Search Results (496)

Paraspeckles are subnuclear ribonucleoprotein condensates that regulate host stress responses, including those triggered by viral infection. In vitro studies using non-neuronal cells have shown the involvement of specific paraspeckle components in facilitating the replication of certain viruses, including Herpes Simplex Virus 1 (HSV-1), but these processes have not been investigated in human neuronal cells, which represent a relevant target of the virus. We employed human neural precursor cells (NPCs), neurons, and brain organoids derived from hiPSCs to investigate the previously unexplored dynamics of paraspeckle components in HSV-1-infected human neuronal cells. Our results reveal cell-type-specific differences in the expression of paraspeckle genes in response to HSV-1 infection. Unlike other viruses, HSV-1 orchestrates a previously unreported redistribution of paraspeckle proteins, leading to their accumulation in viral replication compartments (VRCs). Importantly, the expression of the paraspeckle proteins NONO and SFPQ correlates with HSV-1 permissiveness in human neuronal cells and may be required to establish a nuclear environment favoring viral transcription/replication. This enhances our understanding of how stress-response pathways in cells can be exploited by viruses in a cell-type-specific manner. Full article

Sexually transmitted diseases (STDs) continue to represent a substantial burden on public health and society worldwide. With significant implications for social, economic, and public health, STDsare a major global health concern. Despite advances in treatment, the global control of STDs is increasingly threatened by high prevalence of asymptomatic infections, delayed diagnosis and the rapid emergence of antimicrobial resistance (AMR). This emergence includes the value of asymptomatic screeningand the ensuing collateral damage resulting from the overuse of our declining potent antimicrobial resources. This review article critically examines current trends in the epidemiology, clinical significance, and laboratory diagnosis of major sexually transmitted pathogens, including Treponema pallidum, Chlamydia trachomatis, Trichomonas vaginalis, human papillomavirus, herpes simplex virus, and emerging sexually transmissible infections. Major emphasis is focused on contemporary diagnostic technologies and strategies, with a major focus on nucleic acid-based and point-of-care testing and their applicability in routine testing. The review also highlights evolving AMR patterns, resistance-guided therapy, and the role of global and national surveillance systems in informing treatment guidelines, with the integration of diagnostic strategies with resistance-guided therapy and surveillance systems. Strengthening diagnostic capacity, antimicrobial stewardship, and integrated surveillance is essential to mitigate resistance, improve patient outcomes, and advance effective STD management in venereology practice. Full article

Honey and propolis from the stingless bees Tetragonula drescheri and Tetragonula pagdeni remain underexplored for their health-promoting application. This study investigated the bioactive compounds, and antiviral and anticancer activities of honey and propolis extracts against herpes simplex virus (HSV), and human papillomavirus (HPV-16/18)-positive cervical cancer cells. Water and ethanol extracts were prepared and evaluated for anti-HSV activity using plaque assay, and for anticancer effects on CaSki and HeLa cells using apoptosis, colony formation, cell migration, and candidate gene expression analysis. Propolis water extract most potentially inhibited HSV wild-type and drug-resistant strains. Propolis ethanol extract from T. drescheri markedly suppressed CaSki and HeLa cell growth, induced apoptosis, downregulated HPV-16/18 E6, and upregulated BAX expression. Chemical profiles were identified by electrospray ionization quadrupole time-of-flight mass spectrometry. Most candidate compounds displayed preferable drug-likeness properties. Prototype herbal soup formulations containing selected extracts significantly inhibited HSV-1 drug-resistant strain and HPV-16 E6 expression. These findings demonstrated the high antiviral and anticancer potential of the extracted compounds from T. drescheri and T. pagdeni propolis, supporting their application in health-promoting products against HSV and HPV infection. Full article

