SARS-CoV-2 inhibitory activity of a short peptide derived from internal fusion peptide of S2 subunit of spike glycoprotein.

Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has posed a great concern in human population. To fight coronavirus emergence, we have dissected the conserved amino acid region of the internal fusion peptide in the S2 subunit of Spike glycoprotein of SARS-CoV-2 to design new inhibitory peptides. Among the 11 overlapping peptides (9-23-mer), PN19, a 19-mer peptide, exhibited a powerful inhibitory activity against different SARS-CoV-2 clinical isolate variants in absence of cytotoxicity. The PN19 inhibitory activity was found to be dependent on conservation of the central Phe and C-terminal Tyr residues in the peptide sequence. Circular dichroism spectra of the active peptide exhibited an alpha-helix propensity, confirmed by secondary structure prediction analysis. The PN19 inhibitory activity, exerted in the first step of virus infection, was reduced after peptide adsorption treatment with virus-cell substrate during fusion interaction. Additionally, PN19 inhibitory activity was reduced by adding S2 membrane-proximal region derived peptides. PN19 showed binding ability to the S2 membrane proximal region derived peptides, confirmed by molecular modelling, playing a role in the mechanism of action. Collectively, these results confirm that the internal fusion peptide region is a good candidate on which develop peptidomimetic anti SARS-CoV-2 antivirals.

Screening of the essential oil effects on human H1N1 influenza virus infection: an in vitro study in MDCK cells.

Nineteen essential oils (EOs) obtained from different plants have been evaluated for their potential in vitro anti-H1N1 influenza virus efficacy. Both multivariate analyses and bivariate correlation were performed to better understand how the composition influences the activity. The results evidenced that for the laboratory distilled EOs both rosemary hybrids (S. x lavandulaceus and S. x mendizabalii) showed a good antiviral activity with low cytotoxic effect. Concerning the commercial ones: Eucalyptus globulus and Juniperus communis EOs exhibited virtuous effects on influenza virus. These results were confirmed by the multivariate analyses and only eucalyptol showed a positive correlation with cell viability. On the contrary, o-cymene and terpinolene correlated to the inhibitory effect. Rosemary hybrids, E. globulus and J. communis could be considered as promising candidate to develop new alternative anti-H1N1 natural agent.

Quantification of torque teno virus (TTV) DNA in saliva and plasma samples in patients at short time before and after kidney transplantation.

BACKGROUND: Several reports have proposed that the viral load of torque teno virus (TTV) in plasma is a biomarker of immune function in solid organ transplantation (SOT) and in allogeneic hematopoietic stem cell transplantation. Additionally, for the latter one, TTV-DNA quantification in saliva has also been suggested. AIM: to investigate the correlation between the TTV viral load and immune function in paired saliva and plasma samples in patients on kidney transplantation. MATERIALS AND METHODS: TTV-DNA viral load was quantified in paired samples of saliva and plasma from 71 patients before and a short-time after renal-transplantation by real-time PCR. RESULTS: The data obtained from 213 paired samples showed a slight consistency in the comparison between saliva and plasma, with prevalence of TTV-DNA being 58%, 52% and 60% in saliva samples and 60%, 73% and 90% in plasma samples before and at 15-20 and 45-60 days after transplantation, respectively. Additionally, a high TTV viral load was observed in plasma at 15-20 and 45-60 days after transplantation compared to that observed in saliva at the same time. CONCLUSIONS: Overall, monitoring TTV-DNA in saliva samples could be an additional fast non-invasive option to assess the immune functionality in SOT populations.

Detection of polyomavirus microRNA-5p expression in saliva shortly after kidney transplantation.

