Search Results (152)

Hepatitis E virus (HEV) infection is generally self-limiting in immunocompetent individuals but may progress to chronic infection in immunocompromised patients, underscoring the need for effective antiviral therapies. Although ribavirin is currently used off-label for HEV treatment, its associated adverse effects highlight the need for safer alternatives. In this study, we screened an anti-viral compound library comprising 800 compounds using three HEV reporter systems designed to target distinct stages of the viral life cycle. Candidate compounds were further evaluated in PLC/PRF/5 cells using both acute and chronic infection models with wild-type genotype 3 HEV (HEV-3). Antiviral activity was assessed by measuring HEV RNA levels in culture supernatants. Elbasvir, a known inhibitor of hepatitis C virus (HCV) non-structural protein 5A (NS5A), was identified as the most potent candidate. Although multiple compounds showed inhibitory effects in reporter assays, only elbasvir achieved sustained suppression of HEV growth in long-term culture, reducing HEV RNA levels to below the limit of detection. In a chronic infection co-culture model, elbasvir maintained antiviral activity at non-cytotoxic concentrations. Time-of-addition analysis demonstrated that elbasvir inhibits an early step in the viral life cycle, specifically viral internalization. Furthermore, combination with ribavirin enhanced antiviral efficacy, resulting in sustained viral suppression without detectable cytotoxicity and exhibiting an additive interaction. Collectively, these findings identify elbasvir as a promising candidate for repurposing as an anti-HEV drug and support a combination strategy targeting distinct steps of the viral life cycle. Full article

Hepatitis E virus (HEV) is a major zoonotic pathogen, with pigs serving as the principal animal reservoir. While consumption of raw or undercooked pig liver is a well-recognized risk factor, systematic data on HEV contamination in retail pork meat remain limited. In this study, 1546 retail pork samples collected from eight geographic regions across Japan were analyzed for HEV RNA using a validated nested RT-PCR method. Analytical sensitivity was determined using the World Health Organization (WHO) International Standard for HEV RNA, yielding a 95% limit of detection (LOD95) of 134 IU/g (95% CI: 105–193). Overall, 15 samples (1.0%) tested positive for HEV RNA, with no significant regional variation (0.4–1.8%; p = 0.8375) or difference between domestically produced (1.0%, 12/1260) and imported pork (1.0%, 3/286; p = 0.7478). Viral loads in quantifiable samples (n = 11) ranged from 9.3 × 10² to 1.0 × 10⁵ IU/g. Genotyping based on partial ORF2 sequences revealed subtype 3b as predominant (n = 7), followed by 3a (n = 5), 3f (n = 2), and 4c (n = 1). Each of the 15 strains showed high nucleotide sequence identity (98.8–100%) to its closest reported Japanese strain(s). Phylogenetic analysis showed that all strains clustered with their closest reported HEV strains, with high bootstrap support, despite genetic diversity within subtypes. These findings demonstrate that retail pork meat in Japan is contaminated with HEV RNA and may represent a potential source of human exposure. However, whether HEV RNA-positive retail pork meat contains infectious virus capable of causing human infection remains to be determined. Full article

Background: Hepatitis E virus (HEV) is an increasingly recognized cause of acute viral hepatitis in Thailand as the burden of hepatitis A, B, and C has declined. HEV is a positive-sense RNA virus in the family Hepeviridae with three major open reading frames encoding replication proteins (ORF1), the capsid protein (ORF2), and an accessory protein involved in viral egress (ORF3). Unlike highly endemic regions where genotypes 1 and 2 are linked to waterborne outbreaks, infections in Thailand are reported mainly as sporadic cases associated with zoonotic transmission, most commonly genotype 3. Objectives: This review summarizes the epidemiology, transmission routes, and public health implications of HEV infection in Thailand. Methods: Peer-reviewed studies on HEV seroprevalence, molecular epidemiology, and transmission in Thailand were identified through PubMed using combinations of the keywords “HEV” and “Thailand”. Two investigators independently screened titles, abstracts, and full texts. Eligible studies were synthesized qualitatively. Results: Earlier studies suggested low population exposure, but more recent evidence indicates substantial cumulative risk. A nationwide survey among blood donors reported anti-HEV IgG seroprevalence of about 30%, with geographic variation and increasing prevalence with age. Detection of HEV RNA in pigs, slaughterhouse environments, and retail pork products, together with links to raw or undercooked pork consumption, supports pigs as the principal reservoir and foodborne exposure as an important route. Transfusion-associated infection has also been documented. Conclusions: In Thailand, HEV infection is linked mainly to zoonotic and foodborne transmission involving genotype 3. Stronger surveillance, food safety measures, and risk-based blood safety policies are needed. Full article

