WU and KI polyomaviruses in respiratory,blood and urine samples from renal transplant patients

BackgroundIt is suggested that immunosuppression due to transplantation might be a risk for human polyomavirus KI (KIPyV) and WU (WUPyV) infection. Most of the publications report data about stem cell transplant patients, little is known about these virus infections in renal transplant patients.ObjectivesTo study the presence of KIPyV and WUPyV in upper respiratory, plasma and urine samples from renal transplant patients. To analyse clinical and personal data.Study design532 respiratory, 503 plasma and 464 urine samples were collected from 77 renal transplant patients. KIPyV and WUPyV were detected by nested and quantitative real-time PCR. Patient and clinical data from medical records were analyzed.ResultsKIPyV was detected in respiratory, plasma and urine samples from 14.3%, 3.9% and 4.1% of renal transplant patients. WUPyV was found in respiratory and plasma specimens from 9.1% and 5.3% of the patients. Significant association was revealed between the detection of KIPyV and WUPyV and the time of samples collection and the age of the patients. KIPyV was presented in respiratory and plasma sample at the same time. KIPyV was detected in plasma samples from two patients and in urine samples of three other patients providing also KIPyV positive respiratory samples at the same time. No clinical consequences of KIPyV or WUPyV infection were found.ConclusionAlthough no clinical consequences of KIPyV and WUPyV infections were found in renal transplant patients, it is suggested that renal transplantation might result in higher susceptibility or reactivation of these infection.     

Molecular epidemiology of KI and WU polyomaviruses in infants with acute respiratory disease and in adult hematopoietic stem cell transplant recipients

Polyomaviruses KI (KIPyV) and WU (WUPyV) were described recently in children with acute respiratory disease. The pathogenic potential of these human viruses has not been determined completely, but a correlation between immunosuppression and virus reactivation has been suggested. In the present study, the association between KI/WUPyV infection and immunosuppression was investigated using sequential nasopharyngeal aspirates from asymptomatic adult hematopoietic stem cell transplant recipients. In parallel, an investigation on the WU/KIPyV prevalence in children with acute respiratory disease was also carried out. Two of the 126 samples obtained from the 31 hematopoietic transplant recipients were positive for KIPyV (1 sample, 0.79%) and WUPyV (1 sample, 0.79%). Both samples were obtained 15 days after allogeneic transplantation and virus persistence was not observed in subsequent samples. In symptomatic children, 7 of the 486 nasopharyngeal aspirates were positive for WUPyV (1.4%) and 1 for KIPyV (0.2%). Single polyomavirus infection was detected in four patients, whereas the remaining patients were co‐infected with respiratory syncityal virus (three patients) or adenovirus (one patient). The results suggest that WU/KIPyVs have a limited circulation in Italy and a low pathogenic potential in young children. Brief and asymptomatic infection can occur in hematopoietic transplant recipients. J. Med. Virol. 82:153–156, 2010. © 2009 Wiley‐Liss, Inc.     

Monitoring of KI and WU polyomaviruses in hematopoietic stem cell transplant patients

Primary infection with KIPyV and WUPyV polyomaviruses occurs early in childhood followed by lifelong persistence in the body. Polyomavirus reactivation can occur in the presence of impaired immunity as in hematological malignancies or during immunosuppresssion induced by medications. In this study, reactivation of KIPyV and WUPyV was monitored by conventional PCR in plasma samples of 26 stem cell transplant patients and in 26 related bone marrow donors. Plasma samples from transplant patients were collected immediately after the end of conditioning regimen and up to 270 days after transplant. All plasma samples from transplant patients were negative for KIPyV and WUPyV DNA. Instead, KIPyV DNA was detected in two bone marrow donors. There was no evidence of KIPyV transmission from the donor to the recipient. The data suggest that detection of KIPyV in plasma is sporadic and that KPIyV and WUPyV do not affect the post‐transplant clinical course. However, further studies on a larger sample size and more sensitive PCR methods are needed to confirm these observations. J. Med. Virol. 85: 1122–1124, 2013. © 2013 Wiley Periodicals, Inc.     