Background: MicroRNAs (miRNAs) of polyomavirus (PyV) are present in several biological fluids and are suggested to be relevant viral factors for monitoring its persistence. Aim: To evaluate the effect of an immunosuppressive regimen on the status of PyV-miRNA-5p in the oral cavity. Materials and Methods: The JCPyV, BKPyV, MCPyV miRNA-5p were investigated in paired saliva and plasma samples obtained from 23 patients before and shortly after renal-transplantation by using real-time RT-PCR. Results: Overall, within a short-time after transplantation, patients exhibited decreased numbers of leukocyte and lymphocyte as well as low levels of creatinine. During the clinical management of the patients, a significant amount of saliva samples were positive for JCPyV and BKPyV miRNA-5p (range: 26%-91%) compared to paired plasma samples (range: 9%-35%). Among the two polyomaviruses showing positive expression of miRNA-5p, BKPyV presented the highest positivity in saliva (91%) and MCPyV-miRNA-5p was constantly negative in both saliva and plasma samples. Compared to the time before transplantation, a significant reduction in the expression of JCPyV-miRNA-5p was observed in saliva samples obtained after transplantation. Conclusions: Altogether, these data suggest that additional investigations of polyomavirus miRNA-5p in saliva should be performed shortly after renal-transplantation to evaluate the potential role in early viral reactivation.

Unique Domain for a Unique Target: Selective Inhibitors of Host Cell DDX3X to Fight Emerging Viruses.

Emerging viruses like dengue, West Nile, chikungunya, and Zika can cause widespread viral epidemics. Developing novel drugs or vaccines against specific targets for each virus is a difficult task. As obligate parasites, all viruses exploit common cellular pathways, providing the possibility to develop broad-spectrum antiviral agents targeting host factors. The human DEAD-box RNA helicase DDX3X is an essential cofactor for viral replication but dispensable for cell viability. Herein, we exploited the presence of a unique structural motif of DDX3X not shared by other cellular enzymes to develop a theoretical model to aid in the design of a novel class of highly selective inhibitors acting against such specific targets, thus limiting off-targeting effects. High-throughput virtual screening led us to identify hit compound 5, endowed with promising antienzymatic activity. To improve its aqueous solubility, 5 and its two enantiomers were synthesized and converted into their corresponding acetate salts (compounds 11, 12, and 13). In vitro mutagenesis and biochemical and cellular assays further confirmed that the developed molecules were selective for DDX3X and were able to suppress replication of West Nile and dengue viruses in infected cells in the micromolar range while showing no toxicity for uninfected cells. These results provide proof of principle for a novel strategy in developing highly selective and broad-spectrum antiviral molecules active against emerging and dangerous viral pathogens. This study paves the way for the development of larger focused libraries targeting such domain to expand SAR studies and fully characterize their mode of interaction.

Evidence of the Mechanism by Which Polyomaviruses Exploit the Extracellular Vesicle Delivery System during Infection.

Increasing evidence suggests that human viruses can hijack extracellular vesicles (EVs) to deliver proteins, mRNAs, microRNAs (miRNAs) and whole viral particles during viral persistence in the host. Human polyomavirus (PyV) miRNAs, which downregulate large T-antigen expression and target host factors, help the virus escape immune elimination and may have roles in the success of viral persistence/replication and the development of diseases. In this context, several investigations have detected PyV miRNAs in EVs obtained from cell culture supernatants after viral infection, demonstrating the ability of these vesicles to deliver miRNAs to uninfected cells, potentially counteracting new viral infection. Additionally, PyV miRNAs have been identified in EVs derived from the biological fluids of clinical samples obtained from patients with or at risk of severe PyV-associated diseases and from asymptomatic control healthy subjects. Interestingly, PyV miRNAs were found to be circulating in blood, urine, cerebrospinal fluid, and saliva samples from patients despite their PyV DNA status. Recently, the association between EVs and PyV viral particles was reported, demonstrating the ability of PyV viral particles to enter the cell without natural receptor-mediated entry and evade antibody-mediated neutralization or to be neutralized at a step different from that of the neutralization of naked whole viral particles. All these data point toward a potential role of the association between PyVs with EVs in viral persistence, suggesting that further work to define the implication of this interaction in viral reactivation is warranted.

Archetype JC polyomavirus DNA associated with extracellular vesicles circulates in human plasma samples.

