Search Results (196)

Introduction: Following up on treated high-grade cervical intraepithelial neoplasia (HSIL/CIN) lesions poses a challenge. Cervical cytology often has a high false-negative rate, while high-risk human papillomavirus (HR-HPV) DNA testing, though sensitive, lacks specificity. The detection of messenger RNA of the HR-HPV E6 and E7 oncoproteins (E6/E7 mRNA) is proposed as an indicator of viral integration, which is crucial for identifying severe lesions. Additionally, HPV vaccination could reduce recurrence rates in patients treated for high-grade cervical intraepithelial neoplasia. Objective: Our study aimed to assess the clinical utility of E6/E7 mRNA determination in the follow-up of HPV-immunized patients who were treated for HSIL/CIN. Methods: We conducted a retrospective observational study including 407 patients treated for HSIL/CIN. The recurrence rate and the validity parameters of E6/E7 mRNA testing were analyzed. Results: The recurrence rate for high-grade lesions was 1.7%. This low percentage might be related to the vaccination of patients who were not immunized before treatment. The sensitivity of the E6/E7 mRNA test was 88% at the first clinical visit, reaching 100% in the second and third reviews. Specificity was 91% at the first visit, 92% at the second, and 85% at the third. Regarding predictive values, the positive predictive value was 18% at the first visit, 10% at the second, and 14% at the third, while the negative predictive value was 100% across all follow-up visits. Conclusions: The E6/E7 mRNA test appears to be an effective tool for ruling out recurrence after treatment for HSIL/CIN lesions in HPV-immunized patients. Full article

Eukaryotic elongation factor 1A (eEF1A), the second most abundant intracellular protein, not only plays a key role in peptide elongation, but is also capable of numerous moonlighting functions. Within malignant cells, eEF1A is by no means a neutral bystander but instead actively participates in oncogenic transformations via a myriad of molecular pathways. Thus far, a broad range of small-molecule inhibitors have been identified, which, despite their structural diversity, suppress tumor growth by targeting eEF1A. Interestingly, just as eEF1A enables its oncogenic potential far beyond boosting protein translation, these targeted agents disrupt this oncoprotein via multiple axes distinct from mere protein synthesis inhibition. Whereas the oncogenic mechanisms of eEF1A has been well documented, there lacks a systemic survey of the eEF1A-targeting agents in terms of their mechanisms. Accordingly, the present work aims to examine their multifaceted modes of action more than just blocking protein synthesis. By unveiling these insights, our deepened knowledge of these eEF1A-binding inhibitors will inform the development of future eEF1A-targeted drugs for cancer treatment. Full article

Marek’s disease virus (MDV) is the etiological agent of Marek’s disease (MD), a lymphoproliferative disorder in chickens. Polymorphisms in the MDV-encoded oncoprotein Meq are shared among field strains and correlate with their virulence. The attenuated vaccine strain CVI988 harbors unique amino acid polymorphisms in Meq, particularly at positions 71, 77, and 326. In this study, we investigated the impact of these polymorphisms on Meq protein function and MDV virulence. Reporter assays revealed that the substitutions, particularly A71S and K77E, markedly impaired the transcriptional regulatory activity of Meq. To evaluate their effect on virulence, we generated a recombinant MDV based on the very virulent RB-1B strain, encoding Meq with A71S and K77E substitutions (rRB-1B_Meq71/77). Chickens infected with rRB-1B_Meq71/77 developed neither clinical signs nor lymphomas. Flow cytometry revealed no expansion of infected cells in this group, but a marked increase in CD8⁺ T and γδ T cells during early infection. Histopathological analysis also confirmed the absence of MD-associated lesions. These findings demonstrate that the polymorphisms at positions 71 and 77 in the CVI988 strain are sufficient to abolish MDV virulence. This study provides insight into the molecular basis of MDV virulence and informs the strategy for the design of more effective vaccines. Full article

