Application of a diagnosis flow draft based on appearance impression for detection of vulvar disease.

OBJECTIVES: The aims of this retrospective study were to evaluate the clinical applicability of the latest International Society for the Study of Vulvovaginal Disease (ISSVD) and International Federation for Cervical Pathology and Colposcopy (IFCPC) terminology for vulvar diseases, and to explore a new evaluation flow to optimize decision-making on diagnosis. METHODS: A total of 1,068 patients with 5,340 qualified vulvar images were evaluated by observers using 2011 ISSVD and 2011 IFCPC terminology systems. The sensitivity, specificity, positive predictive value, negative predictive value, Youden Index and Overall Diagnostic Value (ODV) were calculated for each finding in the two systems. Then the disease diagnosis order and a diagnosis flow draft (DFD) were obtained. RESULTS: A total of 15 kinds of vulvar diseases were diagnosed. The proportion of patients accompanied with cervical or vaginal intraepithelial neoplasia was highest (83.3 %) in vulvar Paget's disease group (p<0.001). Total area of lesions was larger in vulvar Paget's disease, lichen simplex chronicus and lichen sclerosus group (p<0.001). Among the top five findings of ODV, some findings inferred several (≥6) kinds of diseases, while some findings only exist in a certain disease. When the DFD was used, the agreement between the initial impression and histopathology diagnosis was 68.8 %, higher than those when ISSVD an IFCPC terminology systems used (p=0.028), and it didn't change with the experience of the observer (p=0.178). CONCLUSIONS: Based on the findings in ISSVD and IFCPC terminology systems, we explored a DFD for observers with different experience on the detection of vulvar disease.

Genetic variability analysis of human papillomavirus 58: Novel sublineage identification and persistent infection association.

This study aims to characterize the genetic variability of HPV58, identify novel lineages and sublineages, and explore the association between persistent/multiple HPV58 infections and genetic variation. In this study, samples from 124 women with HPV58 infection in Eastern China were collected and 81 isolates of E6 and L1 full-length genes were successfully amplified from 55 samples. We evaluated the diversity of genetic variants and performed correlation analyses between genetic variability and pathology, vaccination, multiple infections, and persistent infections. Among the E6 and L1 gene sequences collected, the dominant prevailing sublineages were A1 (46.2%) and A2 (23.1%). In addition, we found two potential novel sublineages denoted as the A4 and A5 sublineage. A total of 50 nucleotide substitutions, including 28 synonymous substitutions and 22 nonsynonymous substitutions, were observed in the E6 and L1 genes. Among them, variants with A388C/K93N substitutions in the E6 gene correlated with persistent infection (≥1 and ≥2 years) (p < 0.005), and C307T/C66C was associated with persistent infection (≥2 years) (p < 0.005). Notably, two mutations above were detected in the isolate from the patient with breakthrough vaccine infection. Our study found two novel sublineages and sites of genetic variability in multiple and persistent infection variants. In addition, we identified two mutational sites associated with persistent infection. This study provides new insight into the clinical characteristics of HPV 58 genetic variations and offers new ideas for research on next-generation vaccines in Eastern China.

Analysis of publications on HPV genotype co-infection: a bibliometric study on existing research.

Purpose: To identify the bibliometric information of Human papillomavirus (HPV) genotype co-infection in certain literature database over the past two decades. Methods: Web of Science was used as the main database to identify all eligible articles focusing on HPV genotype co-infection at the date of October 16, 2022. From this journal database, we identified 463 articles on HPV genotype co-infection, conducted statistical analysis according to the author, journal, publication year and month, country or region, keyword and impact factor. Results: The articles included in our analysis were published between 1994 and 2022. The index of citations per year ranged from 170.4 to 13.1. These articles were from 78 countries or regions, with most publications from the United States (n = 73), followed by China (n = 65) and Italy (n = 50). The journal that contributed the most publications on HPV heterotypic gene co-infection was PLOS ONE with a total of 29 articles, followed by JOURNAL OF MEDICAL VIROLOGY (n = 28), INFECTIOUS AGENTS AND CANCER (n = 14) and JOURNAL OF CLINICAL VIROLOGY (n = 12). Among existing research in the field of HPV co-infection, we found that epidemiological distribution and infection mechanism has been the two major topics for scholars, and studies on detection methods for HPV multiple genotypes were also included. Conclusion: Over decades, epidemiological studies and mechanism investigationhas been the central topics when it comes to HPV genotypes co-infection. Studies on HPV co-infection remained relatively insufficient, mainly stays in qualitative level while detailed infection data and high quality literature publications were still lack of valuable discussion.

Synthetic nanoparticles for the delivery of CRISPR/Cas9 gene editing system: classification and biomedical applications.

