Human cytomegalovirus inhibition of major histocompatibility complex transcription and interferon signal transduction.

Pathogens have evolved diverse mechanisms for escaping host innate and adaptive immunity. Viruses that maintain a persistent infection are particularly effective at disabling key arms of the host immune response. For example, the herpesviruses establish a persistent infection in human and animal hosts, in part through critical immunoevasive strategies. Cytomegalovirus, a beta-herpesvirus, impairs major histocompatibility complex (MHC) class I and class II antigen presentation by decreasing MHC expression on the surface of the infected cell, thus enabling infected cells to escape CD8+ and CD4+ T lymphocyte immunosurveillance. Moreover, cytomegalovirus blocks the interferon signal transduction pathway, thereby limiting the direct and indirect antiviral effects of the interferons. In this review, we focus on an emerging paradigm in which the effectiveness of viruses, particularly human cytomegalovirus, to escape antiviral immune responses is significantly enhanced by their ability to inhibit MHC transcription and interferon (IFN)-stimulated (JAK/STAT) signal transduction.

Cytomegalovirus and transcriptional down-regulation of major histocompatibility complex class II expression.

CD4(+)T lymphocytes are a significant component of the afferent and efferent arms of adaptive immunity and are critical for controlling viral infections. CD4(+)T lymphocytes secrete cytokines that augment CD8(+)T lymphocyte and B lymphocyte responses and directly inhibit viral replication. The interface between the CD4(+)T lymphocyte and virus is the major histocompatibility complex (MHC) class II molecule. Cytomegalovirus, a beta-herpesvirus, has evolved mechanisms for inhibiting MHC class II expression and thus escaping CD4(+)T lymphocyte immunosurveillance. Herein, we review cytomegalovirus-mediated down-regulation of inducible and constitutive MHC class II expression, while focusing on lesions that occur at the level of MHC class II transcription.

Microsphere-adenoviral complexes target and transduce the glomerulus in vivo.

BACKGROUND: Developing new treatments for glomerulonephritis makes the glomerulus a logical target for gene therapy. Microspheres may lodge in the glomerulus, and replication-deficient recombinant adenoviruses are potent mediators of gene transfer. We postulated that adenoviral-microsphere complexes could result in DNA transfer (transduction) into glomerular cells in vivo. METHODS: Two adenoviruses, each one containing a luciferase or beta-galactosidase (beta-gal) transgene expression cassette, were complexed to polystyrene microspheres. To assess in vivo glomerular transduction with this tool, male Sprague-Dawley rats underwent aortic injections with adenovirus linked to 11 or 16 microm diameter microspheres. RESULTS: After 48 hours, adenoviral-microsphere complexes resulted in transduction of up to 19% of glomeruli per kidney section. Endothelial and mesangial cells were transduced with this approach, and transprotein expression persisted for 21 days. Transduction efficiency was greater in the 16 microm group. For all rats, there was a strong correlation between kidney luciferase levels and the number of beta-gal-positive glomeruli (r = 0.87), indicating that transgene expression was primarily glomerular in location. This was supported by reverse transcriptase in situ polymerase chain reaction, which demonstrated glomerular localization of the beta-gal transgene. CONCLUSIONS: The aortic injection of adenoviral-microsphere complexes transduces the glomerulus in vivo and may be a useful tool in developing approaches to gene therapy of glomerular disease.

Proximal tubular epithelial hyperplasia in patients with chronic glomerular proteinuria.