Rat hepatitis E virus (rat HEV, Rocahepevirus genotype C1) represents a potential zoonotic threat, but its epidemiological and evolutionary characteristics in small mammals remain poorly understood, especially in regions with complex geography. Between 2022 and 2024, we collected 818 small mammals from seven border counties and cities in Yunnan, China. Rat HEV RNA was detected by RT-PCR, risk factors were assessed using binary logistic regression, and full genomes were sequenced for phylogenetic and molecular clock analysis. The overall prevalence of rat HEV was 6.23% (51/818), with significantly higher odds observed in Gengma and Heqing counties, in oriental house rat (Rattus tanezumi) and Chevrieri’s field mouse (Apodemus chevrieri), in residential habitats, and at mid-high altitudes (all p < 0.001). The 51 partial genomic sequences (RdRp gene) obtained in this study clustered within Rocahepevirus, forming two distinct subclades associated with host species. The two complete genomes, GS188 and GS197 from Rattus tanezumi, were classified as subtypes C1b and C1d, respectively. Bayesian analysis estimated that GS197 diverged from a closely related Rattus tanezumi-derived strain around 1998, while GS188 diverged from a lineage containing shrew and human strains around 1931. These findings reveal a relatively high prevalence and substantial genetic diversity of Rochepevirus in southwestern Yunnan, suggesting human-influenced transmission dynamics and a potential for cross-species infection. Full article

Viral hepatitis constitutes a substantial global public health challenge. The etiological agents, referred to as hepatitis viruses, are primarily categorized into five types: hepatitis A virus (HAV), hepatitis B virus (HBV), hepatitis C virus (HCV), hepatitis D virus (HDV), and hepatitis E virus (HEV). Among the various preventive strategies, vaccination is widely acknowledged as the most cost-effective and efficient method for controlling viral hepatitis and its related hepatic complications. To date, numerous countries have initiated extensive vaccination programs targeting hepatitis A and hepatitis B. Advances in biotechnology have facilitated substantial progress in vaccine formulation design, the development of innovative adjuvants, and the utilization of novel vectors. However, significant challenges persist, including inadequate vaccination coverage, inconsistent immune responses among vulnerable populations, and concerns regarding vaccine safety. This article presents a systematic review of recent advancements, the current status of vaccination efforts, and ongoing challenges associated with hepatitis vaccines, with the objective of providing critical insights to support the World Health Organization’s goal of eliminating viral hepatitis as a public health threat by 2030. Full article

The detection of molecules belonging to the pathogenesis-related protein-4 (PR-4) family as a cause of allergic reactions towards the pomegranate fruit has already been suggested, although information regarding their isolation and characterization is not available in the literature. The objective of this study was the purification and description of some features of a pomegranate PR-4 protein. This protein, named punein, was purified by classical biochemical methods, identified by direct protein sequencing and mass spectrometry and analyzed by bioinformatic tools. Biochemical characterization shows that punein has a molecular mass of 13.29 kDa by mass spectrometry and about 14 kDa on SDS-PAGE, and it displays a blocked N-terminus. Bioinformatic analysis highlights that its primary structure shows similarity with the allergens prohevein (containing the strong allergen Hev b 6) and Bra r 2, from latex and turnip, respectively. In particular, punein could be aligned with the C-terminal region of prohevein, which shows IgE epitope regions, the amino acid sequences of which are partially conserved in the two molecules. However, further investigations are needed to understand the clinical relevance of this PR-4 food protein and the factors affecting the concentration of specific proteins, including punein, that are recognized by the immune systems of patients sensitized to pomegranate. Full article