Manganese ions (Mn²⁺) are an essential trace element within organisms spanning the entire tree of life. It has reported that Mn²⁺ exerts strong immunocompetence effects and exhibits antiviral effects against various human and animal viruses, including DNA and RNA viruses. Recently, Mn²⁺ has been found to be involved in the activation of the innate immune DNA-sensing cyclic GMP-AMP synthase (cGAS) stimulator of interferon genes (STING) pathway and subsequent antiviral function. However, the antiviral mechanism of Mn²⁺ remains unclear. In the current study, the results suggest that the cGAS-STING pathway is essential for Mn²⁺ to promote interferon (IFN) signaling, but it is not essential for triggering antiviral functions. After knocking out the STING or interferon regulatory factor 3 (IRF3) gene, Mn²⁺ still retains its antiviral activity against herpes simplex virus type 1 (HSV-1) and vesicular stomatitis virus (VSV). Furthermore, the results from transcriptomic analysis indicate that Mn²⁺ can induce a significant change in the apoptotic process in STING⁻/⁻ 3D4/21 cells. Mn²⁺ can induce cell apoptosis through the oxidative stress pathway, and inhibiting the apoptotic signal could suppress Mn²⁺-mediated antiviral activity in STING⁻/⁻ 3D4/21 cells. Additionally, dual knockout of IRF3 and caspase3, resulting in concurrent loss of IFN and apoptotic signals, eliminates the antiviral effects of Mn²⁺. In summary, the current study suggests that Mn²⁺ could exert antiviral effects not only through the cGAS-STING-IFN pathway but also via the reactive oxygen species (ROS)-apoptosis pathway. Full article

Caprine herpesvirus 1 (CpHV-1) is responsible for significant economic losses in goat farming. The CpHV-1 genital infection in goats has been used as a homologous animal model for the study of human herpes simplex virus type 2 (HSV-2). This study aimed to investigate the in vitro virucidal and antiviral effect of lemon juice (LJ) and its main component, citric acid (CA), against CpHV-1 on Madin-Darby Bovine Kidney (MDBK) cells. Cytotoxicity was assessed using an XTT assay, while viral titers were determined by the Reed–Muench method and viral DNA was quantified via qPCR. Pure LJ (pH 2.3) and its corresponding CA solution demonstrated potent and rapid virucidal activity, reducing the viral titer by over 5.0 log10 TCID₅₀/50 µL within 1 min. When applied after viral entry, a non-cytotoxic dilution of LJ (pH 4.32) significantly inhibited viral replication, causing a 2.5 log10 TCID₅₀/50 µL reduction in viral titer and a corresponding decrease in viral DNA. The antiviral effects were minimal at a near-neutral pH of 6.67, probably interacting with envelope structures. These results suggest that LJ could be a potential low-cost topical agent or disinfectant for controlling CpHV-1 in goat populations and offer a basis for translational research on human herpesviruses. Full article

Objective: Bacterial vaginosis is a dysbiosis of the vaginal microbiome, typically characterized by a loss of Lactobacillus. Lactobacillus plays a crucial role in vaginal immunity and protection against sexually transmitted infections. Herpes simplex virus 2, the primary cause of genital herpes, impacts 13% of people worldwide. We undertook this systematic review and meta-analysis to examine the risk of herpes simplex virus 2 acquisition in women with bacterial vaginosis. Secondarily, we examined the impact of bacterial vaginosis on herpes simplex virus 2 shedding, reactivation, and symptoms. Data sources: We searched PubMed, EMBASE, Cochrane, Web of Science, Google Scholar, and ClinicalTrials.gov for articles published before 1 July 2023 for microbiome and herpes simplex virus type 2. Studies were limited to human subjects and the English language. An updated search was performed in January 2026. This study was registered on PROSPERO (CRD42023439139). Methods of study selection: Studies on non-pregnant, reproductive-aged cisgender women that diagnosed bacterial vaginosis by Amsel Criteria, Nugent Scoring or used molecular techniques, and those that detected herpes simplex virus 2 by serological assay or PCR testing were included. Our search identified 863 results with four publications eligible for inclusion. For our secondary outcomes, 40 results were identified regarding herpes simplex virus 2 shedding, with two publications eligible for inclusion, which did not meet our threshold for meta-analysis. There were 21 results identified for herpes simplex virus 2 reaction and 115 results for herpes simplex virus 2 symptoms, with no articles being eligible for inclusion. Tabulation, integration, and results: Quality assessment was performed following data extraction using the quality assessment scales from the Joanna Briggs Institute. Results were extracted, and the pooled hazard ratio was calculated with 95% confidence interval. A total of 1906 women were included in this analysis, and 255 acquired herpes simplex virus 2. The pooled unadjusted hazard ratios produced an effect size of 1.91, (95% confidence interval 1.4649–2.4980), and a p-value of <0.0001, while the pooled adjusted hazard ratios produces an effect size of 1.85, (95% confidence interval of 1.3556–2.5162), and a p-value of 0.0001 indicating that bacterial vaginosis is associated with a increased risk of herpes simplex virus 2 acquisition. Conclusions: This systematic review with meta-analysis indicates that bacterial vaginosis is associated with a significantly increased risk (91% unadjusted, 85% adjusted) of herpes simplex virus 2 acquisition, indicating that bacterial vaginosis treatment may reduce herpes simplex virus 2 acquisition. A notable limitation of these findings is the relatively small number of studies eligible for inclusion in this systematic review and meta-analysis. Full article