BACKGROUND: Proteinuria is known to affect the proximal tubular epithelial structure and function. The present study tested the hypothesis that chronic proteinuria leads to hyperplasia of proximal tubular epithelium. METHODS: This hypothesis was tested by morphometric analysis of the renal biopsy specimens in two groups of patients. Group A (N = 15) was composed of patients with chronic glomerular proteinuria who, for clinical indications, underwent renal biopsy of their native kidneys on two separate occasions. The proteinuria was sustained during the first and second renal biopsies in all but two of the patients with minimal change nephrotic syndrome who experienced transient remission. Group B (N = 10) was composed of patients with little or no proteinuria who underwent renal biopsy because of unexplained hematuria and whose renal biopsy showed only thin glomerular basement membrane (GBM) disease. RESULTS: In Group A, the mean number of epithelial cell nuclei per proximal tubule cross-section increased significantly from the first to the second renal biopsy (11.0 +/- 2.7 vs. 13.0 +/- 2.2, P = 0.005, paired t-test). Also, those with severe proteinuria showed proximal tubules with reactive epithelium (large pale nuclei with a high nucleus to cytoplasm ratio) and marked hyperplasia (double and triple layers of epithelium). Such changes were not seen in group B renal biopsies. Compared with group A biopsies, group B biopsies showed a lower mean value for proximal tubular epithelial cell nuclei per tubular cross-section (P = 0.056) and a higher mean proximal tubular volume (P = 0.049). As a consequence, the mean number of nuclei per relative tubular volume was significantly greater in group A compared with group B (0.55 +/- 0.14 vs. 0.40 +/- 0.06, P = 0.003, by Wilcoxon rank sum). CONCLUSIONS: Chronic heavy proteinuria is associated with hyperplasia of proximal tubular epithelium and contraction of proximal tubular volume. These events may impair glomerular filtration and represent another mechanism of progression of renal disease.

Cytomegalovirus induces sialyl Lewis(x) and Lewis(x) on human endothelial cells.

BACKGROUND: Cytomegalovirus (CMV) is the primary viral cause of complications in transplant recipients. We sought to understand the mechanisms of its dissemination and induction of vascular disease, which may lead to transplant complications. Sialyl Lewis(x) (sLe(x)) and Lewis(x) (Le(x)) are known for their roles in mediating cell adhesion and as tumor-associated carbohydrate antigens. Herein we explore whether CMV induces surface expression of these important molecules in endothelial cells (EC). METHODS: Flow cytometry was used to detect surface expression of sLe(x) and Le(x) on CMV-infected human umbilical vein endothelial cells (HUVEC), with or without ultraviolet inactivation of the virus. To elucidate mechanisms of CMV-mediated induction, mRNA coding for predominant HUVEC sialyltransferases (ST) and fucosyltransferases (FT), key enzymes in sLe(x) and Le(x) synthesis, was analyzed by Northern blot. Dual immunohistochemical staining for sLe(x) and Le(x) expression of human colon and placental tissue was performed to investigate in vivo relevance. RESULTS: sLe(x) expression on CMV-infected HUVEC was strongly up-regulated by 8 days after inoculation. Le(x) expression was detectable earlier and increased steadily over time. In contrast, ultraviolet-inactivated CMV did not induce expression of these molecules. Northern blot assays demonstrated higher levels of important EC glycosyltransferases ST-IV, FT-III, and FT-IV in CMV-infected EC. Finally, high levels of sLe(x) and Le(x) were expressed in CMV-infected EC in vivo. CONCLUSIONS: Given the known biologic functions of sLe(x) and Le(x), we suggest that CMV induction of these molecules may have widespread consequences ranging from CMV dissemination to induction of CMV-associated vascular disease, including thrombosis.

Recurrent type I membranoproliferative glomerulonephritis in a renal allograft: successful treatment with plasmapheresis.

Recurrent disease is increasingly recognized as a cause of renal allograft dysfunction and failure. We describe a patient with type I membranoproliferative glomerulonephritis not associated with hepatitis C. The glomerular disease recurred in the renal allograft within 1 month of transplantation, leading to acute allograft dysfunction and nephrotic syndrome. Aggressive treatment with prednisone and plasmapheresis resulted in improvement in kidney function, improvement of the light microscopic picture, and removal of immune complexes from the glomerular subendothelial space.

Attenuation of cytomegalovirus-induced endothelial intercellular adhesion molecule-1 mRNA/protein expression and T lymphocyte adhesion by a 2'-O-methoxyethyl antisense oligonucleotide.