BACKGROUND: JC polyomavirus (JCPyV) establishes a stable and successful interaction with the host, causing progressive multifocal leukoencephalopathy (PML) in immunocompromised subjects. Recently, it has been reported that JCPyV, like other viruses, may exploit extracellular vesicles (EV) in cell cultures. OBJECTIVE: To investigate the presence of JCPyV-DNA in EV circulating in human plasma obtained from patients at risk for PML. STUDY DESIGN: JCPyV-DNA status was studied in EV obtained from 170 plasma samples collected from 120 HIV positive patients and 50 healthy donors. EV were extracted from plasma and characterized by Nanoparticle tracking analysis, by western blot for presence of tetraspanin CD63, CD81, annexin II, cythocrome C protein and, finally, by immunoelectron microscopy (IEM). Presence and quantitation of JCPyV-DNA were assessed with Multiplex real-time TaqMan PCR assay. RESULTS: The JCPyV-DNA plasma prevalence in 120 HIV positive patients and 50 healthy donors was 28% and 4%, respectively. The investigation performed on well-characterized plasma EV reported JCPyV-DNA detection in 15 out of 36 (42%) of the viremic samples (14 were from HIV patients and 1 from healthy people) at a mean level of 23.5 copies/mL. The examination of EV selected samples reported the percentage of JCPyV-DNA in EV of 5.4% of the total viral load. Moreover, IEM reported the presence of JCPyV Vp1 antigen in plasma-derived EV. CONCLUSION: The potential role of EV-associated JCPyV-DNA open new avenues and mechanistic insights into the molecular strategies adopted by this polyomavirus to persist in the host and spread to the central nervous system.

Multiple Signatures of the JC Polyomavirus in Paired Normal and Altered Colorectal Mucosa Indicate a Link with Human Colorectal Cancer, but Not with Cancer Progression.

The JC polyomavirus (JCV) has been repeatedly but discordantly detected in healthy colonic mucosa, adenomatous polyps, and colorectal cancer (CRC), and proposed to contribute to oncogenesis. The controversies may derive from differences in JCV targets, patient's cohorts, and methods. Studies of simultaneous detection, quantification, and characterization of JCV presence/expression in paired samples of normal/altered tissues of the same patient are lacking. Therefore, we simultaneously quantified JCV presence (DNA) and expression (mRNA and protein) of T-antigen (T-Ag), Viral Protein 1 (Vp1), and miR-J1-5p in paired normal/altered tissues of CRC or polyps, and from controls. JCV signatures were found in most samples. They increased in patients, but were higher in normal mucosa than in corresponding polyp or CRC lesions. JCV non-coding control region (NCCR) DNA rearrangements increased in CRC patients, also in normal mucosa, thus before the onset of the lesion. A new ∆98bp NCCR DNA rearrangement was detected. T-Ag levels were higher in normal mucosa than in adenoma and adenocarcinoma lesions, but decreased to levels of controls in established CRC lesions. In CRC, miR-J1-5p expression decreased with CRC progression. Vp1 expression was not detected. The data indicate a JCV link with the disease, but possible JCV contributes to oncogenesis should occur at pre-polyp stages.

DDX3X Helicase Inhibitors as a New Strategy To Fight the West Nile Virus Infection.

Increased frequency of arbovirus outbreaks in the last 10 years represents an important emergence for global health. Climate warming, extensive urbanization of tropical regions, and human migration flows facilitate the expansion of anthropophilic mosquitos and the emerging or re-emerging of new viral infections. Only recently the human adenosinetriphosphatase/RNA helicase X-linked DEAD-box polypeptide 3 (DDX3X) emerged as a novel therapeutic target in the fight against infectious diseases. Herein, starting from our previous studies, a new family of DDX3X inhibitors was designed, synthesized, validated on the target enzyme, and evaluated against the West Nile virus (WNV) infection. Time of addition experiments after virus infection indicated that the compounds exerted their antiviral activities after the entry process, likely at the protein translation step of WNV replication. Finally, the most interesting compounds were then analyzed for their in vitro pharmacokinetic parameters, revealing favorable absorption, distribution, metabolism, and excretion values. The good safety profile together with a good activity against WNV for which no treatments are currently available, make this new class of molecules a good starting point for further in vivo studies.

BK Polyomavirus MicroRNA Levels in Exosomes Are Modulated by Non-Coding Control Region Activity and Down-Regulate Viral Replication When Delivered to Non-Infected Cells Prior to Infection.

