Search Results (76)

Evidence on the contribution of human papillomaviruses (HPVs) to the development of esophageal papillomas is still controversial. Esophageal papillomatosis (EP) is considered an exceedingly rare, but distinct entity within esophageal proliferations, with about 57 cases published so far. Tissues derived from an EP case and from non-EP esophageal papillomas were investigated for the presence of HPVs and virus-positive specimens were subsequently analyzed for transcriptional activity and surrogate markers of infection. Low-risk type HPV6 DNA was detected in a subset of the esophageal papillomatous tissues, including EP, and a variant isolate belonging to lineage A. In the EP tissue, the abundant expression of the viral E6/E7 mRNA and the presence of HPV6-specific E1^E4 transcripts, the latter indicative of productive viral infection, were detected. An analysis of HPV-specific neutralizing antibodies in sera obtained from the EP case during natural infection as well as after HPV vaccination revealed that, despite extensive manifestation, HPV6-specific antibodies were absent during natural infection and only elicited after repeated HPV immunizations. Although limited by a small sample size, this exploratory study suggests a possible involvement of HPV6 in the development of EP. Furthermore, this study may contribute to the evidence distinguishing EP from less extensive forms of non-EP esophageal squamous papillomas. Full article

The vaginal microbiome plays a crucial role in maintaining host health by preserving a balanced microenvironment. Nevertheless, the definition of a “normal” vaginal microbiome remains controversial, as its composition varies depending on factors such as ethnicity and geographical origin. In most cases, members of the genus Lactobacillus predominate in healthy vaginal microbiomes, protecting against potential pathogens through specific mechanisms such as the secretion of lactic acid and bacteriocins, among others. A reduction in Lactobacillus abundance, accompanied by an increase in anaerobic organisms, predisposes the host to the development of various pathologies. Among these pathologies is infection with human papillomavirus (HPV) and the subsequent development of cervical cancer. A progressive decline in Lactobacillus has been observed as the lesion advances in different populations worldwide. In the case of the Mexican population, several Lactobacillus have been reported in healthy microbiomes: L. gasseri, L. fermentum, L. rhamnosus, L. jensenii, L. crispatus, L. delbrueckii, L. acidophilus, and L. brevis. In contrast, genera reported in dysbiosis include Sneathia, while Brevibacterium aureum and Brachybacterium conglomeratum have been associated with HPV16 infection and/or SIL. The mere presence of some bacteria is not sufficient to modulate the cellular activity of host cells; therefore, the expression, production and activity of different proteins could be affected by the vaginal microbiome. The impact of the microbiome on host cell function is the result of different metabolites produced by the bacteria, which suppress or activate different signaling and metabolic pathways. The molecular interactions between the host and microbiome, as well as their role in cervical carcinogenesis, are still unknown. In this review, we focus on the vaginal microbiome, HPV, and the impact that the interaction of the microbiome with HPV has in cervical cancer development. Full article

Cervical cancer remains a prominent cause of cancer-related mortality among women worldwide because of chronic infection with high-risk human papillomavirus (HPV) and disparate access to prevention and treatment. The current research evaluates the anticancer activity of Gypenoside XVII, a bioactive saponin of Gynostemma pentaphyllum, in HeLa cells as a model of cervical cancer. MTT, Annexin V-PI, and Hoechst 33342 assays showed dose-dependent growth inhibition with typical apoptotic morphology. Flow cytometry revealed G₀/G₁ cell-cycle arrest, while pathway interrogation revealed participation of mitochondrial and death-receptor cascades, in agreement with caspase-9 and caspase-8 activation, respectively. Collectively, these findings position Gypenoside XVII as a natural-product bioactive with potential both as an anticancer lead and as a functional-food ingredient, deserving of further preclinical development. Full article