BACKGROUND: Intercellular adhesion molecule-1 (ICAM-1) is strongly induced under inflammatory conditions associated with allograft rejection, thereby promoting leukocyte recruitment and activation at the site of inflammation. Enhancement of ICAM-1 expression can also be the result of viral infection, in particular human cytomegalovirus (CMV), a frequent source of complications in the transplant recipient. In vitro studies have shown that CMV infection of endothelial cells (EC) results in the direct enhancement of ICAM-1 expression and consequent leukocyte adhesion/activation suggesting mechanisms by which CMV exacerbates graft vascular disease. Although treatment of EC with ICAM-1-specific antisense oligonucleotides has been shown to attenuate ICAM-1 induction under simulated inflammatory conditions (i.e., TNF-alpha), no studies have addressed their effectiveness on virally-induced ICAM-1 expression. RESULTS: In the current investigation, we show that the progressive increase in endothelial ICAM-1 protein expression that follows inoculation with CMV correlates with a progressive accumulation of ICAM-1 mRNA. Furthermore, we demonstrate that treatment of EC with a partially 2'-O-methoxyethyl modified ICAM-1-specific antisense oligonucleotide before viral inoculation significantly reduces CMV-associated induction of ICAM-1 protein and mRNA expression. Finally, we show that antisense-mediated attenuation in ICAM-1 expression results in a significant reduction of T lymphocyte adhesion to CMV-infected EC monolayers, an interaction that has been implicated in allogeneic T lymphocyte activation, in viral transmission to transiently adherent leukocytes and subsequent hematogenous dissemination. CONCLUSIONS: These findings demonstrate for the first time that antisense oligonucleotides can effectively reverse virally-induced host cellular protein expression, specifically ICAM-1, as well as consequent T lymphocytes adhesion, thus broadening the potential clinical utility of antisense oligonucleotides.

Human cytomegalovirus blocks interferon-gamma stimulated up-regulation of major histocompatibility complex class I expression and the class I antigen processing machinery.

Interferon-gamma stimulates major histocompatibility complex (MHC) class I antigen processing and presentation by inducing the expression of major histocompatibility complex class I heavy chains, beta2-microglobulin, the transporter associated with antigen processing, and components of the proteasome complex. We demonstrate that this effect of interferon-gamma on the major histocompatibility complex class I pathway is inhibited in human cytomegalovirus-infected fibroblasts and endothelial cells. This is the result of a direct human cytomegalovirus/cell interaction leading to a block in interferon-gamma signal transduction beginning at early times after infection and peaking at 72 hr after infection. These observations suggest a novel level of herpesvirus interference with antigen processing: protection of infected cells from the immunoregulatory effects of interferon-gamma. Thus protected, human cytomegalovirus persists and may exacerbate graft rejection or lead to fulminant infection in the immunocompromised transplant recipient.

Cytomegalovirus-mediated modulation of adhesion molecule expression by human arterial and microvascular endothelial cells.

BACKGROUND: Cytomegalovirus (CMV), a betaherpesvirus associated with allograft rejection, infects the endothelium, the cellular interface between allograft tissue and the host immune system. Because of recent appreciation of the phenotypic diversity of endothelial cells (EC) from different vascular compartments, controversy now exists on the universality of CMV-mediated adhesion molecule induction previously described on umbilical vein EC. Therefore, we herein extend these previous studies to arterial and microvascular EC, which represent sites of vascular rejection. METHODS: Human coronary artery, aortic, umbilical artery, and microvascular EC were mock or CMV infected and/or treated with tumor necrosis factor-a before flow cytometric and immunohistochemical analysis. RESULTS: CMV directly enhanced intercellular adhesion molecule-1 on all EC isolates but did not induce E-selectin or vascular cell adhesion molecule-1. Furthermore, CMV-infected EC were refractory to tumor necrosis factor-alpha-mediated induction of these molecules. CONCLUSION: CMV-induced modulations of adhesion molecule expression, which may affect allograft immunogenicity, seem common to all EC regardless of vascular origin.

Renal allograft survival following acute rejection correlates with blood pressure levels and histopathology.