In immunosuppressed patients, BKPyV-variants emerge carrying rearranged non-coding control-regions (rr-NCCRs) that increase early viral gene region (EVGR) expression and replication capacity. BKPyV also encodes microRNAs, which have been reported to downregulate EVGR-encoded large T-antigen transcripts, to decrease viral replication in infected cells and to be secreted in exosomes. To investigate the interplay of NCCR and microRNAs, we compared archetype- and rr-NCCR-BKPyV infection in cell culture. We found that laboratory and clinical rr-NCCR-BKPyV-strains show higher replication rates but significantly lower microRNA levels than archetype virus intracellularly and in exosomes. To investigate whether rr-NCCR or increased EVGR activity modulated microRNA levels, we examined the (sp1-4)NCCR-BKPyV, which has an archetype NCCR-architecture but shows increased EVGR expression due to point mutations inactivating one Sp1 binding site. We found that microRNA levels following (sp1-4)NCCR-BKPyV infection were as low as in rr-NCCR-variants. Thus, NCCR rearrangements are not required for lower miRNA levels. Accordingly, Sp1 siRNA knock-down decreased microRNA levels in archetype BKPyV infection but had no effect on (sp1-4)- or rr-NCCR-BKPyV. However, rr-NCCR-BKPyV replication was downregulated by exosome preparations carrying BKPyV-microRNA prior to infection. To explore the potential relevance in humans, urine samples from 12 natalizumab-treated multiple sclerosis patients were analysed. In 7 patients, rr-NCCR-BKPyV were detected showing high urine BKPyV loads but low microRNAs levels, whereas the opposite was seen in 5 patients with archetype BKPyV. We discuss the results in a dynamic model of BKPyV replication according to NCCR activity and exosome regulation, which integrates immune selection pressure, spread to new host cells and rr-NCCR emergence.

Torquetenovirus detection in exosomes enriched vesicles circulating in human plasma samples.

BACKGROUND: Torquetenovirus (TTV) belongs to Anelloviridae family, infects nearly all people indefinitely without causing overt disease establishing a fine and successful interaction with the host. Increasing evidence have shown some human viruses exploit extracellular vesicles thereby helping viral persistence in the host. Here, the presence of TTV in extracellular vesicles circulating in human plasma was investigated. METHODS: TTV DNA was quantified in plasma-derived exosomes from 122 samples collected from 97 diseased patients and 25 healthy donors. Exosomes enriched vesicles (EEVs) were extracted from plasma and characterized by Nanoparticle tracking analysis, by western blot for presence of tetraspanin CD63, CD81 and annexin II protein and, finally, by electron microscopy (EM). Presence and quantitation of TTV DNA were assessed with an universal single step real-time TaqMan PCR assay. RESULTS: Preliminary investigation showed that the human plasma extracted extracellular vesicles exhibited a main size of 70 nm, had concentration of 2.5 × 109/ml, and scored positive for tetraspanin CD63, CD81 and annexin II, typical characteristic of the exosomes vesicles. EEVs extracted from pooled plasma with TTV DNA viremia of 9.7 × 104 copies/ml showed to contain 6.3 × 102 TTV copies/ml, corresponding to 0.65% of total viral load. Important, TTV yield changed significantly following freezing/thawing, detergents and DNAse treatment of plasma before EEVs extraction. EEVs purified by sucrose-density gradient centrifugation and analysis of gradient fraction positive for exosomes marker CD63 harbored 102 TTV copies/ml. Moreover, EM evidenced the presence of TTV-like particles in EEVs. Successive investigation of plasma EEVs from 122 subjects (37 HIV-positive, 20 HCV infected, 20 HBV infected, 20 kidney transplant recipients, and 25 healthy) reported TTV DNA detection in 42 (34%) of the viremic samples (37 were from diseased patients and 5 from healthy people) at a mean level of 4.8 × 103 copies/ml. The examination of EEVs selected samples reported the presence of TTV genogroup 1, 3, 4 and 5, with genogroup 3 highly observed. CONCLUSIONS: Collectively, although these observations should be confirmed by further studies, circulation of TTV particles in EEVs opens new avenues and mechanistic insights on the molecular strategies adopted by anelloviruses to persist in the host.

Polyomavirus microRNA in saliva reveals persistent infectious status in the oral cavity.

