Raisa Loginov

Persistent cytomegalovirus infection in kidney allografts is associated with inferior graft function and survival

The long‐term effects of cytomegalovirus (CMV) infections on kidney allografts are unknown. We examined the impact of persistent intragraft CMV infection on long‐term kidney allograft function and survival. CMV was diagnosed in 82/172 renal transplant recipients by antigenemia test and viral cultures. Biopsies from 48 of 82 patients taken after CMV infection and from 15 patients with no previous CMV infection detected were available for the immunohistochemical demonstration of CMV antigens and DNA hybridization in situ. Five‐year follow‐up data from these 63 patients were analysed. In 17 patients, CMV antigens and/or DNA persisted in the biopsy >2 months after the last positive finding in blood or urine. Patients with persistent intragraft CMV had reduced graft survival (P = 0.041) and Cox regression analysis showed persistent CMV as a risk factor for reduced graft survival (RR: 3.5). Recipients with persistent intragraft CMV had reduced creatinine clearance 1 and 2 years after transplantation (P = 0.007) and in multivariate logistic regression analyses including several potential pre‐ and posttransplant risk factors, persistent CMV was an independent risk factor for lower clearance at 1 and 2 years (OR: 4.4 and 4.9). Our novel findings show that persistent intragraft CMV infection was associated with reduced kidney allograft function and survival.

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.

The impact of cytomegalovirus infections and acute rejection episodes on the development of vascular changes in 6-month protocol biopsy specimens of cadaveric kidney allograft recipients1

Background. The role of cytomegalovirus (CMV) in chronic kidney allograft rejection remains controversial. The purpose of this study was to examine the impact of CMV infection on histopathologic changes in 6-month protocol biopsy specimens of kidney allografts. Methods. Altogether, 52 renal allograft recipients were studied. CMV infection was diagnosed by CMV antigenemia test, viral cultures from blood and urine, or both. CMV was demonstrated in the biopsy specimens by antigen detection and hybridization in situ. Acute rejections were diagnosed by biopsy histology, and biopsy specimens were graded according to the Banff ’97 classification. Results. CMV infection was diagnosed in 41 patients. The 11 patients in whom CMV infection was not detected were used as controls. Acute rejection was diagnosed in 22 of 41 CMV patients and in 6 of 11 control patients. CMV was demonstrated in the biopsy specimens of 19 of 41 CMV patients. CMV was not associated with increased glomerular, tubular, or interstitial changes. However, the arteriosclerotic changes in small arterioles were significantly increased in the subgroup of patients where CMV was demonstrated in the graft as compared with controls (P <0.01). Analysis of the impact of acute rejection on arteriolar thickening showed that only a positive history of both acute rejection and CMV found in the graft was associated with significantly increased vascular changes compared with CMV-free recipients (P <0.05). Conclusions. Neither CMV nor acute rejection alone was associated with increased vascular or other histopathologic changes in 6-month protocol biopsy specimens of kidney allografts, but a previous history of both acute rejection and the presence of CMV in the graft was associated with increased vascular changes.

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.

Novel Microbiological and Spatial Statistical Methods to Improve Strength of Epidemiological Evidence in a Community-Wide Waterborne Outbreak

Failures in the drinking water distribution system cause gastrointestinal outbreaks with multiple pathogens. A water distribution pipe breakage caused a community-wide waterborne outbreak in Vuorela, Finland, July 2012. We investigated this outbreak with advanced epidemiological and microbiological methods. A total of 473/2931 inhabitants (16%) responded to a web-based questionnaire. Water and patient samples were subjected to analysis of multiple microbial targets, molecular typing and microbial community analysis. Spatial analysis on the water distribution network was done and we applied a spatial logistic regression model. The course of the illness was mild. Drinking untreated tap water from the defined outbreak area was significantly associated with illness (RR 5.6, 95% CI 1.9–16.4) increasing in a dose response manner. The closer a person lived to the water distribution breakage point, the higher the risk of becoming ill. Sapovirus, enterovirus, single Campylobacter jejuni and EHEC O157:H7 findings as well as virulence genes for EPEC, EAEC and EHEC pathogroups were detected by molecular or culture methods from the faecal samples of the patients. EPEC, EAEC and EHEC virulence genes and faecal indicator bacteria were also detected in water samples. Microbial community sequencing of contaminated tap water revealed abundance of Arcobacter species. The polyphasic approach improved the understanding of the source of the infections, and aided to define the extent and magnitude of this outbreak.