BACKGROUND: Acute rejection (AR) is a strong predictor of renal graft survival, but the negative impact of AR on survival is variable, suggesting that other factors modulate this relationship. In this study, we examined the variables that correlate with graft survival after AR, particularly the impact of blood pressure (BP), graft function, and histopathology. METHODS: The study population included patients with no AR (N = 942) and patients with one (N = 407) or two (N = 156) AR during the first year post-transplant. Patients were adults who were recipients of living related (LRD, N = 410) or cadaveric grafts (CAD, N = 1095) and who were transplanted in a single institution and followed for 5.8 +/- 4 years. RESULTS: Compared with patients without AR, those with AR were significantly younger, had more human lymphocyte antigen mismatches, and included more CAD recipients. Graft survival was analyzed beyond six-months post-transplant. In patients with AR, reduced survival correlated (multivariate) with (a) younger recipients (P = 0.01), (b) AR occurring later during the first-year post-transplant (P = 0.0006), (c) elevated serum creatinine (Cr) before (P = 0.05), at the time (P = 0.0001) of, or after AR (P = 0.0004), and (d) average BP levels after AR [systolic BP (P = 0.003 logistic, P < 0.0001 by Cox), diastolic BP (P = 0.007), mean arterial pressure (P < 0.0001)]. This latter correlation was independent of graft function and recipient race. Thus, post-AR BP levels correlated with graft survival in patients with post-AR creatinine

Novel mechanism of inhibition of cytomegalovirus by the experimental immunosuppressive agent leflunomide.

BACKGROUND: Despite progress in antiviral chemotherapy, cytomegalovirus (CMV) remains a major cause of morbidity and mortality among pharmacologically immunosuppressed organ transplant recipients, frequently engaging the clinician in a struggle to balance graft preservation with control of CMV disease. Leflunomide, an inhibitor of protein kinase activity and pyrimidine synthesis, is an experimental immunosuppressive agent effective against acute and chronic allograft rejection in animal models. Because a number of CMV proteins are known to be phosphorylated, we tested the hypothesis that this agent might exert inhibitory activity against CMV. METHODS AND RESULTS: Plaque assays demonstrated dramatic dose-dependent attenuation of production of multiple clinical CMV isolates in leflunomide-treated human fibroblasts and endothelial cells, common targets for CMV infection in vivo. As shown by Northern blot analysis and immunohistochemical staining, leflunomide neither interferes with transcription of immediate early or late viral genes, nor with expression of corresponding proteins. CMV-specific DNA dot blots and biochemical enzyme assays indicated that, in contrast to currently approved anti-CMV drugs, leflunomide exerts no inhibitory effect on the accumulation of viral DNA in infected cells, or on viral DNA polymerase activity. Rather, as visualized by transmission electron microscopy, this agent appears to act at a late stage in virion assembly by preventing tegument acquisition by viral nucleocapsids. Finally we have demonstrated equivalent inhibitory activity of leflunomide against multi-drug-resistant CMV isolates. CONCLUSIONS: These findings imply that leflunomide, an effective immunosuppressive agent, shows potential to concurrently attenuate a major complication of immunosuppression, CMV disease, by a novel mechanism of antiviral activity.

Trans vivo analysis of human delayed-type hypersensitivity reactivity.

There are clinical situations in which it may be advantageous to monitor delayed type hypersensitivity (DTH) responses, an index of cell-mediated immunity, without exposing patients directly to the challenge antigens. For example, transplant patients may be at risk for becoming sensitized to donor antigens if injected with donor antigen during traditional skin tests. We describe an alternative method for human DTH testing, which involves the transfer of human peripheral blood mononuclear cells plus antigen into the pinnae or footpads of naive mice. This induces a measurable DTH-like swelling response, which we refer to as the "trans vivo DTH response." As proof of principle, we provide data obtained during trans vivo DTH studies with tetanus toxoid, cytomegalovirus (CMV) and alloantigens. In general, human T cells must be co-localized with antigen and human macrophages to produce swelling responses, and such responses are antigen-specific and require prior antigen sensitization. Not only does this assay offer a simple, reliable clinical monitoring device, but it also provides a model with which to study the in vivo mechanisms of human DTH responses.

Human cytomegalovirus inhibits IFN-alpha-stimulated antiviral and immunoregulatory responses by blocking multiple levels of IFN-alpha signal transduction.