Current evidence suggests that Polyomavirus (PyV) microRNAs (miRNAs) circulating in biological fluids may be relevant to understanding viral persistence. Here, the expression of polyomavirus BKPyV, JCPyV, MCPyV and SV40 miRNAs in saliva was investigated to evaluate PyV prevalence/persistence in the oral cavity. PyV-DNA status and PyV-miRNA expression was examined in paired saliva and plasma samples of 100 HIV-infected patients and of 50 healthy subjects using digital droplet PCR and PyV-miRNA-5p stem-loop RT-PCR. Overall, the PyV-miRNA in saliva samples showed higher positivity (65%) than PyV-DNA (24%). In particular, the PyV-miRNA prevalence in HIV-infected patients was 66% and that in healthy subjects was 64%. The PyV-DNA prevalence values in the HIV-infected and healthy subjects were 25% and 22%, respectively. The presence of a single type of PyV-miRNA in the saliva of HIV-infected patients ranged from 14% (MCPyV) to 61% (BKPyV) and in healthy subjects ranged from 14% (SV40) to 70% (BKPyV). Moreover, the PyV-miRNA in the saliva of both HIV-infected and healthy subjects exhibited higher prevalence than that in the paired plasma samples. Notably, the saliva of the HIV-infected and healthy subjects was more frequently positive for more than one PyV-miRNA than the paired plasma samples or the PyV-DNA in the paired saliva and plasma samples. Collectively, these data suggest that additional investigations of PyV-miRNA present in saliva may be useful to shed light on their utility as a surrogate for determining viral infection.

Polyomavirus microRNAs circulating in biological fluids during viral persistence.

Increasing evidence suggests that microRNA-mediated gene silencing, detected during exosome intercellular communication between cells, may be exploited by persistent human viruses. Recently, it has been reported that human polyomaviruses encode microRNAs that downregulate large T expression and target host factors, helping the virus to escape immune elimination. Consequently, viral microRNAs and their genetic variability may have roles in the induction of polyomavirus reactivation, the success of persistence or replication and the development of diseases. In vitro experiments have detected polyomavirus JC (JCPyV) microRNAs in exosomes obtained from cell supernatants after viral infection and showed that they can be carried into uninfected cells. JCPyV and BKPyV microRNAs have been sought in clinical samples obtained from patients with or at risk of severe polyomavirus-associated diseases and from healthy subjects. Variable expressions of JCPyV and BKPyV microRNAs circulating in blood, urine, and cerebrospinal fluid samples were found in patients who were polyomavirus DNA positive and were also observed in negative subjects. Differences in the relationship between the JCPyV and BKPyV microRNA expressions and viral DNA load have been observed. All the data point towards a potential role of polyomavirus exosome microRNAs in viral persistence and suggest that further work is warranted to define their role in viral reactivation and to identify potential new antiviral strategies targeting these viruses.

Utility of droplet digital PCR for the quantitative detection of polyomavirus JC in clinical samples.

BACKGROUND: Quantitative PCR (qPCR) is the standard molecular method for detection of polyomavirus JC (JCPyV) DNA reactivation in serum and cerebrospinal fluid (CSF) in patients at risk of progressive multifocal leukoencephalopathy (PML). Recently, digital PCR has shown potential benefits over qPCR in viral diagnostics. OBJECTIVE: To evaluate the performance of droplet digital PCR (ddPCR) assay in assessing JCPyV-DNA status in clinical samples of patients at risk for PML. STUDY DESIGN: JCPyV specific ddPCR was developed with primers/probes targeting Large T and the noncoding control region used in qPCR. The ddPCR accuracy of JCPyV-DNA quantification was investigated using serial dilutions of genomic JCPyV-DNA. The ddPCR JCPyV-DNA quantification and qPCR confirmation were performed on 150 CSF and 100 serum clinical samples. RESULTS: Using genomic JCPyV-DNA, ddPCR was highly sensitive, repeatable and reproducible for both molecular targets. Using clinical samples, JCPyV-DNA was detected in 13% of CSF and in 50% of serum samples with limit of detection of 30 copies/ml. Among the 19 JCPyV-DNA-positive CSF detected using the ddPCR, 15 also tested positive with the qPCR. Among the 50 JCPyV-DNA-positive serum identified with ddPCR, 41 tested positive with qPCR. All the ddPCR-negative samples were negative when assessed using qPCR. Additionally, the mean JCPyV-DNA viral load obtained with ddPCR in all samples was not significantly different from that of qPCR. CONCLUSION: The results demonstrate that ddPCR is a highly sensitive alternative for measuring JCPyV-DNA that should be considered in clinical diagnostic testing of JCPyV-DNA in patients at risk of PML and other associated diseases.