Secondary lymphoid tissue as an important site for WU polyomavirus infection in immunocompetent children

The polyomaviruses KI and WU (KIPyV and WUPyV) have been identified in respiratory specimens from children with acute respiratory infections, which suggests the respiratory tract as a possible site of infection. However, the persistence of infection in the lymphoid system is unknown. Fresh samples (n = 211) of tonsils, adenoids, and peripheral blood mononuclear cells (PBMCs) from 83 immunocompetent children (mean age 4.8 years) were tested for amplification of the KIPyV VP1 and WUPyV VP2 genes. The known BK and JC polyomaviruses and the lymphotropic human herpesvirus (HHV)-6 were also investigated by quantitative real-time PCR and direct sequencing. In addition, 98 nasopharyngeal swabs collected from children (mean age 6.2 years) affected by seasonal influenza-like illness were tested. Of the lymphoid tissues, 34.9% were positive for WUPyV, 4.8% for BK virus, and 33.8% for HHV-6. KIPyV and JC virus were not detected in these specimens. None of the polyomaviruses were detected in PBMCs. Among the nasopharyngeal samples, the prevalence of WUPyV was 27.5%, although 70% of the positive samples were co-infected with at least one of the following respiratory viruses: influenza virus, adenovirus, and respiratory syncytial virus. Phylogenetic analysis revealed high sequence homology (99%) between lymphoid- and nasopharynx-derived WUPyV strains. These results suggest that the tonsils and adenoids of immunocompetent children are a reservoir for WUPyV infection; probably due to the respiratory route of transmission. In addition, the prevalence of WUPyV was high among the children, and the virus was identified more frequently in older children than during the first years of life.     

The human polyomaviruses KI and WU: virological background and clinical implications

In 2007, two novel polyomaviruses KI and WU were uncovered in the respiratory secretions of children with acute respiratory symptoms. Seroepidemiological studies showed that infection by these viruses is widespread in the human population. Following these findings, different biological specimens and body compartments have been screened by real‐time PCR in the attempt to establish a pathogenetic role for KI polyomavirus (KIPyV) and WU polyomavirus (WUPyV) in human diseases. Although both viruses have been found mainly in respiratory tract samples of immunocompromised patients, a clear causative link with the respiratory disease has not been established. Indeed, the lack of specific clinical or radiological findings, the frequent co‐detection with other respiratory pathogens, the detection in subjects without signs or symptoms of respiratory disease, and the variability of the viral loads measured did not allow drawing a definitive conclusion. Prospective studies carried out on a large sample size including both immunocompromised and immunocompetent patients with and without respiratory symptoms are needed. Standardized quantitative real‐time PCR methods, definition of a clear clinical cutoff value, timing in the collection of respiratory samples, are also crucial to understand the pathogenic role, if any, of KIPyV and WUPyV in human pathology.     

Polyomaviruses KI and WU in children with respiratory tract infection

The polyomaviruses KI (KIPyV) and WU (WUPyV) have recently been discovered in specimens from patients with respiratory tract infections. To analyze the frequency and clinical impact in a cohort of pediatric patients in a German University Children’s Hospital. Nasopharyngeal aspirates or bronchoalveolar lavage specimens of 229 children with acute respiratory tract infection were screened for KIPyV and WUPyV using polymerase chain reaction-based methods. KIPyV was detected in 2 (0.9%) and WUPyV in 1 (0.4%) patients, without co-infections with other respiratory viruses but with co-detection of CMV, EBV and HHV 6 in one immunocompromised patient. Only a very small proportion (1.3%) of positive samples for KIPyV and WUPyV was documented in this study; the clinical relevance of these viruses remains unclear and requires further evaluation.     

