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Protein phosphorylation and dephosphorylation are the most common post-translational modifications mediated by protein kinases and protein phosphatases, respectively. These reversible processes can modulate the function of the target protein, such as its activity, subcellular localization, stability, and interaction with other proteins. Phosphorylation of viral proteins plays an important role in the life cycle of a virus. In this review, we highlight biological implications of the phosphorylation of the monkey polyomavirus SV40 large T and small t antigens, summarize our current knowledge of the phosphorylation of these proteins of human polyomaviruses, and conclude with gaps in the knowledge and a proposal for future research directions.

Background In vitro studies have produced conflicting results about the significance of the JC Polyoma Virus (JCV) in the human cancers. Objectives Our study aims to detect the presence of JCV Large T antigen (LTag) together with viral load quantitation in the prostate tumor samples to assess if JCV harbors risk factor for prostate cancer (PCa). Method This was a case control-based study. A total of 110 patients participated in this study, including 55 patients with PCa and another 55 patients with benign prostatic hyperplasia (BPH) as cases and controls, respectively. Tissue, blood and urine samples were collected from each participant. Tissues samples were analyzed for the presence of JCV Ltag using a direct immunofluorescence assay (IF). Only positive IF tested samples were subjected to viral quantitation assay. Data were collected and managed using SPSS version 20. Result The JCV LTag in the cases group was 23.63% (13/55) which was higher than that of the controls group 5.45% (3/55) with a P. value of .006 and O.R of 5.76. The mean of viral load was significantly higher among cases tissue specimens 20156 ± 5450 copies/ml compared to controls group 6378 ± 2456copies/ml with P-value of .002. The virus was detected in 11/13 (84.6%) urine samples of cases with a mean viral load of 14068 ± 4590 copies/ml compared to 2/3 (66.6%) of controls viral load 2534 ± 1267 copies/ml. Conclusion In conclusion, a higher JCV LTag with more viral load were detected in cases group compared to controls. Our findings support a strong relationship between JCV infection and the probability of developing PCa.

Type and rate of amino acid variations in BKPyV may provide important insights into BKPyV diversity in human populations and an important step toward defining determinants of BKPyV-specific immunity needed to protect vulnerable patients from BKPyV diseases. Our analysis of BKPyV sequences obtained from human specimens reveals an unexpectedly high genetic variability for this double-stranded DNA virus that strongly relies on host cell DNA replication machinery with its proof reading and error correction mechanisms. BKPyV variability and immune escape should be taken into account when designing further approaches to antivirals, monoclonal antibodies, and vaccines for patients at risk of BKPyV diseases.

Merkel cell polyomavirus (MCPyV) is associated with Merkel cell carcinoma (MCC). In tumor cells the MCPyV large T antigen (LT-Ag) is frequently found truncated and this is considered a major tumor-specific signature. The role of MCPyV in other, non-MCC tumours, is little known. Viral DNA and/or tumour-specific mutations have been sometimes detected in different tumours, but such data are not unequivocal and the involvement of the virus in the tumorigenesis is not clear. In a previous study, we demonstrated a significantly higher prevalence of MCPyV DNA in formalin fixed paraffin embedded (FFPE) porocarcinoma tissues compared to the normal skin. In the present study, we investigated the presence of truncating mutations in MCPyV LT-Ag coding region in porocarcinoma specimens. Using several overlapped PCR primer pairs, the complete LT-Ag sequence from two biopsies were obtained. No truncating mutations were detected. The lack of truncating mutations in LT-Ag sequence does not seem to support the role of MCPyV in porocarcinoma oncogenesis. However, an oncogenetic mechanism, different from that proposed for MCC and not associated with the LT-Ag mutations/deletions, cannot be excluded. Further studies of more sequences coding for LT-Ag would be needed to verify this hypothesis.