Demonstration of HHV-6 antigens in biopsies of kidney transplant recipients with cytomegalovirus infection

The activation of human herpesvirus‐6 (HHV‐6) commonly coexists with that of cytomegalovirus (CMV) in organ transplant recipients. No data exist of HHV‐6 in renal allografts, whereas persistent CMV in the kidney associates with poor outcome and histopathologic changes. We examined HHV‐6 and CMV antigens from kidney transplants with previous CMV infection. HHV‐6 and CMV pp65 antigens were demonstrated by monoclonal antibodies and immunohistochemistry from 22 kidney transplants with previous CMV infection. CMV was diagnosed by antigenemia tests and/or viral cultures. HHV‐6 antigens were found in 7/22 biopsies 18–1330 days after CMV infection, in infiltrating leukocytes in six, and in tubular epithelial cells in two patients. CMV infections were treated, and no virus could be detected from urine or blood thereafter, or at the time of the biopsy. Only 1/7 of these biopsies demonstrated also CMV antigens, whereas CMV antigens were found in 6/15 of the biopsies with no HHV‐6. HHV‐6 in the graft was associated with previous acute rejections, but not with any histopathological changes or reduced renal function. In conclusion, HHV‐6 was a common finding in late renal allograft biopsies of patients with previous CMV infection, but its significance remains to be elucidated.

Comparison of two quantitative real-time CMV-PCR tests calibrated against the 1st WHO international standard for viral load monitoring of renal transplant patients

Cytomegalovirus (CMV) replication in organ transplant recipients is commonly diagnosed by quantitative PCR methods. However, there has been a poor inter‐laboratory correlation of viral load values due to the lack of an international reference standard. In a recent study, the COBAS® AmpliPrep/COBAS® TaqMan® (CAP/CTM) CMV test calibrated to the 1st WHO CMV standard, showed good reproducibility in CMV load values across multiple laboratories. Fifty‐seven follow‐up plasma specimens from 10 kidney transplant recipients with CMV replication were examined using the new quantitative CAP/CTM CMV test and the “in‐house” quantitative CMV real‐time PCR method, also calibrated against the 1st WHO CMV standard for their clinical applicability for monitoring CMV load in renal transplant patients. By CAP/CTM CMV test 49/57 specimens were CMV‐DNA positive compared to 44/57 by the “in‐house” PCR test. The “in‐house” PCR and CAP/CTM CMV test correlated well in monitoring individual kidney transplant patients. Conversion of the CMV‐DNA copies to IUs made the results of the “in‐house” PCR and CAP/CTM CMV test less uniform in analysis of the patient samples. In specimens of one patient, significant underquantification of CMV load with “in‐house” PCR emerged during follow‐up due to a point mutation in the “in‐house” PCR primer sequence. The CAP/CTM CMV test was found suitable for diagnosing and monitoring CMV replication in renal transplant patients. Multicenter studies are needed to provide more information of the commutability of the 1st WHO CMV standard and to define the clinical thresholds. J. Med. Virol. 86:576–584, 2014.