Gene editing has great potential in biomedical research including disease diagnosis and treatment. Clustered regularly interspaced short palindromic repeats (CRISPR) is the most straightforward and cost-effective method. The efficient and precise delivery of CRISPR can impact the specificity and efficacy of gene editing. In recent years, synthetic nanoparticles have been discovered as effective CRISPR/Cas9 delivery vehicles. We categorized synthetic nanoparticles for CRISPR/Cas9 delivery and discribed their advantages and disadvantages. Further, the building blocks of different kinds of nanoparticles and their applications in cells/tissues, cancer and other diseases were described in detail. Finally, the challenges encountered in the clinical application of CRISPR/Cas9 delivery materials were discussed, and potential solutions were provided regarding efficiency and biosafety issues.

The possible impact of novel mutations in human papillomavirus 52 on the infection characteristics.

Human papillomavirus 52 (HPV52) infection is prevalent in the Chinese population, and variations in HPV52 show correlations with oncogenicity. However, no specific variation in HPV52 was reported to show relevancy to infection characteristics. In this study, we retrieved 222 isolates of E6 and L1 full-length genes from 197 Chinese women with HPV52 infection. After sequence alignment and phylogenetic tree construction, we found that 98.39 % of the collected variants belonged to the sublineage B2 and two variants displayed incongruence between the phylogenetic tree of E6 and L1. The analysis of the infection pattern showed that the presence of C6480A/T mutation in the L1 gene was associated with single infection (P=0.01) and persistent infection (P=0.047) of HPV52, while the A6516G nucleotide change was relevant to transient infection (P=0.018). Our data also indicated that variations T309C in the E6 gene and C6480T, C6600A in L1 were more commonly presented in patients with high-grade cytology (P<0.05). One HPV52 breakthrough infection after vaccination was identified, which hinted at the immune escape post-vaccination. Young coitarche age and non-condom usage were correlated to multiple infections. This study provided insight into the polymorphism of HPV52 and revealed the impact of variations in HPV52 on its infection characteristics.

Sox4 represses host innate immunity to facilitate pathogen infection by hijacking the TLR signaling networks.

Toll-like receptors (TLRs) are essential for the protection of the host from pathogen infections by initiating the integration of contextual cues to regulate inflammation and immunity. However, without tightly controlled immune responses, the host will be subjected to detrimental outcomes. Therefore, it is important to balance the positive and negative regulations of TLRs to eliminate pathogen infection, yet avert harmful immunological consequences. This study revealed a distinct mechanism underlying the regulation of the TLR network. The expression of sex-determining region Y-box 4 (Sox4) is induced by virus infection in viral infected patients and cultured cells, which subsequently represses the TLR signaling network to facilitate viral replication at multiple levels by a distinct mechanism. Briefly, Sox4 inhibits the production of myeloid differentiation primary response gene 88 (MyD88) and most of the TLRs by binding to their promoters to attenuate gene transcription. In addition, Sox4 blocks the activities of the TLR/MyD88/IRAK4/TAK1 and TLR/TRIF/TRAF3/TBK1 pathways by repressing their key components. Moreover, Sox4 represses the activation of the nuclear factor kappa-B (NF-κB) through interacting with IKKα/α, and attenuates NF-kB and IFN regulatory factors 3/7 (IRF3/7) abundances by promoting protein degradation. All these contributed to the down-regulation of interferons (IFNs) and IFN-stimulated gene (ISG) expression, leading to facilitate the viral replications. Therefore, we reveal a distinct mechanism by which viral pathogens evade host innate immunity and discover a key regulator in host defense.

SOX2 Represses Hepatitis B Virus Replication by Binding to the Viral EnhII/Cp and Inhibiting the Promoter Activation.

Hepatitis B virus (HBV) replication is controlled by four promoters (preS1, preS2, Cp, and Xp) and two enhancers (EnhI and EnhII). EnhII stimulates Cp activity to regulate the transcriptions of precore, core, polymerase, and pregenomic RNAs, and therefore, EnhII/Cp is essential for the regulation of HBV replication. This study revealed a distinct mechanism underlying the suppression of EnhII/Cp activation and HBV replication. On the one hand, the sex determining region Y box2 (SOX2), a transcription factor, is induced by HBV. On the other hand, SOX2, in turn, represses the expression levels of HBV RNAs, HBV core-associated DNA, hepatitis B surface antigen (HBsAg), and hepatitis B e antigen (HBeAg), thereby playing an inhibitory role during HBV replication. Further studies indicated that SOX2 bound to the EnhII/Cp DNA and repressed the promoter activation. With the deletion of the high mobility group (HMG) domain, SOX2 loses the ability to repress EnhII/Cp activation, viral RNA transcription, HBV core-associated DNA replication, HBsAg and HBeAg production, as well as fails to enter the nucleus, demonstrating that the HMG domain is required for the SOX2-mediated repression of HBV replication. Moreover, SOX2 represses HBsAg and HBeAg secretion in BALB/c mice sera, and attenuates HBV 3.5kb RNA transcription and hepatitis B virus core protein (HBc) production in the liver tissues, demonstrating that SOX2 suppresses HBV replication in mice. Furthermore, the results revealed that the HMG domain was required for SOX2-mediated repression of HBV replication in the mice. Taken together, the above facts indicate that SOX2 acts as a new host restriction factor to repress HBV replication by binding to the viral EnhII/Cp and inhibiting the promoter activation through the HMG domain.