Background/Objectives: Human papillomavirus (HPV) is a prevalent sexually transmitted infection globally and is linked to the development of various cancers. While several international studies have investigated the incidence of high-risk HPV (HR-HPV) in bladder cancers, no such research has been conducted within the UK. Conflicting results in previous studies leave uncertainty regarding the role of HR-HPV in bladder cancer. This study aimed to assess the presence of HR-HPV DNA in bladder cancer specimens from the UK. Methods: A total of 55 fresh bladder specimens, including 4 benign and 51 malignant samples, were analysed using polymerase chain reaction (PCR) and Sanger sequencing to detect 12 HR-HPV types. Immunohistochemistry (IHC) was used to confirm the expression of the HPV E7 protein in HR-HPV-positive samples. Results: HR-HPV DNA was detected in 33% of bladder cancer specimens, with HPV16, HPV35, and HPV52 being the most prevalent types. None of the benign samples tested positive for HR-HPV. IHC confirmed HPV E7 protein expression in 81% of HR-HPV DNA-positive cancer samples. Conclusions: The findings suggest that HR-HPV may play a role in a subset of bladder cancers in the UK. The absence of HR-HPV in benign bladder specimens supports its potential involvement in cancer progression. Further research is needed to clarify the mechanistic role of HR-HPV in bladder cancer development. Full article

Lung cancer is one of the deadliest forms of cancer. Its prognosis becomes even worse when it co-occurs with other diseases, such as chronic obstructive pulmonary disease (COPD). Both illnesses have numerous shared risk factors, including the use of tobacco smoke, and have similar underlying mechanisms like long-term inflammation. There are some other less studied but equally important molecules, like small extracellular vesicles (sEVs), that have been shown to mediate effective communication at the cellular level and may affect the progression of a disease or cause resistance to therapies. In sEVs from lung cancer tumors, there are onco-proteins (e.g., tumor initiator EGFR mutations, onco-miR, miR-21), while in sEVs from patients with COPD, there are pro-inflammatory cytokines like IL-6 and TNF-α that enhance airway inflammation. These potential biomarkers of sEVs from chronic lung disease have great value in defense against emerging health problems; however, limitations in sample extraction and analysis are obstacles that hinder clinical enhanced applicability. This review focuses on sEV-derived biomarkers in lung cancer and COPD for diagnostic, prognostic, and therapeutic monitoring purposes. To make these molecules more useful in real-life therapy and determine their signature’s role, further investigation with a high-scale study is necessary. 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

OT has gained attention for its high polyphenol content and therapeutic potential. To elucidate this further, this study investigated the electron-shuttling bioactive compounds of OT and evaluated their effect on dysregulated breast cancer (BC) genes. OT extracts were obtained via solvent extraction (SE) and supercritical fluid extraction (SFE), followed by in vitro assays. Phytochemical analysis revealed that ethanol-extracted OT (OTL-E) had the highest polyphenol, flavonoid, and tannin contents, correlating with strong antioxidant activity, while water-extracted OT (OTL-W) exhibited greater bioelectricity-stimulating properties in microbial fuel cells (MFC), confirmed by cyclic voltammetry (CV). Based on phytochemical analyses, SE displayed a better extraction technique for isolating OT bioactive compounds compared to SFE. In silico approaches through network pharmacology, molecular docking and dynamics simulations revealed that polyphenols with ortho- or para-dihydroxyl groups targeted dysregulated BC proteins involved in kinase signaling, apoptosis, and hormone receptor pathways. Luteolin exhibited the highest binding affinities to MAPK1 and PIK3CA with free energy (ΔG) of −9.1 and −8.4 kcal/mol, respectively. Trajectory-based analyses confirmed enthalpy-favored ligand-induced conformational changes to these oncoproteins, altering their function in BC development. These findings suggest the potential of OT as a bioelectricity-stimulating and chemopreventive agent, warranting further in vitro and in vivo validation. Full article

Classic Hodgkin lymphoma (cHL) in patients with immune deficiency/dysregulation represents a critical unmet need in hematology, demanding the appropriate revision of classification and therapeutic paradigms. Epstein–Barr virus (EBV) is a pivotal driver of lymphomagenesis in this high-risk subset, where viral oncoproteins (e.g., LMP1/2A) exploit immune vulnerabilities to activate NF-κB, rewire tumor microenvironments (TME), and evade immune surveillance. EBV-positive cHL, prevalent in immunosuppressed populations, exhibits distinct molecular hallmarks, including reduced somatic mutations, unique HLA associations, and profound PD-L1-mediated immune suppression, that diverge from EBV-negative cases reliant on genetic aberrations. Despite advances in combined antiretroviral therapy, HIV co-infection exacerbates pathogenesis, M2 macrophage dominance, and T-cell exhaustion, while links to other viruses remain ambiguous. Current therapies fail to adequately target these viral and immune complexities, leaving patients with poorer outcomes. This review synthesizes insights into EBV’s etiological role, immune contexture disparities, and the genetic–environmental interplay shaping cHL heterogeneity. The WHO classification highlights the need to reclassify EBV-associated cHL as a distinct subset, integrating viral status and immune biomarkers into diagnostic frameworks. Urgent priorities include global epidemiological studies to clarify causal mechanisms, development of virus-targeted therapies (e.g., EBV-specific T-cell strategies, PD-1/CTLA-4 blockade), and personalized regimens for immune-dysregulated cohorts. Full article