Prospective study on CMV-reactivations under preemptive strategy in CMV-seropositive adult liver transplant recipients

BACKGROUND Cytomegalovirus (CMV) is a significant infectious agent after liver transplantation. To prevent CMV, most centres use prophylaxis for high-risk CMV-seronegative recipient/seropositive donor and many even for all seropositive recipients. However, pre-emptive therapy is commonly used for seropositive patients. OBJECTIVES A prospective, long-term follow-up of CMV-seropositive adult liver-transplant patients under pre-emptive strategy was investigated. STUDY DESIGN CMV-seropositive liver recipients were monitored for CMV by real-time quantitative plasma polymerase chain reaction (PCR) and received ganciclovir/valganciclovir pre-emptive therapy. The 161 patients with follow-up of >4 years were included in the study. RESULTS No CMV was detected in most cases 98/161 (61%), but 63/161 (39%) developed CMV-DNAaemia mean 49 days (7-183 days) after transplantation. Only 25/63 reactivations exceeded 5000 copies/ml, which was considered as cut-off for the pre-emptive treatment by the method used (median 21,500, range 5100-813300 copies/ml) and most were self-limiting, low-level DNAaemias (median 850, range 234-4000 copies/ml). Thus, low-level temporal CMV viraemia occurred in 38/161 patients (23.5%) and only 25/161 (15.5%) demonstrated significant viral loads. Recurrent CMV appeared in one patient with low-level and in 11/25 with high-level DNAaemia, only 5/11 exceeding 5000 copies/ml. CMV infections were successfully treated with ganciclovir/valganciclovir. Four patients with low and three with high DNAaemia have been retransplanted. Five patients with low and two with high DNAaemia have died subsequently. No patient or graft was lost due to CMV. CONCLUSIONS Most CMV-seropositive liver recipients did not develop CMV reactivation, and if reactivations occurred, most were temporal, low-level DNAaemias. Significant CMV infections were successfully treated and recurrences were rare.

Quantitative HHV-6B antigenemia test for the monitoring of transplant patients

Human herpesvirus-6 (HHV-6) infection, mostly caused by variant B, is common after transplantation. Here, we report a new modified method using an HHV-6B glycoprotein IgG antibody, OHV-3, and attempt to quantify the HHV-6 antigenemia after liver transplantation. Twenty-four liver transplant recipients were frequently monitored by the HHV-6 antigenemia test, which detects the HHV-6B virion protein in peripheral blood mononuclear cells (PBMC). HHV-6B antigens were now retrospectively demonstrated using a glycoprotein OHV-3 IgG antibody in the immunoperoxidase staining from the same specimens and quantified as positive cells/10,000 PBMC. The results were confirmed and quantified by DNA hybridization in situ. Altogether, 206 blood specimens were analyzed. During the first six months, HHV-6 antigenemia was detected in 17/24 (71%) recipients by using the HHV-6B virion antibody. In total, 37% (77/206) of specimens were positive with the virion antibody and 39% (78/201) by the OHV-3 antibody. The peak number of OHV-3-positive cells in the PBMC varied from 5 to 750/10,000 (mean 140/10,000). The OHV-3 antibody was useful to quantify the HHV-6B antigenemia. The findings of the HHV-6B quantitative antigenemia using the OHV-3 antibody correlated well with the previous qualitative HHV-6 antigenemia assay, and can be used as an alternative quantitative method in the monitoring of HHV-6 in transplant patients.

CMV-induced class II antigen expression in various rat organs.

Abstracts Cytomegalovirus (CMV) is thought to trigger acute or chronic allograft rejection by inducing the expression of MHC class II antigens in the graft. This induction may be mediated by γ‐interferon or directly by CMV. In this study, we have investigated which structures in the rat kidney, liver, and heart are responsive to CMV‐induced class II expression in vivo. Rats were infected with rat CMV, the organs were harvested during the acute phase of infection, and the virus was demonstrated by culture from each organ. Direct CMV antigen detection was performed on frozen sections to demonstrate the detailed localization of CMV in the organs. In the kidney, CMV antigens were found in the vascular endothelium, in tubular cells, and scattered in the glomeruli. In the liver, the vascular structures and parenchyma contained CMV antigens. In the heart, CMV antigens were seen only in the capillary endothelium. Class II antigen expression was demonstrated by a monoclonal antibody and immunoperoxidase techniques. The induction of class II molecules was recorded in exactly the same cellular structures as those in which CMVantigens were detected.