WU polyomavirus infection among children in South China

This study aimed at investigating the prevalence and clinical characteristics of children with respiratory infection by WU polyomavirus (WUPyV) in Southern China. Nasopharyngeal aspirate samples were collected from 771 children with acute respiratory tract infection admitted to hospital and 82 samples from healthy subjects for routine examination at the outpatient service at the Second Affiliated Hospital of Shantou University, Medical College from July 2008 to June 2009. WUPyV was detected by the polymerase chain reaction (PCR) and DNA sequencing. All WUPyV‐positive specimens were characterized further for nine viruses causing common respiratory infections, including in?uenza A and B, respiratory syncytial virus (RSV), parainfluenza virus (PIV) 1 and 3, human metapneumovirus, human bocavirus, adenovirus, and rhinovirus by PCR or real time (RT)‐PCR. Fifteen out of 771 specimens from patients with acute respiratory tract infection, but none from healthy subjects, were positive for WUPyV and the positivity rate was 2%. Patients with WUPyV infection were between 2 and 48 months of age, and nine of the patients were male while six female. Four out of 15 patients were co‐infected with RSV, one with adenovirus or rhinovirus, respectively. Patients with WUPyV infection displayed predominantly cough, moderate fever, and wheezing, and were diagnosed with pneumonia (n = 8), bronchiolitis (n = 4), upper respiratory tract infections (n = 2) and bronchitis (n = 1). One patient developed encephalitis. Therefore, WUPyV infection can cause acute respiratory tract infection with atypical symptoms, including severe complications, in children. J. Med. Virol. 83:1440–1445, 2011. © 2011 Wiley‐Liss, Inc.     

A comparative study of BK and JC virus infections in organ transplant recipients

JC virus (JCV) rarely causes kidney disease, whereas BK virus (BKV) is a known cause of viral nephropathy. Existing studies on prevalence of JCV in healthy and transplanted subjects have reported only qualitative detection of viral DNA. We used quantitative PCR (qPCR) to assess JC viral load in transplant recipients and non-immunosuppressed controls, and compared JCV loads to BKV loads. JC viruria was seen in 8/23 (34.7%) controls, 23/103 (22.3%) renal, and 10/44 (22.7%) liver transplant patients. No patient developed JC viremia. BK viruria was seen in 2/23 (8.7%) controls, 36/103 (34.9%) renal, and 7/44 (15.9%) liver transplant patients. BK viremia was seen only in the kidney (8/103 = 7.7%) patients. The mean BKV urinary load was higher in kidney compared to liver patients and controls (4.22E + 07 vs. 2.88E + 05 vs. 4.39E + 02 copies/ml), whereas JC viral load was similar for all three patient groups (1.55E + 06 vs. 2.66E + 06 vs. 2.13E + 06 copies/ml). JCV viral loads were surprisingly high in all patient categories studied, but did not result in viremia or viral nephropathy. Although both BKV and JCV are widely latent in patients accepted for transplantation, concurrent reactivation of both viruses was infrequent. BKV viremia was seen in kidney but not liver recipients. The mechanisms underlying these notable phenomena remain to be investigated.     

Detection and quantitation of BK virus DNA by real-time polymerase chain reaction in the LT-ag gene in adult renal transplant recipients