SOX9 represses hepatitis B virus replication through binding to HBV EnhII/Cp and inhibiting the promoter activity.

Hepatitis B virus (HBV) infection affects 364 million people worldwide and causes a serious global public health problem. The SRY-related high mobility group-box 9 (SOX9) is a risk of developing cirrhosis in patients with chronic hepatitis B and a cancer stem cell marker. However, the role of SOX9 in HBV replication has not been reported. This study revealed a distinct mechanism underling the regulation of HBV replication mediated by SOX9. HBV induces SOX9 mRNA and protein expression in human hepatoma cells, including HepG2.2.15, HepG2, Huh7, and HepG2-NTCP cells. Further study demonstrated that HBV activates SOX9 expression at the transcriptional level through inducing SOX9 promoter activity and HBc could induce the activity of SOX9 promoter. Interestingly, SOX9 in turn represses HBV replication in human hepatoma cells. More importantly, SOX9 inhibits HBV infection in HepG2-NTCP cells and C57/BL6 mice. Detailed study revealed that SOX9 suppresses HBV replication through directly binding to HBV EnhII/Cp (HBV 1667-1672 nt) to inhibit EnhII/Cp activation. Results from deletion mutant analysis, ChIP assay, nuclear and cytoplasmic extraction analysis, and immunofluorescence demonstrated that SOX9 high mobility group (HMG) domain is required for SOX9 anti-HBV activity. Moreover, we demonstrated that SOX9 and hepatocyte nuclear factor 4 alpha (HNF4α) can bind to HBV EnhII/Cp (HBV 1667-1672 nt) individually and simultaneously to regulate the promoter activity. Collectively, the results revealed a distinct negative feedback mechanism underlying HBV replication and SOX9 expression, and identified SOX9 as a new host restriction factor in HBV replication and infection. IMPORTANCE: HBV infection is a global public health problem by causing serious liver diseases, but the mechanisms underlying HBV pathogenesis remain largely unknown. SOX9 is a risk of developing cirrhosis and a cancer stem cell marker, however, the role of SOX9 in HBV infection has not been reported. The authors revealed a distinct mechanism underling the regulation of HBV replication and SOX9 expression. On the one hand, HBV induces SOX9 expression in human hepatoma cells through activating SOX9 promoter. On the other hand, SOX9 in turn represses HBV replication in human hepatoma cells by binding to and inhibiting HBV EnhII/Cp through its HMG domain. More importantly, SOX9 inhibits HBV infection in HepG2-NTCP cells and C57/BL6 mice. Therefore, this study identifies SOX9 as a novel and potential therapeutic reagent for the prevention and treatment of HBV-associated diseases.

Hepatitis B virus replication and sex-determining region Y box 4 production are tightly controlled by a novel positive feedback mechanism.

Hepatitis B virus (HBV) infection is a major cause of liver diseases. However, the mechanisms underlying HBV infection and pathogenesis remain largely unknown. The sex-determining region Y box 4 (Sox4) is a transcriptional factor, which preferentially regulates the development of various organs, tissues, and cancers. But, the role of Sox4 in viral infection and pathogenesis has not been elucidated. Here, we demonstrated that Sox4 is up-regulated by HBV, and revealed the mechanism by which HBV regulates Sox4 expression. First, HBV stimulates Sox4 expression through transcriptional factor Yin Yang 1 (YY1), which binds to Sox4 promoter to activate Sox4 transcriptional activity. Second, miR-335, miR-129-2 and miR-203 inhibit Sox4 expression by targeting its mRNA 3'UTR, while HBV suppresses the microRNAs expression, resulting in up-regulating Sox4 post-transcriptionally. Third, Sox4 protein is degraded by proteasome, while HBV surface protein (HBsAg) prevents Sox4 from degradation by directly interacting with the protein, thereby enhancing Sox4 production post-translationlly. More interestingly, HBV-activated Sox4 in turn facilitates HBV replication by direct binding to the viral genome via its HMG box. Thus, this study revealed a novel positive feedback mechanism by which Sox4 production and HBV replication are tightly correlated.