Polyomavirus JC microRNA expression after infection in vitro.

The in vitro expression of the Polyomavirus JC (JCPyV) microRNAs, JC-miRNA-3p and -5p, at early time points post-infection was investigated. The expression of the JCPyV microRNAs was monitored in hematopoietic progenitor KG-1 cells and in kidney fibroblast-like COS-7 cells transformed with SV40 after infection with a JCPyV CY archetype viral clone. The JCPyV DNA viral load was low in KG-1 cells compared with that in COS-7 cells, which showed productive viral replication. The expression of the JCPyV microRNAs was observed from 12h after the viral infection of both cell types and in the exosomes present in their cell supernatant. Additionally, this study verified that the JCPyV microRNAs in the exosomes present in the supernatants produced by the infected cells might be carried into uninfected cells. These findings suggest that additional investigations of the expression of JCPyV microRNAs and their presence in exosomes are necessary to shed light on their regulatory role during viral reactivation.

The JCPYV DNA load inversely correlates with the viral microrna expression in blood and cerebrospinal fluid of patients at risk of PML.

BACKGROUND: In light of their regulatory role, changes in the expression of Polyomavirus JC (JCPyV) microRNAs may be relevant for virus reactivation and the development of progressive multifocal leukoencephalopathy (PML). OBJECTIVES: To investigate the presence of JCPyV-DNA and JCPyV microRNA expression in clinical specimens of patients at risk for PML. STUDY DESIGN: The JCPyV-DNA and microRNA status was assessed in peripheral blood mononuclear cells (PBMCs) and plasma from 100 HIV patients, in serum and cerebrospinal fluid (CSF) from 14 HIV PML patients and in PBMCs and plasma from 50 healthy controls using Multiplex real-time PCR and JCPyV miRNA-J1-3p and -5p stem-loop RT-PCR. The JCPyV-DNA microRNA-expressing region was also sequenced. RESULTS: A positive JCPyV-DNA status was more prevalent in HIV patients (67%, 67/100) compared to healthy controls (18%, 9/50). Among these, 46% and 42% of the HIV patients and 18% and 0% of the healthy controls were positive based on PBMC and plasma determinations, respectively. PBMC JCPyV microRNA positivity was observed in 22 out of 46 (48%) JCPyV+ HIV patients and in 3 out of 9 (33%) JCPyV+ healthy controls. Moreover, JCPyV microRNAs in exosomes were found in 6 out of 100 (6%) HIV plasma samples, in 12 out of 50 (24%) healthy samples, in 6 out of 14 (43%) serum samples, and in 3 out of 5 (60%) HIV PML CSF samples. Of note, the JCPyV-DNA load was inversely correlated with expression of the viral microRNA. The JCPyV microRNA genomic expression region showed a different combination of three mutations. CONCLUSIONS: The low levels of JCPyV microRNA expression in HIV patients with high JCPyV-DNA prevalence observed in this study highlight the potential clinical relevance of JCPyV microRNAs in PML risk assessment.

Detection of JCPyV microRNA in blood and urine samples of multiple sclerosis patients under natalizumab therapy.

Polyomavirus JC (JCPyV) reactivation and development of progressive multifocal leukoencephalopathy is a health concern in multiple sclerosis patients under natalizumab therapy. Here, the JCPyV microRNA-J1-3p and microRNA-J1-5p expressions and genomic variability were investigated in blood and urine samples of multiple sclerosis patients before and under natalizumab therapy and in healthy controls. The two JCPyV microRNAs were detected in the JCPyV-DNA-positive peripheral blood mononuclear cell samples and in the exosomes derived from plasma and urine obtained from JCPyV-DNA-positive and JCPyV-DNA-negative patients. In particular, the increased JCPyV microRNA expression in samples of multiple sclerosis patients under natalizumab therapy was consistent with the high JCPyV-DNA positivity observed in these samples. Moreover, JCPyV microRNA genomic region showed few nucleotide differences in samples obtained from blood and urine of multiple sclerosis patients and healthy controls. Overall, these data suggest a potential role of the JCPyV microRNA expression in counteracting the viral reactivation to maintain JCPyV asymptomatic persistence in the host.

Markers of JC virus infection in patients with multiple sclerosis under natalizumab therapy.