Determination of polyomavirus BK (BKV) load in urine and plasma has been advocated for monitoring adult renal transplant recipients suffering from BKV-related nephropathy. An "in-house" real-time quantitative PCR assay was developed using the BKV-1/BKV-3 primers set in the large tumor antigen (LT-ag) region to quantitate BK virus loads in plasma and urine in renal transplant patients. This assay was adapted to routine virology laboratory by evaluating two extraction procedures of nucleic acids from urine and plasma, one manual and the other using an automatic extractor, and by evaluating the Light Cycler versus Taqman apparatus. Both the manual and automatic extraction procedures and real-time PCR apparatus were equivalent. The Light Cycler and Taqman instruments allow similarly rapid, accurate, reproducible and specific quantitative detection of the three major BKV subtypes, with a detection limit of 10 BKV DNA copies/ml, and a range from 10(0) to 10(7) copies/ml. Of 855 renal transplant patients, 128 (15%) had BKV DNA in both plasma and urine samples with a mean viral load of 5.1 log/ml in plasma and 6.8 log/ml in urine and in 5 (4%) BKV-associated tubulo-interstitial nephropathy; 332 (39%) BKV DNA was found only in the urine, not in the plasma, without further development of nephropathy and 395 patients had no BKV in plasma and urine. These observations emphasize the usefulness of real-time PCR to assess the BKV load by routine testing, and confirm the need to combine both plasma and urine determinations of the BKV DNA load in order to identify renal transplant patient at high risk for BKV-associated nephropathy.     

Multiple Skin Cancers in a Renal Transplant Recipient: A Patient Report with Analyses of Human Papillomavirus and Human Polyomavirus Infection

Skin cancer is an important complication in renal transplant recipients. Associations of transplant-related skin tumor with ultraviolet radiation, age at transplantation, type of immunosuppressant drug administered, and viral infection have been reported; however, the details remain unclear. We report a 61-year-old man who had underwent renal transplantation at 38 years of age and developed multiple skin tumors or squamous cell carcinomas (SCCs). Polymerase chain reaction (PCR) analyses of the patient’s 12 tumors for viral DNAs of cutaneous or mucosal human papillomavirus (HPV) and 6 human polyomaviruses (MCPyV, trichodysplasia spinulosa-associated, BK, JC, KI and WU polyomaviruses) only detected cutaneous HPV-DNA in only 5 of the tumors; no other viruses were detected. Real-time PCR showed high loads of cutaneous HPV in 3 SCCs and very low loads of MCPyV in 9. Immunohistochemistry revealed no tumor cell expression for MCPyV-large T-antigen or mucosal HPV. Our report not only reconfirmed the association of cutaneous HPV5 with skin cancer in renal transplant recipients in previous studies but also showed no relevant association of 6 human polyomaviruses and mucosal HPV with skin tumors.     

Assessment of infection with polyomaviruses BKV, JCV and SV40 in different groups of Cuban individuals

We investigated the frequency of BKV, JCV and SV40 reactivation in three groups of Cuban patients by multiplex nested PCR assay of 40 paraffin-embedded colorectal neoplasm tissues, 113 urine samples, and 125 plasma samples from 27 transplant recipients, and cerebrospinal fluid (CSF) from 67 HIV-1-infected individuals with central nervous system (CNS) disorders. None of these polyomaviruses were detected in colorectal neoplasms. JCV DNA was detected in 2 of 67 patients (2.9%) with CNS disorders, but neither BKV nor SV40 was identified. BKV was found in urine from 38.5% and 28.6% of adult and pediatric transplant recipients, respectively. In adult renal transplant recipients, excretion of BKV in urine was significantly associated with episodes of acute rejection (p=0.012) and with excretion of HCMV in urine (p= 0.008). In Cuba, the polyomaviruses studied here could not be related to colorectal neoplasms, and JCV was rarely detected in CSFs of HIV-1-infected individuals, whilst BKV reactivation was found to occur frequently in organ transplant recipients.     

Quantitative PCR in the diagnosis of CMV infection and in the monitoring of viral load during the antiviral treatment in renal transplant patients