Herpes simplex virus type 1 (HSV-1) initiates infection through sequential interactions with host receptors, yet the early transcriptional responses driving HSV-mediated iritis remain poorly understood. Given the clinical burden of HSV-induced anterior uveitis and the lack of targeted therapies, we sought to define the initial host response to infection. We performed temporal transcriptomic profiling of primary human iris stromal (HIS) cells at 1, 3, and 6 h post-infection. HSV-1 triggered rapid and extensive gene expression changes, with early activation of IL-17, TNFα, MAPK, and NF-κB signaling pathways, all associated with inflammation and stress responses. At later time points, pathways related to epithelial–mesenchymal transition and the G2/M checkpoint were upregulated, alongside sustained inflammatory signaling, suggesting a balance between stromal integrity and stress adaptation. Imaging studies, together with transcriptomic data, revealed modulation of HS3ST enzymes and a corresponding loss of heparan sulfate and syndecans. These transcriptional dynamics mirror those observed in HSV-1-induced keratitis, indicating a conserved ocular response across cell types. By mapping these early events, this study identifies potential molecular targets for therapies aimed at mitigating inflammation during HSV-induced iritis. Full article

The U94 protein of Human Herpesvirus 6 exerts antiproliferative effects through downregulation of the Src proto-oncogene. We aimed to define the shortest U94 fragment that preserves antiproliferative activity and to explore its structural properties. U94 was truncated into shorter fragments, which were subjected to computational analyses and proliferation assays on MDA-MB-468, BT-549 breast cancer cells. Src phosphorylation levels were scrutinized by Western blot analysis. Data obtained demonstrated that the U94 antiproliferative activity resides in its N-terminal region. Specifically, MT153 (aa 1–153) and MT117 (aa 1–117) fragments exhibited antiproliferative activity, whereas MV85 (aa 1–85) fragment did not. Computational analyses identified MG112 (aa 1–112) and MI108 (aa 1–108) as biologically active and suggested that the β-sheet of the structure is critical. The shortest KI95 fragment (aa 14–108), maintaining a stable β-sheet, demonstrated antiproliferative effects and Src downregulation. The antiproliferative activity of U94 and its active fragments relies on stable tridimensional conformation rather than on linear peptide sequence. KI95 represents the shortest active U94 fragment that preserves biological function, with critical residues likely located within the β-sheet region. These findings highlight the importance of structural integrity in U94 functionality and suggest KI95 as a potential therapeutic agent for cancer treatment. Full article

Herpes simplex virus type 1 (HSV-1) has been proposed as an environmental risk factor for Alzheimer’s disease (AD). Viral infection of neuronal cells can reproduce hallmark pathological features of AD, including intracellular beta-amyloid (Aβ) accumulation, tau hyperphosphorylation, and lysosomal dysfunction. However, the molecular mechanisms underlying these alterations remain unclear, partly due to limitations of existing experimental models. Here, we established both two-dimensional (2D) and three-dimensional (3D) LUHMES neuronal cultures—a human mesencephalic-derived neural cell line that differentiates rapidly into mature neurons—to investigate HSV-1-induced AD-associated markers. Our results demonstrate that HSV-1 infection induces key features of AD, including intracellular accumulation of Aβ peptides and hyperphosphorylation of tau protein. Moreover, we observed disruptions in the autophagy–lysosome pathway, characterized by increased LC3-II levels, reduced cathepsin activity, and impaired lysosomal burden. Notably, these AD-like alterations were reproduced in 3D LUHMES neuronal aggregates, confirming their susceptibility to productive HSV-1 infection. Collectively, these findings indicate that HSV-1 not only triggers AD-like neuropathological markers but also disrupts cellular clearance mechanisms that may contribute to neuronal dysfunction and degeneration. This study validates the 3D LUHMES system as a useful human neuronal model to study virus-induced neurodegeneration and its mechanistic links to AD pathology. Full article