Background/Objectives: Cervical cancer is a leading cause of cancer-related mortality among women, primarily driven by persistent infections with high-risk human papillomavirus (HPV), particularly HPV-16. Vaccines based on plasmid DNA encoding the viral oncogenes E6 and E7 represent a promising immunotherapeutic strategy, but their efficacy remains limited due to poor cellular uptake. Cell-penetrating peptides such as RALA improve intracellular delivery, and functionalization with octa-arginine peptide conjugated to mannose (R8M) further enhances targeting of antigen-presenting cells (APCs). This study aimed to obtain the minicircle DNA (mcDNA) encoding mutant HPV-16 E6 and/or E7 antigens, and optimize its complexation with mannosylated RALA-based nanoparticles to improve vector delivery and consequently antigen presentation. Methods: Nanoparticles were formulated at different concentrations of RALA, with and without R8M functionalization. Their characterization included hydrodynamic diameter, polydispersity index, zeta potential, complexation efficiency (CE), stability, morphology, and Fourier-Transform Infrared Spectroscopy. In vitro assays in JAWS II dendritic cells (DCs) assessed biocompatibility, transfection efficiency and target gene expression. Results: Optimal conditions were obtained at 72.5 µg/mL of RALA, producing nanoparticles smaller than 150 nm with high CE (>97%) and uniform size distribution. Functionalization with R8M at 58 µg/mL preserved these characteristics when complexed with all mcDNA vectors. The formulations were biocompatible and effectively transfected DCs. Mannosylated formulations enhanced antigenic expression compared to non-mannosylated counterparts, evidencing a mannose-receptor-mediated uptake, while increasing the production of pro-inflammatory cytokines. Conclusions: Nanoparticles based on the RALA peptide and functionalized with R8M significantly improved mcDNA transfection and gene expression in APCs. These findings support further investigation of this system as a targeted DNA vector delivery platform against HPV-16. Full article

Concerning shrimp diseases, including acute hepatopancreatic necrosis disease (AHPND), hepatopancreatic parvovirus (HPV) infection and Enterocytozoon hepatopenaei (EHP) microsporidiosis negatively impact shrimp aquaculture through acute mortality, chronic growth retardation or compromised health that increases susceptibility to concurrent infections. All three diseases damage hepatopancreas, a vital organ for nutrient absorption and growth, though their clinical outcomes differ: AHPND is typically associated with rapid, high mortality, EHP primarily causes chronic production losses and HPV, while currently of lower pathogenic significance, may still impair health under certain conditions. Outbreak severity is often intensified by poor water quality, inadequate farm management, antibiotic misuse and pathogen vectors, leading to substantial economic losses. Timely and accurate diagnosis is therefore critical for effective disease management. This study investigates two convolutional neural network (CNN) architectures, EfficientNet and MobileNet. A curated and preprocessed dataset was used to fine-tune both models with a standardized custom classification head, ensuring a controlled backbone comparison. Experimental results show both architectures achieving over 95% accuracy, with MobileNet providing faster inference suitable for on-site deployment. These findings demonstrate the practical feasibility of lightweight CNN-based diagnostics tools for real-time, scalable, and cost-efficient health monitoring in shrimp aquaculture, bridging the gap between the laboratory-grade performance and field-level usability. Full article

The papillomavirus (PV) life cycle is strictly controlled and can be divided into the following three distinct stages: initial infection, maintenance, and amplification. The papillomavirus E2 gene encodes a multifunctional protein responsible for regulating transcription and replication by recruiting viral and host factors to the viral DNA genome. Our lab has previously reported that tyrosine 102 may impact bovine (BPV) and human (HPV) viral replication in cell culture systems. This tyrosine is conserved in the E2 protein of the murine papillomavirus MmuPV1. To investigate how this amino acid impacts the MmuPV1 lifecycle in vivo, we generated potential phosphorylation mimetic (Y102E) and phosphorylation deficient (Y102F) mutants in the E2 open reading frame. The Y102F mutant protein supported both transcriptional activation and transient replication, while Y102E was defective. However, Y102E was capable of associating with E1 and the Brd4 C-terminal motif. When these E2-mutated MmuPV1 genomes were introduced into the skin of immunocompromised mice, only Y102F was capable of inducing papilloma development and production of infectious progeny virus. These findings demonstrate that while highly conserved, tyrosine at this position is not required by the virus. These data suggest that the chemical nature of the amino acid at this position can influence E2 activity and viral replication. Full article