Cytomegalovirus (CMV) infection is a significant problem in transplantation. In this study, a quantitative PCR test was compared with the CMVpp65 antigenemia assay not only in the diagnosis CMV infections but especially in the monitoring of viral loads during ganciclovir treatment of CMV disease in individual renal transplant patients. Altogether 342 blood specimens were obtained from 116 patients. Blood specimens were used for Cobas Amplicor Monitor plasma PCR and for the pp65 assay. Also shell vial culture was performed. The patients with a positive pp65 finding were monitored for CMV weekly during ganciclovir treatment and/or until the antigenemia subsided. CMV was detected in 31/116 (27%) patients, of whom 14 (12%) developed CMV disease and were treated with ganciclovir. CMV was found by shell vial culture in 13/14 cases, but by PCR and pp65 test in all 14 patients. CMV was detected in 156 (45%) samples; by PCR in 121/156 (range 344-103,000 copies/ml) and by pp65 test in 138/156 (range 1-1,000 positive cells/50,000 leukocytes) and by culture in 59/156 (38%) only. The peak viral loads were significantly (P<0.0001) higher in CMV disease than in untreated infections (19,650 vs. 379 copies/ml, and 100 vs. 5pp65 positive cells). In the monitoring of individual patients, the time-related CMV-DNAemia and pp65 antigenemia correlated well during the treatment of CMV disease. In conclusion, Cobas Amplicor Monitor plasma PCR and CMVpp65 antigen assays can be equally used in the diagnosis CMV infection and in the monitoring of viral load during antiviral treatment.     

A prospective study of renal transplant recipients reveals an absence of primary JC polyomavirus infections

BackgroundBoth JC polyomavirus (JCPyV) and BK polyomavirus (BKPyV) are acquired at an early age. JCPyV causes progressive multifocal leukoencephalopathy and has been described in association with nephropathy.ObjectivesUrine and plasma samples from renal transplant recipients (RTRs) were examined for JCPyV to determine its involvement in causing infection and disease.Study designJCPyV testing was performed on 112 RTRs included in a randomised controlled study of steroid-sparing immunosuppressive regimens [1]. Urine and EDTA blood samples were collected pre- and post-transplantation and analysed for JCPyV using real-time PCR and sequencing to determine genotype and viral variation. Donor and recipient IgG antibody status to JCPyV was also determined.ResultsOverall, 13.3% of RTRs were positive for JCPyV of which one patient developed viraemia without viruria. JCPyV DNA was detected early following transplantation (defined as five days post transplantation) from recipients with donors that were positive for JCPyV IgG antibodies. No dual cases of JCPyV and BKPyV were observed. One patient sample had sequence duplication in the non-coding control region.ConclusionsLike BKPyV, JCPyV tends to occur early post transplantation but did not result in sustained viraemia. There was no deterioration of renal function in patients positive for JCPyV. As with other viruses, JCPyV donor serostatus was a risk factor for detection of JCPyV DNA. JCPyV appears to protect individuals from BKPyV infection, as recipients were twice as likely to develop BKPyV with a negative JCPyV donor.     

No evidence for an association between infections with WU and KI polyomaviruses and respiratory disease

BACKGROUND: WU virus (WUV) and KI polyomavirus (KIPyV) are newly discovered related human polyomaviruses detected in respiratory samples. To investigate their potential role in respiratory disease, we determined their frequencies of detection, clinical presentations and epidemiological characteristics among samples referred for diagnostic respiratory virus testing. METHODS: Anonymised samples and accompanying study subject information were obtained from the Edinburgh respiratory specimen archive. Samples were screened by nested PCR using two sets of primers conserved between WUV and KIPyV, as well for other respiratory viruses (respiratory syncytial virus [RSV], adenoviruses [AdV], influenza A/B and parainfluenza viruses 1-3, human bocavirus, B19). RESULTS AND CONCLUSIONS: WUV and KIPyV were detected in 10 and 14 samples, respectively from 983 specimens (from 9 to 10 different individuals from 612 study subjects). Infections occurred in two types of study subject; those who were young (<2 years) with lower respiratory tract infections (n=8), and almost invariably co-infected with other respiratory viruses (RSV, AdV), and a second, generally older group either without respiratory disease (n=6) or with mild upper respiratory tract infections (n=5) but who were generally clinically severely immunosuppressed from leukaemia or transplant therapy. Findings from either group do not support an aetiological link between infection with WUV or KIPyV and respiratory disease.     