The type I IFNs represent a primordial, tightly regulated defense system against acute viral infection. IFN-alpha confers resistance to viral infection by activating a conserved signal transduction pathway that up-regulates direct antiviral effectors and induces immunomodulatory activities. Given the critical role of IFN-alpha in anti-human cytomegalovirus (HCMV) immunity and the profound ability of HCMV to escape the host immune response, we hypothesized that HCMV blocks IFN-alpha-stimulated responses by disrupting multiple levels of the IFN-alpha signal transduction pathway. We demonstrate that HCMV inhibits IFN-alpha-stimulated MHC class I, IFN regulatory factor-1, MxA and 2',5-oligoadenylate synthetase gene expression, transcription factor activation, and signaling in infected fibroblasts and endothelial cells by decreasing the expression of Janus kinase 1 and p48, two essential components of the IFN-alpha signal transduction pathway. This investigation is the first to report inhibition of type I IFN signaling by a herpesvirus. We propose that this novel immune escape mechanism is a major means by which HCMV is capable of escaping host immunity and establishing persistence.

Pathologic classification of chronic allograft nephropathy: pathogenic and prognostic implications.

BACKGROUND: After transplantation renal allografts frequently develop interstitial fibrosis and tubular atrophy, and these pathologic changes are the hallmarks of chronic allograft nephropathy (CN). However, the diagnosis of CN has no specific pathogenic implications. In this study we sought to determined whether a subclassification of CN according to vascular pathology correlates with posttransplant events, particularly acute rejection, and graft survival. METHODS: A total of 419 patients with moderate to severe CN were subdivided into: (1) transplant arteriopathy (TA, n=233, 56%); (2) arteriolar hyalinosis (AH, n=89, 21%); and (3) no characteristic vascular pathology (IFb, n=97, 23%). RESULTS: Patients with AH differed significantly from patients with TA or IFb in the following parameters: (1) AH was diagnosed later after transplantation (P=0.001); (2) fewer patients with AH had acute rejection (AR) before the diagnosis of CN (P<0.0001). For example, 44% of AH and 75% of TA had AR before CN; (3) patients with AH also had fewer AR episodes than the other two groups (P<0.0001); finally, (4) graft survival was better in patients with AH than in patients with TA (P=0.01 by chi2, P=0.001 by Cox). In contrast, there were no significant differences between patients with TA and IFb. By multivariate analysis the survival of grafts with CN correlated with: (1) serum creatinine at diagnosis (P<0.0001), (2) recipient's weight (P=0.004); (3) presence of FGS or level of proteinuria (P=0.03); and (4) the occurrence of AR after the diagnosis of CN (P<0.0001). Regarding the latter, AR were more common (P=0.007) and more numerous (P=0.005) in patients with TA or IFb than in AH. CONCLUSIONS: CN can be classified according to vascular pathology in the majority of cases, and this classification correlates with graft survival. Although some forms of CN are closely associated with the occurrence of AR others are not. This study also uncovered several variables that correlate with the survival of grafts with CN.

Viral effects on antigen processing.

Viruses have evolved numerous mechanisms that modulate MHC-mediated antigen presentation, which in turn protect infected cells from T-lymphocyte-mediated immunosurveillance. Recent studies of previously identified viral immunomodulatory proteins reveal the allelic specificity of these proteins, their ability to function in xenogeneic systems and the difficulty in translating in vitro data to in vivo models; moreover, new mechanisms of viral modulation of MHC expression have emerged.

Viral inhibition of interferon signal transduction.

The type I and II interferons (IFNs) are potent stimulators of antigen processing and presentation and are essential in antiviral immunity. IFNs upregulate the transcription of major histocompatibility complex (MHC) class I and II molecules, associated antigen-processing proteins, and induce the production of direct antiviral effector molecules such as 2',5'-oligoadenylate synthetase, double-stranded-RNA-dependent protein kinase and Mx proteins. It is increasingly evident that viruses have evolved mechanisms to globally inhibit the actions of IFNs through disruption of their signal transduction pathways. Herein, we review the ability and novel mechanisms of several diverse viruses to inhibit IFN-induced JAK/STAT signal transduction.

Inhibition of cytomegalovirus in vitro and in vivo by the experimental immunosuppressive agent leflunomide.

