graft failure and a frequent reason for retransplantation after pediatric liver transplantation. Identification of risk factors for chronic rejection in pediatric transplant recipients is vital to understanding the pathogenesis of chronic rejection and may help prevent further graft loss. METHODS: The study population consisted of 285 children with 385 liver transplants performed at University of Chicago between 1991 and 1999. Logistic regression analysis was used to evaluate risk factors for chronic rejection, including age, sex, race, type of graft (living related vs. cadaveric), native liver disease, acute rejection episodes, cytomegalovirus (CMV) infection, and posttransplant lymphoproliferative disease (PTLD). RESULTS: The chronic rejection rate was significantly lower in recipients of living-related grafts than in recipients of cadaveric grafts (4% vs. 16%, P=0.001). African-American recipients had a significantly higher rate of chronic rejection than did Caucasian recipients (26% vs. 8%, P<0.001). Numbers of acute rejection episodes, transplantation for autoimmune disease, occurrence of PTLD, and CMV infection were also significant risk factors for chronic rejection. However, recipient age, gender, donor-recipient gender mismatch, and donor-recipient ethnicity mismatch were not associated with higher incidence of chronic rejection CONCLUSION: We have identified a number of risk factors for chronic rejection in a large group of pediatric liver allograft recipients. We believe that donor-recipient matching for gender or race is not likely to reduce the incidence of chronic rejection. The elucidation of the mechanisms by which living-related liver transplantation affords protection against chronic rejection may provide insight into the immunogenetics of chronic rejection and help prevent further graft loss.     

Platelet-derived growth factor regulates cytomegalovirus infection-enhanced obliterative bronchiolitis in rat tracheal allografts

BACKGROUND: Cytomegalovirus (CMV) infection is a risk factor for the development of obliterative bronchiolitis (OB) after lung transplantation. METHODS: In the rat tracheal allograft model, rat CMV (RCMV) infection is associated with accelerated OB through enhanced alloimmune activation and increased smooth muscle cell (SMC) proliferation. Using this model, we investigated the role of platelet-derived growth factor (PDGF) in RCMV infection-enhanced OB. RESULTS: Immunohistochemistry and in situ hybridization revealed that RCMV infection significantly up-regulates PDGF ligand and receptor expression in inflammatory and SMC-like cells in tracheal allografts. Selective inhibition of PDGF receptor tyrosine kinase activity by CGP 53716 prevents the development of OB in RCMV-infected allograft recipients. CONCLUSION: The results of this study emphasize the key regulatory role of PDGF in the pathogenesis of RCMV infection-enhanced OB, suggesting a novel strategy for the prevention of this fibroproliferative disorder.     

Allogeneic cell stimulation enhances cytomegalovirus replication in the early period of primary infection in an experimental rat model.

BACKGROUND: Cytomegalovirus (CMV) diseases commonly occur in allograft recipients in the early post-transplant period. However, factors responsible for the high incidence of CMV diseases during this period are not yet fully defined. METHODS: Wistar-Furth (WF; RT-1(u)) rats were inoculated with 10(4) plaque-forming units (PFU) of rat CMV (RCMV) intraperitoneally, and then transplanted with allogeneic lungs from Dark Agouti (DA; RT-1avl) rats or stimulated with 10(7) mitomycin C-treated spleen cells from DA rats by daily sub-cutaneous injections for 2 weeks. No immunosuppressive agent was used. Naive WF rats and WF rats grafted with syngeneic lungs or cells were used as controls. The level of RCMV replication in rats was assessed by infectious virus titers in tissues. RESULTS: The virus titers in salivary glands of allogeneic and syngeneic lung graft recipients were significantly higher than in naive WF rats. The level of RCMV replication in rats stimulated with allogeneic spleen cells was significantly higher than in the syngeneic recipient rats: virus titers in the salivary gland of allogeneic and syngeneic recipients reached 4.61 +/- 0.33 and 4.00 +/- 0.37 log(10) PFU/g tissue, respectively, at 14 days post-infection (p = 0.015). The augmented viral replication in allogeneic recipients was confirmed by an increase in the number of RCMV antigen-positive macrophages present in tissue sections of the salivary gland. CONCLUSIONS: Acute lung allograft rejection and allogeneic spleen cell stimulation enhance CMV replication in the salivary gland of rats. Various responses to allogeneic antigens occurring in the process of acute allograft rejection could be risk factors for post-transplant CMV replication and infection.     

Effect of ganciclovir prophylaxis on cytomegalovirus-enhanced allograft arteriosclerosis

Abstract Clinical and experimental studies have established the accelerating role of cytomegalovirus (CMV) infection on cardiac allograft arteriosclerosis, i.e. chronic rejection. In this study, we investigated the effect of ganciclovir prophylaxis on the development of CMV-enhanced allograft arteriosclerosis. Rat aortic allografts were done from DA donors to WF recipients and either infected with 10⁵ plaque-forming units of rat CMV (RCMV) 1 day after transplantation or left uninfected. RCMV-infected allografts received ganciclovir at an initial dose of 20 mg/kg and a maintenance dose of 10 mg/kg twice a day for 14 days. Grafts were removed at 7, 14 days, and 1 and 3 months after transplantation and processed for morphometry and autoradiography. The results of this study demonstrated that ganciclovir prophylaxis significantly delays and reduces RCMV-enhanced allograft arteriosclerosis in the rat.     

Reactivation of rat cytomegalovirus in lung allografts: an experimental and immunohistochemical study in rats.

Reactivation of latent rat cytomegalovirus (RCMV) from a lung allograft or from a recipient was studied in RCMV-mismatched combinations (donor [D]-/recipient [R]+, D+/R-, and D+/R+) with latently infected lung grafts and chronically infected rats in an inbred rat model. Nineteen transplants in a major histocompatibility complex different strain combination (Brown-Norway/Lewis) were immunosuppressed daily (cyclosporine, azathioprine, and prednisolone) from day 3 after orthotopic left lung transplantation and killed on days 3, 6, and 21. Control groups consisted of nine chronically RCMV-infected rats with immunosuppression without transplantation and six allografts with immunosuppression without RCMV infection. Reactivation of latent RCMV was tested by immunohistochemical staining with monoclonal antibodies against RCMV-induced antigens and by plaque assays of the virus in the salivary glands. The following results were obtained: (1) All allotransplants developed acute ongoing rejection on days 3 and 6, and the rejection was resolved on day 21 by immunosuppression. (2) Reactivation was observed in allotransplanted groups, but not in the control rats. (3) In the D+/R+ and D-/R+ groups on days 3 and 6, the number of RCMV-related antigen-positive cells increased in the recipient spleen and lymph nodes and in the bronchus-associated lymphoid tissue of the donor lung in the D-/R+ group, but not in the chronically RCMV-infected controls. (4) In the D+/R- group on day 6, RCMV-induced antigen-positive cells were observed in the spleen and lymph nodes of the recipient and also around the vessels in the recipient lung. (5) In the D-/R+ group, vascular endothelial cells or mildly infiltrated mononuclear cell subpopulations around the vessels in the lung allograft showed weakly positive staining against RCMV-related antigens on day 6. (6) After the initial acute rejection on days 3 and 6 was treated by immunosuppressive drugs, reactivated acute RCMV infection became chronic or latent again on day 21. We conclude that RCMV infection could be transferred with latently infected lung allografts by reactivation of latent RCMV. In rats, as in man, alloimmune responses seemed to have a definite influence on the reactivation of latent RCMV after lung transplantation.