Incidence of JC viruria is higher than that of BK viruria in Taiwan

To investigate the prevalence of human polyomaviruses in Taiwan, urine samples from immunocompetent (healthy), transient immunocompromised (pregnant), and prolonged immunosuppressed (autoimmune disease) individuals were collected throughout the island. The viral DNA in the urine was detected by the polymerase chain reaction (PCR) and Southern blot. The viral genotypes were determined by DNA sequencing within the regulatory region. The overall results, including cases reported previously, show that 13.3% (10/75) of immunocompetent individuals, 26.0% (20/77) of pregnant women, and 37.5% (18/48) of autoimmune disease patients are JCV positive. All of the immunocompetent individuals are BKV negative, but 3.9% (3/77) of the pregnant women and 6.2% (3/48) of autoimmune disease patients are BKV positive. Twenty-four percent (48/200) of the examined urine samples were JCV positive, but only 3% (6/200) were BKV positive. JCV positive individuals were mainly infected with CY (42%) and TW-1 (52%) subtypes. These results suggest that the incidence of urinary excretion of human polyomaviruses in immunosuppressed individuals is higher than that of immunocompetent individuals. The prevalence of JCV appears to be higher than that of BKV in Taiwan. In addition, CY and TW-1 are the predominant subtypes of JCV prevalent in the Taiwanese population. J. Med. Virol. 52:253–257, 1997. © 1997 Wiley-Liss, Inc.     

Monitoring of cytomegalovirus infection in solid-organ transplant recipients by an ultrasensitive plasma PCR assay

Early and accurate monitoring of cytomegalovirus (CMV) infection in solid-organ transplant recipients is of major importance. We have assessed the potential benefit of an ultrasensitive plasma-based PCR assay for renal transplant recipients. The pp65 CMV antigen (pp65 Ag) assay using leukocytes was employed as a routine test for the monitoring of CMV in 23 transplant recipients. We compared the pp65 antigenemia with the CMV load quantified by an ultrasensitive PCR (US-PCR) with a limit of detection of 20 CMV DNA copies/ml of plasma. CMV infection was detected in 215 (67%) of 321 plasma samples by the US-PCR compared with 124 (39%) of 321 samples by the pp65 Ag assay. The US-PCR assay permitted the detection of CMV infection episodes following transplantation a median of 12 days earlier than the pp65 Ag assay. Moreover, during CMV infection episodes, DNA detection by the US-PCR was consistently positive, whereas false negative results were frequently observed with the pp65 Ag assay. We found a good correlation between the two assays, and the peak viral loads were significantly higher in patients with CMV-related complications (median, 5000 DNA copies/ml) than in those without symptoms (1160 DNA copies/ml) (P = 0.048). In addition, patients that did not require preemptive therapy based on the results of the pp65 assay had CMV loads significantly lower (median, 36 DNA copies/ml) than those that needed treatment (median, 4703 DNA copies/ml) (P < 0.001). These observations provided cutoff levels that could be applied in clinical practice. The ultrasensitive plasma-based PCR detected CMV infection episodes earlier and provided more consistent results than the pp65 Ag assay. This test could improve the monitoring of CMV infection or reactivation in renal transplant recipients.     

HCMV DNA detection and quantitation in the plasma and PBL of lung transplant recipients: COBAS Amplicor HCMV monitor test versus in-house quantitative HCMV PCR.