Human papillomavirus (HPV)-related lower genital cancers, including cervical cancer, anal squamous cell carcinoma (SCC), vaginal cancer, vulvar cancer, and penile cancer, pose a significant health burden, with approximately 45,000 new cases diagnosed annually. Current effective treatment modalities include chemoradiotherapy, systemic chemotherapy, and immune checkpoint inhibitors (ICIs). The tumor microenvironment in HPV-related cancers is characterized by immune evasion mechanisms, including the modulation of immune checkpoints such as PD-L1/PD-1. HPV oncoproteins E5, E6, and E7 play crucial roles in this process, altering the expression of immune inhibitory molecules and the recruitment of immune cells. ICIs, such as programmed cell death protein 1 (PD-1) inhibitors, have shown efficacy in enhancing the immune response against HPV-associated tumors by blocking proteins that allow cancer cells to evade immune surveillance. Recent studies have demonstrated that HPV-positive tumors exhibit a more favorable response to ICI-based therapies compared to HPV-negative tumors. The integration of ICIs into treatment regimens for HPV-related cancers has been supported by several clinical trials. The inclusion of ICIs in the treatment approach for HPV-related lower genital cancers presents a promising opportunity for improving patient outcomes. Ongoing research and clinical trials are advancing our understanding of the immune microenvironment and the therapeutic potential of immunotherapy for these cancers. Full article

Head and neck cancer (HNC) is the sixth most prevalent type of cancer worldwide and is associated with low five-year survival rates. Alcoholism and smoking are the main risk factors associated with the development of head and neck cancer (HNC). However, Human Papillomavirus (HPV) infection has been reported as a significant risk factor, particularly for the oropharyngeal subset. In these cases, patients with HPV-positive HNC exhibit a better clinical prognosis; however, resistance to chemotherapy has been frequently reported. The carcinogenic activity of HPV is related to the viral oncoproteins E5, E6, and E7. E5 has been associated with immune evasion mechanisms and modulation of the tumor microenvironment, which appears to be linked to the virus’s resistance to chemotherapeutic treatments. Here, we review the potential of HPV E5 in targeted therapy for HNC and discuss relevant data regarding the activity of this oncoprotein in head and neck carcinogenesis. Full article

Background: High-risk human papillomavirus (HPV) contributes to oropharyngeal cancers through mechanisms involving the deregulation of host cell functions by oncoproteins E6 and E7. Changes in the epigenome, particularly involving long non-coding RNAs (lncRNAs), are crucial for understanding HPV-related carcinogenesis. Methods: This study aimed to analyze the expression levels of lncRNAs in HPV-related head and neck squamous cell carcinoma (HNSCC) to determine their biological and clinical significance, addressing the current gap in clinically validated biomarkers for early screening and therapeutic interventions. Results: The study highlights the significant overexpression of the EGOT gene in HPV-positive HNSCC samples, suggesting its potential as a marker to distinguish between HPV-negative and HPV-positive cases. Furthermore, high EGOT expression correlates with better overall survival (OS) and indicates possible resistance to therapy, making it a valuable prognostic factor. Conclusions: These findings underscore the potential of incorporating EGOT expression analysis in clinical practice for improved patient stratification and treatment outcomes in HNSCC. Full article