The ongoing emergence of antiviral drug resistance underscores the critical need for new broad-spectrum antiviral agents. Sulfonamides and their derivatives have emerged as promising candidates for the development of new antiviral therapeutics. In this study, a series of camphor-10-sulfonamide derivatives was synthesized through a feasible and sustainable synthetic approach starting from naturally available precursors and evaluated for antiviral properties. Their activity was examined against three structurally distinct viruses—herpes simplex virus type 1 (HSV-1), human coronavirus (HCoV-OC43), and feline calicivirus (FCV)—representing both DNA and RNA, enveloped and non-enveloped types. The compounds were examined for their effects on viral replication, the stage of viral adsorption to the cell, and extracellular virions. The weakest cytotoxicity and the most pronounced activity of all the tested substances was demonstrated by the tryptophan derivative 7a. A time-dependent inhibition of the stage of adsorption of HCoV-OC43 (Δlg = 2.0 at 120 min) and FCV (Δlg = 1.75 at 60 min) to susceptible cells was established, as well as virucidal activity on the three types of virions tested, with the most pronounced effect at 120 min—for HSV-1 (Δlg = 2.75) and Δlg = 2.0 for HCoV-OC43 and FCV. Molecular docking studies performed using Glide (Schrödinger) provided insights into the active conformations of the most effective ligands and predicted possible interactions with relevant viral targets, supporting their potential as lead structures for further therapeutic development. Full article

Monkeypox (MPOX) is an emerging zoonotic disease caused by monkeypox virus (MPXV), an orthopoxvirus closely related to smallpox. Initially confined to endemic regions in Central and West Africa, MPOX has recently gained global significance with outbreaks reported across multiple continents. MPXV is maintained in animal reservoirs but is increasingly transmitted from person to person, facilitated by close contact, respiratory droplets, and, in some cases, sexual transmission. Clinically, MPOX presents with fever, lymphadenopathy, and a characteristic vesiculopustular rash, though atypical manifestations have been observed in recent outbreaks, complicating diagnosis. Laboratory confirmation relies on molecular testing, while differential diagnosis must consider varicella, herpes, and other vesicular illnesses. Therapeutic options remain limited; supportive care is the cornerstone of management, but antivirals such as tecovirimat and brincidofovir, as well as smallpox vaccines, have shown efficacy in mitigating disease severity and preventing infection. The unprecedented global outbreak has underscored the importance of surveillance, rapid diagnostics, and coordinated public health responses to contain transmission. This review provides an overview of epidemiology, virology, clinical manifestations, modes of transmission, available diagnostics, and prophylactic and therapeutic strategies against MPOX. We also discuss the role of animal reservoirs, viral evolution, and human-to-human transmission in shaping the dynamics of recent MPOX outbreaks. By summarizing the latest evidence, this review aims to inform clinicians, researchers, and policymakers about key aspects of MPOX biology, clinical management, and prevention, while identifying gaps that warrant future investigation for the control of this and potentially other emerging zoonotic-related pathogens with an impact on human health. Full article

Background/Objectives: Polymerase chain reaction (PCR) testing of ocular fluids is an essential diagnostic method for identifying infectious causes of uveitis. However, multiplex PCR kits specifically developed for ophthalmic use are not commercially available in many regions, including Korea. Given the biochemical similarity between cerebrospinal fluid (CSF) and aqueous humor, this study evaluated the diagnostic utility of a commercially available CSF multiplex PCR panel for detecting herpesviruses in patients with suspected viral uveitis. Methods: We retrospectively reviewed the medical records of patients whose aqueous humor samples were analyzed using a multiplex PCR assay originally designed for CSF testing (Seeplex Meningitis-V1 ACE Detection kit, Seegene, Seoul, Republic of Korea). The samples were obtained between May 2019 and June 2023 at two tertiary referral hospitals. The assay targeted herpes simplex virus types 1 and 2 (HSV-1, HSV-2), varicella-zoster virus (VZV), cytomegalovirus (CMV), Epstein–Barr virus (EBV), and human herpesvirus 6 (HHV-6). Patients were classified into three groups: (I) anterior uveitis with suspected herpesviral infection, (II) acute retinal necrosis (ARN), and (III) CMV retinitis. Baseline characteristics, PCR positivity rates, and virus prevalence were compared among the groups. Results: Among 149 eyes tested, 86 were included in the final analysis. The overall positivity rate was 38.4%. PCR positivity was 19.7% (12/61) in Group I, 93.8% (15/16) in Group II, and 66.7% (6/9) in Group III. CMV was the most common pathogen in Groups I (66.7%) and III (100%), while VZV was predominant in Group II (80%). No HHV-6 infection was detected. Conclusions: The positivity rate in anterior uveitis (Group I) was lower than previously reported, likely due to the limited sample volume relative to the assay’s requirement. Nevertheless, the assay demonstrated diagnostic reliability comparable to previous reports for ARN and CMV retinitis. Therefore, the CSF-based multiplex PCR panel serves as a feasible and cost-effective diagnostic option for sight-threatening posterior segment infections, facilitating prompt diagnosis and treatment, although further optimization is warranted for anterior uveitis. Full article