Despite progress in antiviral chemotherapy, cytomegalovirus (CMV) remains a major cause of morbidity and mortality among pharmacologically immunosuppressed transplant recipients, frequently engaging the clinician in a struggle to balance graft preservation with control of CMV disease. Leflunomide, an inhibitor of protein kinase activity and pyrimidine synthesis, is an experimental immunosuppressive agent effective against acute and chronic rejection in animal models. Herein we summarize our recent studies demonstrating that leflunomide inhibits the production of multiple clinical CMV isolates (including multi-drug-resistant virus) in both human fibroblasts and endothelial cells. In contrast to all other anti-CMV drugs currently in use, leflunomide does not inhibit viral DNA synthesis, but rather appears to interfere with virion assembly. Finally, preliminary studies in a rat model suggest that this agent reduces viral load in vivo. These findings imply that leflunomide, an effective immunosuppressive agent, shows potential to concurrently attenuate a major complication of immunosuppression, CMV disease, by a novel mechanism of antiviral activity.

Clinical implications of the diagnosis of renal allograft infarction by percutaneous biopsy.

BACKGROUND: Herein we investigated the relationships between acute rejection (AR), infection, and renal allograft infarcts, particularly those infarcts that occur beyond the immediate posttransplant period and that affect functioning grafts. METHODS: Infarcts (n=59) were classified as: (1) early (EI; <2 months after transplant; n=32); or (2) late (LI; >2 months; n=27). Controls included patients with severe AR but without infarction (n=84). RESULTS: There were not significant differences in donor or recipient characteristics between infarcts and controls. At diagnosis, patients with infarcts were more likely to be infected (30%) than controls (14%, P=0.01); 15% of infarcts and 1% of controls had disseminated cytomegalovirus (P=0.04). Infarct and AR coexisted in the biopsy specimens of 66% of patients with EI and 62% of patients with LI, but the AR severity ranged from borderline to severe. Furthermore, 30% of patients with EI/LI had a history of severe AR. Graft survival was 47% in patients with EI, 22% in patients with LI (NS), and 71% in controls (P<0.0001, chi-square and Cox regression). Correlates of better graft survival in infarcts included: older recipient (P=0.03); smaller area of infarction in the biopsy specimen (P=0.04); and use of anti-AR therapy (P=0.03). Therapy was effective in patients with EI (treated, 71% survival; untreated, 29%, P=0.02) but not in patients with LI (25% vs. 23%). CONCLUSIONS: Allograft infarcts are associated with AR in 64% of patients, but the AR may be mild. Infarcts are associated with infections. Graft survival is worse in patients with infarcts than in patients with severe AR, consequently these two pathologic diagnoses should not be considered as a single entity.

Successful DNA transfer in cultured human mesangial cells using replication deficient recombinant adenovirus.

BACKGROUND: Efficient transfer of DNA into human mesangial cells is an essential first step in the development of gene therapies for mesangial cell-mediated glomerulopathies. In the present studies, we assessed the ability of replication deficient recombinant adenovirus to transfer DNA (transduce) into primary cultures of human mesangial cells. METHODS: Primary cultures of human mesangial cells were transduced with an adenoviral vector (rAv beta-gal) containing a CMVllacZ promoter-reporter expression cassette coding for beta-galactosidase (beta-gal). We assessed soluble and histologic beta-gal activity, morphology, and phenotypic expression of mesangial cell transductants, durability of transduced mesangial cells by measuring transgene expression following trypsinization or after prolonged periods in culture and metabolic stability following transduction (as assessed by fibronectin biosynthesis). RESULTS: We showed that rAv beta-gal efficiently transduced mesangial cells in a dose-dependent fashion at a multiplicity of infectious units (MOI) ranging from 1 to 400 plaque forming units/cell (pfu/cell). One hundred percent of mesangial cells were transduced at an MOI of 100 pfu/cell. By electron microscopic evaluation, viral particles of approximately 85-90 nm were demonstrated in the cytoplasm of transduced cells. Following transduction, legal levels rose rapidly and were 10-fold greater than baseline levels after 2 hours. Beta-gal levels continued to rise for 7 days following transduction. Transduction with rAv beta-gal was well tolerated; mesangial cell transductants maintained normal morphology and phenotype, tolerated 3 cycles of trypsinization and maintained normal constitutive production of fibronectin. CONCLUSIONS: Gene transfer with adenovirus is an effective, well tolerated approach for introducing DNA into primary cultures of human mesangial cells.