Background Primary sheep fetal fibroblasts (SFFCs) have emerged as a valuable resource for investigating the molecular and pathogenic mechanisms of orf viruses (ORFV). However, their utilization is considerably restricted due to the exorbitant expenses associated with their isolation and culture, their abbreviated lifespan, and the laborious procedure. Results In our investigation, the primary SFFCs were obtained and immortalized by introducing a lentiviral recombinant plasmid containing the large T antigen from simian virus 40 (SV40). The expression of fibronectin and vimentin proteins, activity of SV40 large T antigen, cell proliferation assays, and analysis of programmed cell death revealed that the immortalized large T antigen SFFCs (TSFFCs) maintained the same physiological characteristics and biological functions as the primary SFFCs. Moreover, TSFFCs demonstrated robust resistance to apoptosis, extended lifespan, and enhanced proliferative activity compared to primary SFFCs. Notably, the primary SFFCs did not undergo in vitro transformation or exhibit any indications of malignancy in nude mice. Furthermore, the immortalized TSFFCs displayed live ORFV vaccine susceptibility. Conclusions Immortalized TSFFCs present valuable in vitro models for exploring the characteristics of ORFV using various techniques. This indicates their potential for secure utilization in future studies involving virus isolation, vaccine development, and drug screening.

BK polyomavirus (BKPyV) causes severe urinary tract diseases, including BKPyV-associated nephropathy (BKPyVN) and ureteric stenosis, in immunocompromised individuals such as renal transplant recipients. Effective antiviral therapies for BKPyV infection remain an unmet clinical need. While the interferon-stimulated gene 20 (ISG20) exhibits broad-spectrum antiviral activity against RNA viruses, its role and mechanisms against DNA viruses are poorly defined. This study demonstrates, for the first time, potent antiviral activity of ISG20 against BKPyV. This restriction was observed with both endogenous levels of ISG20 and upon overexpression, and this effect was confirmed by ISG20 knockout and immunofluorescence imaging. We observed that ISG20 expression is dynamically regulated during BKPyV infection: it is upregulated both during early infection and by expression of the viral large T antigen (LT) alone. However, endogenous ISG20 expression becomes significantly suppressed during later stages of infection, coinciding with declining LT levels. The physical interaction between LT and both wild-type and mutant ISG20 suggests a potential viral strategy to sequester this restriction factor. These findings establish ISG20 as a novel host restriction factor against BKPyV and suggest that BKPyV employs LT-mediated mechanisms to evade or counteract ISG20’s antiviral effects. Our results elucidate a complex biphasic interplay between BKPyV and host innate immunity, identifying ISG20 as a potential therapeutic target for BKPyV-associated diseases.

The Egyptian Rousettus bat (Rousettus aegyptiacus) is a common fruit bat species that is distributed mainly in Africa and the Middle East. Bats serve as reservoir hosts for numerous pathogens. Human activities, such as hunting bats for food, managing vermin, and causing habitat loss, elevate the likelihood of transmission of bat pathogens to humans and other animals. Consequently, bat cell lines play a crucial role as research materials for investigating viral pathogens. However, the inherent limitation of finite cell division in primary cells necessitates the use of immortalized cells derived from various bat tissues. Herein, we successfully established six fibroblast cell lines derived from an infant bat heart and lungs and an elderly bat heart. Three of the six cell lines, called K4DT cells, were transduced by a combination of cell cycle regulators, mutant cyclin‐dependent kinase 4, cyclin D1, and human telomerase reverse transcriptase. The other three cell lines, named SV40 cells, were transfected with simian virus 40 large T antigen. Transgene protein expression was detected in the transduced cells. All three K4DT cell lines and one lung‐derived SV40 cell line were virtually immortalized and nearly maintained the normal diploid karyotypes. However, the two other heart‐derived SV40 cell lines had aberrant karyotypes and the young bat‐derived cell line stopped proliferating at approximately 40 population doublings. These bat cell lines are valuable for studying pathogen genomics and biology. Egyptian Rousettus bats serve as a reservoir for pathogens. Fibroblast cell lines K4DT and SV40 were established to overcome the limited cell division of primary bat cells. While three K4DT and one SV40 cell lines were virtually immortalized with normal karyotypes, two SV40 lines had aberrant karyotypes. These bat cell lines are valuable tools for the study of viral pathogens.