Varicella-zoster virus (VZV) is a human neurotropic herpesvirus. The primary infection with VZV causes chickenpox and establishes latency in sensory and dorsal root ganglia. Viral reactivation leads to herpes zoster (HZ), which is accompanied by complications such as postherpetic neuralgia (PHN), causing a significant disease burden. At present, vaccination is the most effective preventive measure. We developed a recombinant zoster vaccine, gE/BFA01, which comprises truncated VZV glycoprotein E and the liposome-based adjuvant BFA01 (containing MPL and QS-21). In this study, we evaluated the recombinant zoster vaccine’s immunogenicity in a live attenuated VZV-primed C57BL/6N mouse model and explored the mechanism of action of the BFA01 adjuvant. The results indicate that the gE/BFA01 vaccine induces superior antibody responses and stronger cellular immune responses compared with gE with aluminum hydroxide. Furthermore, gE/BFA01 showed comparable immunogenicity to the licensed vaccine Shingrix. Mechanistic investigations revealed that the BFA01 adjuvant can enhance the recruitment of innate immune cells at the injection site, increase the expression of DCs surface maturation markers, and activate multiple inflammatory signaling pathways in lymph nodes. Collectively, these findings indicate that gE/BFA01 can induce potent humoral and cellular responses, supporting its further development as a high-efficiency vaccine candidate. Full article

The research of Prof. Dr. Thomas C. Merigan has spanned almost half a century. It started in 1963 with his interest in interferon (i). He then identified pyran copolymer as a synthetic polyanionic inducer of interferon (ii), and thereafter thiophosphate-substituted polyribonucleotides, i.e., poly r($\overline{\mathrm{s}}$A-$\overline{\mathrm{s}}$U) (iii). He recognized the potential of interferon as a therapeutic agent for virus infections (iv), varicella-zoster virus (VZV) being the first case in point (v). His interest then shifted to the treatment of herpes virus [herpes simplex virus (HSV) and cytomegalovirus (CMV)] infections (vi) and hepatitis B virus (HBV) infections (vii), to end up with human immunodeficiency virus (HIV) infections (viii, ix, x). T.C. Merigan’s pioneering work on the treatment of so many pivotal virus infections deserves further in-depth clinical evaluation. Full article

Background/Objectives: Varicella-zoster virus (VZV) causes herpes zoster (HZ/shingles), particularly in older adults with weakened cell-mediated immunity (CMI), which is essential for controlling VZV reactivation and reducing HZ severity. Currently vaccines, like recombinant subunit or live-attenuated vaccine, showed shortcomings in eliciting CD8⁺ T-cell responses. Addressing this, we utilized the novel replication-defective chimpanzee adenovirus vector ChAdOx1 to construct the ChAdOx1-VZV (CVE) vaccine, using full-length glycoprotein E (gE) as antigen. This study evaluated the immunogenicity of a heterologous intramuscular (IM) prime/intranasal (IN) boost regimen with the aim of developing a novel VZV vaccine candidate. Methods: BALB/c mice were immunized with CVE using homologous or heterologous prime-boost regimens via IM or IN. And cynomolgus macaques were immunized intramuscularly with three doses of CVE. Cellular responses were assessed by intracellular cytokine staining (ICS) and IFN-γ ELISpot using splenocytes and PBMCs. Humoral responses were evaluated by serum gE-IgG ELISA and bone-marrow LLPC ELISpot. Memory subsets and tissue-resident T cells were analyzed by flow cytometry. Results: Heterologous IM prime/IN boost CVE regimen markedly enhanced both cellular and humoral responses, especially CD8⁺ T-cell responses. The induced LLPC and memory T cell responses indicate the potential for long-term protection against herpes zoster. In cynomolgus macaques, CVE induced robust serum gE-specific IgG responses and strong IFN-γ secreting T-cell activity, supporting the immunogenicity of CVE in a genetically distinct primate model and enhancing its clinical translational potential. Conclusions: CVE induces potent cellular and humoral immunogenicity, with IM prime/IN boost vaccination. Cross species immunogenicity observed in nonhuman primates further strengthens the translational relevance of this platform. These findings support CVE as a promising herpes zoster vaccine candidate and provide a rationale for continued evaluation in human-relevant systems. Full article