Antigenicity and immunogenicity define a potent immunogen in vaccinology. Nowadays, there are simplified platforms to produce nanocarriers for small-peptide antigen delivery, derived from various infectious agents for the treatment of a variety of diseases, based on virus-like particles (VLPs). They have good cell-penetrating properties and protective action for target molecules from degradation. Human papillomavirus (HPV) causes anogenital warts and six types of cancer in infected women, men, or children, posing a challenge to global public health. The HPV capsid is composed of viral type-specific L1 and evolutionarily conserved L2 proteins. Produced in heterologous systems, the L1 protein can self-assemble into VLPs, nanoparticles sized around 50–60 nm, used as prophylactic vaccines. Devoid of the viral genome, they are safe for users, offering no risk of infection because VLPs do not replicate. The immune response induced by HPV VLPs is promoted by conformational viral epitopes, generating effective T- and B-cell responses. Produced in different cell systems, HPV16 L1 VLPs can be obtained on a large scale for use in mass immunization programs, which are well established nowadays. The expression of heterologous proteins was evaluated at various transfection times by transfecting cells with vectors encoding codon-optimized HPV16L1 and HPV16L2 genes. Immunological response induced by chimeric HPV16 L1/L2 VLP was evaluated through preclinical assays by antibody production, suggesting the potential of broad-spectrum protection against HPV as a prophylactic nanovaccine. These platforms can also offer promising therapeutic strategies, covering the various possibilities for complementary studies to develop potential preventive and therapeutic vaccines with broad-spectrum protection, using in silico new epitope selection and innovative nanotechnologies to obtain more effective immunobiologicals in combating HPV-associated cancers, influenza, hepatitis B and C, tuberculosis, human immunodeficiency virus (HIV), and many other illnesses. Full article

Lactobacillus species play a fundamental role in maintaining a healthy vaginal microbiota and have been increasingly recognized for their protective effects against high-risk human papillomavirus (HR-HPV) infection and the progression of cervical intraepithelial neoplasia (CIN). These beneficial bacteria contribute to host defense through multiple mechanisms, including the production of lactic acid that sustains a low vaginal pH, enhancement of epithelial barrier integrity via E-cadherin regulation, and modulation of immune signaling pathways such as interferon responses and NF-κB activity. Lactobacillus strains exert anti-inflammatory effects by downregulating pro-inflammatory cytokines and interfering with oncogenic pathways including Wnt/β-catenin and the expression of HPV E6 and E7 proteins. Additionally, they may regulate tumor-suppressor microRNAs and modulate dendritic cell and macrophage activity, supporting antiviral immunity. Recent studies have explored their potential influence on CIN regression and HR-HPV clearance, particularly the strains Lactobacillus crispatus and L. gasseri, which are associated with favorable microbial community states. This review explores the potential mechanisms through which Lactobacillus species contribute to HR-HPV clearance and the regression of cervical dysplasia, integrating evidence from molecular studies, in vivo models, and clinical trials. The emerging role of probiotic interventions as adjunctive strategies in HPV management is also discussed, highlighting their possible synergy with conventional treatments and prophylactic vaccination. Full article

Background/Objective: To assess vulnerable Romanian children’s knowledge, attitudes, and beliefs regarding the HPV vaccination. Methods: Vulnerable children (ethnic minorities, high social vulnerability index, or low socioeconomic status) from three schools in Cluj County, Romania, were enrolled in a short educational presentation regarding HPV and were delivered a physical questionnaire consisting of 26 items. Results: 199 vulnerable school students concluded the questionnaire with a mean age of 14.62. Most participants were unaware of the HPV infection or the HPV vaccine. Following the educational program, most participants exhibited a reasonably elevated level of knowledge, which positively correlated with the intention to vaccinate. Fifty-three per cent of respondents would vaccinate in school if the vaccine were available, fifty-four per cent would vaccinate if the product were free of charge or at minimal cost, and over sixty-four per cent would vaccinate at their doctor’s recommendation. Several knowledge items, beliefs, and attitudes towards vaccination were disclosed to influence children’s preference to participate in vaccination campaigns. Conclusions: This analysis unveiled the pivotal role of knowledge about HPV in the immunization uptake within underserved, vulnerable populations of Romanian children. An intricate interplay between vulnerability, knowledge, accessibility, and the willingness to vaccinate was impacted by several beliefs and attitudes towards HPV vaccination. Most children were willing to participate in HPV immunization campaigns, whether school-based, reimbursed, or at the doctor’s recommendation. These findings act as pillars for assembling future educational campaigns in vulnerable Romanian communities of children, aiming to enhance awareness and coverage of HPV vaccination and ensure inclusive health policies. Full article