BACKGROUND: Human cytomegalovirus (HCMV) reactivation may cause severe disease in immunosuppressed patients. Quantitation of HCMV viral load in the blood has been shown to be important in predicting for HCMV disease, however the particular blood compartment that should be tested, plasma versus peripheral blood leukocytes (PBL), has been subject to debate. OBJECTIVES: To simultaneously compare HCMV viral loads in the PBL using an in-house quantitative HCMV polymerase chain reaction (PCR) assay and in the plasma using the commercially available COBAS Amplicor HCMV monitor test, in a cohort of lung transplant recipients (LTR). STUDY DESIGN: Sequential paired plasma and PBL samples were collected (n=98) from a total of 21 LTR during the first 6 months post lung transplantation. HCMV viral loads were assessed in the PBL using an in-house quantitative HCMV PCR assay and the plasma using the COBAS Amplicor HCMV monitor test. HCMV disease in LTR was defined as histopathologically proven HCMV pneumonitis. RESULTS: HCMV deoxyribonucleic acid (DNA) was detected in 39/98 (40%) of total samples with excellent agreement between the two strategies. HCMV was detected in both the plasma and PBL in 38/39 (97%) of HCMV positive samples. HCMV viral loads were higher in patients with HCMV pneumonitis in both the PBL and plasma compared to patients without HCMV pneumonitis. Greater than 10-fold increases in HCMV DNA levels had a sensitivity of 88% and a specificity of 73% in the plasma for HCMV pneumonitis and a positive and negative predictive value of 70 and 89%, respectively. Greater that 10-fold increases in HCMV DNA levels in the PBL had a sensitivity of 88% and a specificity of 64%, for HCMV pneumonitis and a positive and negative predictive value of 64 and 88%, respectively. CONCLUSIONS: Acknowledging the difference in assay methods used for HCMV DNA quantitation, the in-house PCR PBL assay and the COBAS Amplicor HCMV monitor plasma assay predicted equally well for HCMV pneumonitis in LTR.     

Quantification of human polyomavirus JC virus load in urine and blood samples of healthy tribal populations of North-Eastern part of West Bengal,India

Background: Human polyomavirus JC (JCV) is a widespread human virus with profound pathogenic potential. A study was undertaken to quantify JCV load in urine and peripheral blood samples of immunocompetent, apparently healthy tribal individuals of North-Eastern part of West Bengal, India for the first time. Materials and Methods: One hundred and thirteen samples of urine or blood were collected from different tribal groups of this region. For the quantitative estimation of the viral load in each sample, real-time polymerase chain reaction method using the SYBR Green dye was employed. Results: The viral load estimated was found in the range between 3.5 × 10² and 2.12 × 10⁶ copies/ml of samples having a mean and median viral copy numbers of 8.67 × 10⁵ and 9.19 × 10⁵ copies/ml of sample respectively. Conclusion: The mean viral DNA load in urine samples of the studied immunocompetent population was found to be higher than that found in a study conducted in the USA, but lower than similar groups of Italy and healthy adult women in the USA. However when compared with median values of viral DNA loads in urine samples of immunocompetent human subjects of Kuwait, Portugal, and Switzerland the observed viral DNA load was found to be substantially higher.     

Persisting TT virus (TTV) genogroup 1 variants in renal transplant recipients

Summary.  TT virus (TTV) genogroup 1 infection has an increased prevalence in solid organ transplant recipients. In this study, the presence of TTV in renal transplant recipients was examined by two PCR methods, one capable of detecting most TTV genotypes (UTR-PCR), the other specific to genogroup 1 (N22-PCR). The N22-PCR detected TTV in 57% (53/92) of the renal transplant patients and in 20% (13/66) of the healthy individuals, while the prevalence of TTV with the UTR-PCR was above 90% in both the control and the patient groups. The N22-PCR was used in longitudinal studies of 31 renal transplant recipients, these PCR products were sequenced and aligned. TTV status was not associated with the patients’ age at transplantation, male to female ratio and the time lag between kidney transplantation and the TTV test. During the follow-up consistent TTV status was found in 26 patients, while two initially TTV positive patients converted to negative and three initially negative patients converted to positive. The TTV variants varied among the tested patients, but were the same in the consecutive samples of each patient, indicating that TTV infection was persistent in renal transplant recipients and novel infection occured rarely in the post-transplant period. Received October 2, 2002; accepted December 27, 2002 Published online March 13, 2003     

Multiplex Real-Time PCR Assay for Simultaneous Quantification of BK Polyomavirus,JC Polyomavirus,and Adenovirus DNA