OBJECTIVE: To evaluate the frequency of JC polyomavirus (JCPyV) infection and anti-JCPyV antibodies in patients with multiple sclerosis under natalizumab therapy. METHODS: Presence of anti-JCPyV antibodies and JCPyV DNA was analyzed in 39 patients with relapsing-remitting multiple sclerosis undergoing natalizumab therapy. Anti-JCPyV antibodies were evaluated in serum by a 2-step virus-like particle-based ELISA assay (Stratify), and JCPyV DNA was evaluated in peripheral blood mononuclear cells, plasma, and urine by quantitative PCR. The anti-JCPyV antibodies were evaluated in serum samples collected at the same time or later than those collected for DNA analysis. RESULTS: JCPyV DNA was detected in 59% of patients, and anti-JCPyV antibodies were present in 67%. JCPyV DNA occurred more often in blood than in urine. Anti-JCPyV antibodies were observed in 70% of the JCPyV-infected patients, and JCPyV DNA was detected in 50% of the patients without anti-JCPyV antibodies. When JCPyV DNA was investigated in blood and urine the frequency of infection was higher than previously described. CONCLUSION: Under these experimental conditions, with respect to the observed frequency of JCPyV infection, the sensitivity of the anti-JCPyV antibody assay was lower than expected.

Cloning of the first human anti-JCPyV/VP1 neutralizing monoclonal antibody: epitope definition and implications in risk stratification of patients under natalizumab therapy.

JC virus (JCPyV) has gained novel clinical importance as cause of progressive multifocal leukoencephalopathy (PML), a rare demyelinating disease recently associated to immunomodulatory drugs, such as natalizumab used in multiple sclerosis (MS) cases. Little is known about the mechanisms leading to PML, and this makes the need of PML risk stratification among natalizumab-treated patients very compelling. Clinical and laboratory-based risk-stratification markers have been proposed, one of these is represented by the JCPyV-seropositive status, which includes about 54% of MS patients. We recently proposed to investigate the possible protective role of neutralizing humoral immune response in preventing JCPyV reactivation. In this proof-of-concept study, by cloning the first human monoclonal antibody (GRE1) directed against a neutralizing epitope on JCPyV/VP1, we optimized a robust anti-JCPyV neutralization assay. This allowed us to evaluate the neutralizing activity in JCPyV-positive sera from MS patients, demonstrating the lack of correlation between the level of anti-JCPyV antibody and anti-JCPyV neutralizing activity. Relevant consequences may derive from future clinical studies induced by these findings; indeed the study of the serum anti-JCPyV neutralizing activity could allow not only a better risk stratification of the patients during natalizumab treatment, but also a better understanding of the pathophysiological mechanisms leading to PML, highlighting the contribution of peripheral versus central nervous system JCPyV reactivation. Noteworthy, the availability of GRE1 could allow the design of novel immunoprophylactic strategies during the immunomodulatory treatment.

Assessment of the risk of polyomavirus JC reactivation in patients with immune-mediated diseases during long-term treatment with infliximab.

Polyomavirus JC (JCV) reactivation causing progressive multifocal leukoencephalopathy is a main concern during biological therapies. Here, JCV reactivation in patients suffering from immune-mediated diseases after a long-term treatment with anti-tumor necrosis factor alpha (TNF-α) inhibitor infliximab was investigated. Peripheral mononuclear blood cells (PBMC), plasma and urine samples were obtained from 61 immune-mediated diseases patients treated or not with infliximab in combination with steroid and other immunomodulators and from 20 healthy donors. JCV DNA was transiently detected in 12 PBMC of 40 patients at different doses of infliximab with a higher prevalence than that of the 21 patients untreated. Conversely, a stable JCV positivity in urine of treated and untreated patients was detected. Sequencing the noncoding control region (NCCR), all samples exhibited the archetype structure with few mutations in transcriptional factor binding regions. The consequence of anti-TNF-α treatment on viral persistence was examined monitoring Torquetenovirus viremia and investigating the TNF-α-induced microRNA regulators of transcriptional factors, with a binding site on NCCR. Although infliximab treatment in this study did not affect directly JCV reactivation, further investigation on host factor(s) regulated by it will be of warranty in the understanding the mechanism(s) that may affect viral persistence.