The human papillomavirus (HPV) has been associated with the carcinogenesis of cutaneous squamous cell carcinoma (cSCC), especially in immunosuppressed patients. This article reviews the microbiology of HPV and its role in tissue tropism, invasion, and oncogenesis. It also describes possible HPV oncogenic ability due to the inactivation of the host p53 and retinoblastoma protein (pRb) by HPV oncoproteins E6 and E7, producing a suppression of cell cycle checkpoints and uncontrolled cell proliferation that may eventually result in invasive carcinoma. We will focus on β-HPV types and their role in epidermodysplasia verruciformis (EV), as well as α types and their ability to cause cutaneous and mucosal pathology. We also intend to examine the clinical characteristics of cSCC related to HPV and host immunosuppression conditions such as solid organ transplant in order to provide management guidelines for patients with cSCC associated with HPV based on available data. Other topics addressed in this article include particular locations of cSCC, such as nails; the prognosis; the recurrence; therapeutic modalities; and the role of HPV vaccines. Full article

Human papillomavirus (HPV) is a well-established etiological factor in the development of precancerous cervical lesions and cervical cancer. This narrative review synthesizes current evidence on the global prevalence, genotype distribution, and pathophysiological mechanisms of HPV infection, emphasizing regional epidemiological variations that influence prevention and treatment strategies. Particular attention is given to high-risk HPV genotypes, their role in carcinogenesis, and the impact of co-infections and the cervicovaginal microbiota on infection persistence and disease progression. Advances in diagnostic methodologies, including E6/E7 oncoprotein detection, DNA methylation, and microRNA-based assays, are examined in the context of improving screening accuracy and early detection. Furthermore, the review explores the psychological implications of HPV diagnosis and underscores the importance of integrating psychosocial support into clinical management. Given the challenges associated with screening coverage, the potential of self-sampling techniques, particularly in resource-limited settings, is discussed as a means to enhance accessibility and participation in cervical cancer prevention programs. By providing a comprehensive overview of these interrelated factors, this review highlights the necessity of a multidisciplinary approach that integrates novel diagnostic strategies, targeted prevention efforts, and supportive care to mitigate the burden of HPV-associated diseases. Full article

The number of new cancer cases is soaring, and currently, there are 440.5 per 100,000 new cases reported every year. A quarter of these are related to human papillomavirus (HPV) infections, particularly types 16 and 18. These include oropharyngeal, anal, vaginal, and penile cancers. A critical aspect of their oncogenic potential lies in their ability to manipulate host immune responses, facilitating immune evasion and carcinogenesis. High-risk HPVs target key immune components like granzymes A and B and MHC-I, which are crucial for the elimination of virus-infected and transformed cells, thereby weakening immune surveillance. Evidence suggests that high-risk HPVs downregulate the expression of tumor suppressors, such as p53 and pRB, and the activity of these immune components, weakening CTL and NK cell responses, thus enabling persistent infection and carcinogenesis. We discuss the implications of granzyme and MHC-I dysregulation for immune evasion, tumor progression, and potential therapeutic strategies. This review further explores the regulation of granzyme A, B, and MHC-I by high-risk HPVs, focusing on how viral oncoproteins, E6 and E7, interfere with granzyme-mediated cytotoxicity and antigen presentation. The complex interplay between high-risk HPVs, granzyme A, granzyme B, and MHC-I may provide insights into novel approaches for targeting HPV-associated cancers. Full article

Lactococcus lactis is a potential bacterial cell factory to develop delivery systems for vaccines and therapeutic proteins. Much progress has been made in applications using engineered L. lactis against, e.g., inflammatory bowel disease and cervical cancer, but the improvement of secretion and cell anchoring efficacy is still desirable. A double-labeling method based on biarsenical hairpin binding and nickel–polyhistidine affinity was used for visualization of protein trafficking and the quantification of targeted proteins on the cell surface and in the cytoplasm. To investigate the importance of mature domain targeting signals (MTSs), we generated truncated constructs encoding 126, 66, and 26 amino acid residues from the N-terminus of the basic membrane protein A (BmpA) and fused those with the gene for the human papillomavirus serotype 16 (HPV16) E7 oncoprotein. Overexpression of fusion proteins was observed to come at the cost of cell proliferation. L. lactis cells produced and displayed the shortest fusion protein only with difficulty, suggesting that the entire absence of a homologous sequence containing MTSs significantly impedes the export and surface anchoring of fusion proteins. With 40 amino acids following the signal peptide and containing one MTS, effective translocation was possible. Mutations of MTSs towards increased hydrophobicity resulted in increased secreted and surface-displayed fusion protein, suggesting the potential to design rationally improved constructs. Full article