In recent years, virus-induced nephropathy caused mainly by BK polyomavirus (BKPyV), JC polyomavirus (JCPyV), and adenovirus has emerged as a problem in renal transplant patients. In the present study, we developed a multiplex real-time PCR assay to quantify the viral load of BKPyV, JCPyV, and adenovirus simultaneously. The dynamic range covered at least 6 orders of magnitude. This system was specific and reproducible, even in the presence of large amounts of DNA of other viruses. To validate this assay, urine samples from 124 renal transplant patients and serum samples from 18 hemorrhagic cystitis patients after hematopoietic stem cell transplantation were examined. In the urine samples from renal transplant patients, BKPyV was detected in 28 patients (22.6%), JCPyV was detected in 51 patients (41.1%), and adenovirus was detected in 2 patients (1.6%). The maximum amounts of each virus detected were 2.7 × 10⁹, 8.7 × 10⁸, and 1.2 × 10² copies/ml, respectively. Decoy cells were observed in 31 patients. The quantities of both BKPyV and JCPyV DNA were greater in samples with decoy cells. Two patients whose BKPyV viral loads exceeded 10⁸ copies/ml had elevated serum creatinine levels and were diagnosed with BKPyV nephropathy based on graft biopsies. In serum samples from hemorrhagic cystitis patients, BKPyV, JCPyV, and adenovirus was detected in six, two, and three patients, respectively. Strong correlations were observed between the viral DNA copy numbers determined in the multiplex assays and those determined in single assays. Since this new assay is rapid, sensitive, and specific, it can be used for quantitative analyses of viruses in urine and serum samples after transplantation.Although immunological rejection after renal transplantation has decreased with advances in immunosuppressive therapy, virus-induced nephropathy, which was rare with conventional immunosuppressants, has become a clinical problem. BK polyomavirus (BKPyV) is a prevalent pathogen causing virus-induced nephropathy, and other viruses, including JC polyomavirus (JCPyV) and adenovirus, can cause nephropathy (1, 4, 13). These viruses commonly infect a large number of people in childhood and remain latent in the urinary tract after primary infection. Reactivation with asymptomatic viruria may occur in both immunocompetent subjects and immunocompromised patients.For the early diagnosis and treatment of BKPyV nephropathy, urine cytology is useful for screening high-risk patients (1). The virus-infected urothelial cells called “decoy cells,” identified by their typical ground glass intranuclear inclusions on cellular smears stained by the Papanicolaou method, are observed in most patients with BKPyV nephropathy. However, decoy cells are not specific for the presence of BKPyV in urine and can be found in JCPyV and adenovirus infection (1, 4, 22). Therefore, the detection of viral DNA is essential for a precise diagnosis and the identification of patients at high risk for nephropathy. In addition, hemorrhagic cystitis can be observed after hematopoietic stem cell transplantation and sometimes after renal transplantation. This involves sustained hematuria and symptoms of lower urinary tract irritability, such as dysuria with frequency and urgency. It is caused most often by adenovirus with serotypes 11, 34, and 35 in subgroup B, although BKPyV and JCPyV can also cause hemorrhagic cystitis (6, 22).Recently, real-time PCR methods have been introduced into clinical virology for the quantitative detection of viral copy numbers, and the exact determination of virus genome copy numbers provides useful information about the magnitude of the infection, which is beneficial for evaluating whether the detected virus is pathogenic, especially with latent virus infections. Previously, we developed multiplex real-time PCR systems that can quantify three viruses simultaneously (20, 21) and put the technique into clinical practice after stem cell transplantation. The use of these systems reduces significantly the time and labor required for the examination of each virus.The present study developed a multiplex real-time PCR assay for the simultaneous quantification of BKPyV, JCPyV, and adenovirus and validated it for the quantitative determination of viral loads. This method was then further validated on samples of urine and serum from posttransplant patients.