The skin is a complex organ, containing an intricate network of immune cells that are crucial for host barrier function and defence against pathogens. Human papillomavirus (HPV) exclusively infects the skin, and its lifecycle is intimately associated with epithelial cell division and differentiation. There are over 450 HPV types, 12 of which are classified as carcinogenic. The primary focus of this review is the epithelial immune response to HPV infection of the cervix during the initial stages of infection, productive infection, and disease progression. During the early stages of infection, cells are HPV-positive; however, there are no attributable histological changes to the epithelium. The HPV-infected cells have the capacity for innate sensing and signalling through toll-like receptors in response to viral nucleic acids. However, HPV has evolved multiple mechanisms to evade the innate response. During productive infection, all viral antigens are expressed and there are visible histological changes to the epithelium, including koilocytosis. Disease regression is associated with Tbet positive cells in the infected epithelium and the presence of CD4 and CD8 T cells in the lamina propria. Disease progression is associated with the overexpression of the E6 and E7 oncoproteins after integration of viral genomes into the host chromosomal DNA. Histologically, the epithelium is less differentiated, and changes to cells include a higher nuclear-to-cytoplasmic ratio and an increased mitotic index. Immune changes associated with disease progression include increased numbers of cells expressing suppressor molecules, such as FoxP3, Blimp-1, and HMGB1, and myeloid cell infiltrates with an M2-like phenotype. This review highlights the gaps in the understanding of the immune response in HPV-positive cervical neoplasia, and in regression and progression of disease. This knowledge is critical for the development of effective immunotherapies that reliably cause HPV-positive cervical neoplasia to regress. Full article

The rising incidence of oropharyngeal cancer caused by high-risk Human Papillomavirus (HPV) type 16 and HPV18 in the U.S and other developed countries is an important public health issue. This has been attributed to changes in sexual behavior, including the practice of oral sex, which may expose individuals to increased risk of acquiring oral HPV infection. The incidence of oral HPV infections highlights the role of the oral cavity as an important anatomical site in the acquisition and transmission of high-risk HPVs. Generally, the use of mouthwash/oral rinses have focused on targeting the oral bacteriome, and could additionally be formulated for managing the oral virome. Here, we examined virucidal properties of common over-the-counter antibacterial mouthwash products against native HPV16 and HPV18 virion in vitro, and downstream modification of virus infectivity. We tested oral rinses containing essential oils/alcohol, hydrogen peroxide, and cetylpyridinium chloride. Our results demonstrated greater than 90% efficacy against HPV16 inactivation, but comparatively with less efficacy against HPV18. Overall, hydrogen peroxide containing oral rinses demonstrated the best efficacy against both high-risk types, albeit with lower efficacy against HPV18. Prophylactic virucidal oral rinses targeted towards high-risk HPVs could be beneficial in reducing incidental oral HPV load, prevalence, and persistent infections. Full article