The oncogenic potential of both the polyomavirus large (LT-Ag) and small (Sm t-Ag) tumor antigens has been previously demonstrated in both tissue culture and animal models. Even the contribution of the MCPyV tumor antigens to the development of an aggressive human skin cancer, Merkel cell carcinoma, has been recently established. To date, the known primary targets of these tumor antigens include several tumor suppressors such as pRb, p53, and PP2A. However, a comprehensive list of the host proteins targeted by these proteins remains largely unknown. Here, we report the first interactome of JCV LT-Ag and Sm t-Ag by employing two independent “affinity purification/mass spectroscopy” (AP/MS) assays. The proteomics data identified novel targets for both tumor antigens while confirming some of the previously reported interactions. LT-Ag was found to primarily target the protein complexes with ATPase (v-ATPase and Smc5/6 complex), phosphatase (PP4 and PP1), and ligase (E3-ubiquitin) activities. In contrast, the major targets of Sm t-Ag were identified as Smarca1/6, AIFM1, SdhA/B, PP2A, and p53. The interactions between “LT-Ag and SdhB”, “Sm t-Ag and Smarca5”, and “Sm t-Ag and SDH” were further validated by biochemical assays. Interestingly, perturbations in some of the LT-Ag and Sm t-Ag targets identified in this study were previously shown to be associated with oncogenesis, suggesting new roles for both tumor antigens in novel oncogenic pathways. This comprehensive data establishes new foundations to further unravel the new roles for JCV tumor antigens in oncogenesis and the viral life cycle.

Background Merkel cell polyomavirus (MCPyV) is a human polyomavirus that establishes a life-long harmless infection in most individuals, with dermal fibroblasts believed to be the natural host cell. However, this virus is the major cause of Merkel cell carcinoma (MCC), an aggressive skin cancer. Several MCPyV variants with polymorphism in their promoter region have been isolated, but it is not known whether these differences affect the biological properties of the virus. Methods Using transient transfection studies in human dermal fibroblasts and the MCC cell line MCC13, we compared the transcription activity of the early and late promoters of the most commonly described non-coding control region MCPyV variant and six other isolates containing specific mutation patterns. Results Both the early and late promoters were significantly stronger in human dermal fibroblasts compared with MCC13 cells, and a different promoter strength between the MCPyV variants was observed. The expression of full-length large T-antigen, a viral protein that regulates early and late promoter activity, inhibited early and late promoter activities in both cell lines. Nonetheless, a truncated large T-antigen, which is expressed in virus-positive MCCs, stimulated the activity of its cognate promoter. Conclusion The promoter activities of all MCPyV variants tested was stronger in human dermal fibroblasts, a cell line that supports viral replication, than in MCC13 cells, which are not permissive for MCPyV. Truncated large T-antigen, but not full-length large T-antigen stimulated viral promoter activity. Whether, the difference in promoter strength and regulation by large T-antigen may affect the replication and tumorigenic properties of the virus remains to be determined.

Prevalence of HDV infection within HBsAg-positive populations ranges from 1% to 10% in most regions of the world, although a much higher prevalence has been noted in some countries. 2 HDV positivity within the overall population has been estimated to be between 0·1% and 1%. Since the previous classification of HDV in 1994 in IARC Monographs Volume 59, the available literature has expanded considerably. A nested case-control study, published since the previous evaluation, found a strong (five-fold) positive association of MCPyV neutralising antibodies and subsequent development of MCC. 6 Elevated odds ratios for MCC were also observed with high concentrations of IgG antibodies to MCPyV pseudovirions compared with absence of or low antibody concentrations. 6 This finding complemented the results of case-control studies reporting elevated serological markers of MCPyV in MCC cases, as well as multiple case series 7 showing integrated MCPyV, truncating large T (LT) mutations, and LT antigen expression in MCC tumours. In one key study, co-expression of MCPyV truncated LT and small T (sT) antigens with ATOH1-induced cellular reprogramming and p53 deletion led to a significant increase in the incidence of tumours closely resembling human MCC. 8 Conditional expression of sT antigen, combined with p53 deletion in Ubc CreERT2; ROSA sT; p53 flox/flox mice, resulted in the development of high-grade tumours in the spleen and liver. 9 A significant increase in the incidence of spontaneous squamous cell papilloma incidence was observed in K14Cre-MCPyV168 and MCPyV-Rb WT mice compared with controls. 10 There is “strong” evidence that MCPyV exhibits key characteristics of carcinogens in exposed humans and experimental systems. Infection can occur at all ages but is most common during childhood, and prevalence increases with age. [...]congenital cytomegalovirus infection, occurring in approximately 0·7% of livebirths, is the most common viral cause of sensorineural hearing loss and neurological disabilities in newborns.