Background/Objectives: Persistent high-risk human papillomavirus (HPV) infections are the leading cause of cervical cancer. Developing evidence suggests that the cervicovaginal microbiome plays a significant role in modulating HPV persistence and progression to cervical neoplasia. This review synthesizes the current knowledge on the interplay between the cervicovaginal microbiome and local immunity in HPV infections, emphasizing microbial diversity, immune responses, and potential therapeutic implications. Methods: A thorough review of the literature was performed using Embase, PubMed, Scopus, and Google Scholar, encompassing studies published between 2000 and 2024. Studies examining the composition of the microbiome, immune responses, and HPV-related outcomes were evaluated and synthesized into a comprehensive review. Results: A Lactobacillus-dominant microbiome, particularly with L. crispatus, creates a protective environment through lactic acid production, maintenance of low pH, and anti-inflammatory immune modulation, facilitating HPV clearance. Dysbiosis, often characterized by a dominance of L. iners and overgrowth of anaerobic bacteria, fosters chronic inflammation, cytokine imbalance, and a microenvironment conducive to HPV persistence and progression. Hormonal changes and menopause exacerbate these microbial shifts, increasing the risk of cervical lesions. Studies suggest that cytokine profiles and antimicrobial peptides significantly influence local immune responses, further modulating infection outcomes. Conclusions: The cervicovaginal microbiome is a critical determinant in HPV infection outcomes, with therapeutic potential for modulating the microbiome to enhance immune responses and prevent cervical cancer. Personalized microbiome-targeted therapies may offer a novel avenue for managing HPV and reducing cervical cancer incidence. Full article

The occurrence of cervical cancer is often linked to a previous infection with a human papillomavirus (HPV). In order to detect HPV infections in cervical smears, a broad range of tests can be used. This study compares the two hybridisation-based DNA-microarray systems “HPV 3.5 LCD-Array” (Chipron GmbH) and “PapilloCheck^®” (Greiner Bio-One GmbH), based on their ability to detect and differentiate HPV infections in 42 different cervical smears. PapilloCheck^® can detect and individually identify 24 HPV types, whereas the 3.5 LCD-Array can differentiate among 32 HPV genotypes. However, both systems include all 13 high-risk (HR)-classified types. With Chipron having already stopped the production of the 3.5 LCD-Array test, quite a few laboratories are confronted with the need to establish a new HPV testing method. The two methods were found to have a high agreement regarding the clinical significance of the detected HR HPV types. Discrepant cases were additionally validated with the help of a third test (VisionArray^® HPV, ZytoVision GmbH). The results of the VisionArray^® test corresponded rather well with the results of the 3.5 LCD-Array. Full article

Productive infections of oncogenic human papillomaviruses (HPVs) are closely linked to the differentiation of host epithelial cells, a process that the virus manipulates to create conditions favorable to produce virion progeny. This viral interference involves altering the expression of numerous host genes. Among these, proprotein convertases (PCs) have emerged as potential oncogenes due to their central role in cellular functions. Using RT-qPCR, aberrant PC gene expression was detected across the progression from early HPV infection stages to cancer. These findings demonstrated a progressive disruption of normal PC expression profiles, with FURIN consistently downregulated and other PCs upregulated, transitioning from the episomal stage to neoplastic and carcinoma phenotypes. This pattern of dysregulation was distinct from the broader trends observed in a variety of cancer types through bioinformatic analysis of publicly available transcriptomic datasets, where FURIN expression was predominantly upregulated compared to other PCs. Further bioinformatic investigations revealed a correlation between PC gene expression and cancer phenotype diversity, suggesting a potential link between the loss of normal PC gene expression patterns and the progression of HPV infections toward malignancy. Full article

Viruses, known for causing widespread biological harm and even extinction, pose significant challenges to public health. Virus detection is crucial for accurate disease diagnosis and preventing the spread of infections. Recently, the outstanding analytical performance of CRISPR/Cas biosensors has shown great potential and they have been considered as augmenting methods for reverse-transcription polymerase chain reaction (RT-PCR), which was the gold standard for nucleic acid detection. We herein utilized Cas12a with universal CRISPR RNA (crRNA) for indiscriminate virus detection by attaching the target to a longer track strand for isothermal amplification. The amplified products contain a domain that is recognized by the Cas12a/crRNA complex, triggering the cleavage of surrounding reporters to produce signals, thereby escaping the target dependence of crRNA recognition. The proposed method allows the same crRNA to detect multiple viral nucleic acids with high sensitivity, including but not limited to SARS-CoV-2, human papillomaviruses (HPV), HCOV-NL63, HCOV-HKU1, and miRNA biomarkers. Taking SARS-CoV-2 and HPV16 pseudoviruses as examples, this method was proved as a versatile and sensitive platform for molecular diagnostic applications. Full article