Ras gene mutations are frequently observed in many types of cancers. However, there are currently no effective anticancer drugs against Ras-induced cancers. Therefore, identifying the downstream effectors of the Ras signaling pathway can facilitate the development of promising novel therapeutic approaches. We previously showed that oncogenic Ras induces the expression of the receptor tyrosine kinase c-Mer proto-oncogene tyrosine kinase (MerTK) in an interleukin-1 family member NF-HEV/IL-33-dependent manner and that IL-33 and MerTK contribute to oncogenic Ras-induced cell migration. In the present study, we purified the MerTK complex from NIH-3T3 cells transformed by the expression of oncogenic Ras, H-Ras (G12V). Mass spectrometric analysis identified STK38 (also known as NDR1) as a candidate binding partner for MerTK. STK38 is a serine/threonine protein kinase that plays diverse roles in normal and cancerous cells. In addition to MerTK knockdown, STK38 knockdown effectively attenuated the H-Ras (G12V)-induced migration of NIH-3T3 cells. STK38 kinase activity is required for oncogenic Ras-induced cell migration and MerTK tyrosine phosphorylation. Furthermore, MerTK or STK38 knockdown attenuated the activation of Rac1 and Cdc42. Taken together, these results revealed a novel role for STK38 in oncogenic Ras-induced enhanced cell migration, which may be useful for developing novel therapeutic strategies targeting Ras-mutated cells. Full article

Hepatitis E virus (HEV) is an emerging cause of viral hepatitis in Europe, with increasing recognition in immunocompromised patients. While genotype 3 (HEV-3) is most prevalent in the region, molecular epidemiology data from Hungary have been limited. HEV strains from 118 RNA-positive patients diagnosed between 2018 and 2025 were genotyped. Next-generation sequencing yielded near-complete HEV genomes for 76 samples. HEV-3 was dominant (98.3%). Subtype 3a was the most common (34.7%), followed by 3c, 3f, and 3e. Rare subtypes (3g, 3h, 3i, 3m, 3ra) and HEV-4b were detected for the first time in Hungary. Among immunocompromised patients, 41.6% developed chronic infection. Ribavirin resistance-associated mutations G1634R and V1479I were frequently detected. In silico analysis of potential multiple infections indicated the presence of at least two HEV strains of distinct origin in six patients. Our surveillance revealed extensive genetic diversity of HEV in Hungary. The detection of rare HEV-3 subtypes and the first documented occurrence of HEV-4b in the country highlight likely viral introductions linked to the increasing international trade. Ongoing surveillance is essential in protecting high-risk groups and limiting HEV transmission in a globalized food system. Full article

Allergenic proteins in natural rubber latex (NRL) pose significant health risks, particularly in rubber gloves. This study evaluated RNA interference (RNAi) technology for silencing HbREF (rubber elongation factor) and HbSRPP (small rubber particle protein) genes in Hevea brasiliensis to reduce latex allergen content. Double-stranded RNA (dsRNA) targeting these genes demonstrated high stability at 25–37 °C for 6 h and under UV/outdoor conditions for 72 h, but degraded rapidly above 50 °C. Among the three delivery methods tested, direct injection achieved the highest efficiency (>90% gene silencing within 12 h), followed by root drenching (54–84%) and foliar spray (46–70%). HbREF silencing achieved 98–99% expression reduction within 3 h, while HbSRPP showed dose-dependent responses (70–90% silencing) without off-target effects. Gene silencing affected downstream rubber synthesis genes HbCPT (cis-prenyltransferase) and HbRME (rubber membrane elongation protein) (37–58% reduction) while upstream genes remained unaffected. HbREF silencing reduced Hev b1 allergen by 64.04% and Hev b3 by 12.51%, whereas HbSRPP silencing decreased Hev b3 by 71.54% and Hev b1 by 13.48%. Both treatments caused only a 11–13% reduction in dry rubber content. This RNAi approach effectively reduces major latex allergens while maintaining rubber production, demonstrating commercial potential for developing hypoallergenic rubber products through precision agriculture biotechnology. Full article

Hepatitis E virus (HEV) is a pathogen that has caused various epidemics and sporadic localized cases. It is considered to be a public health problem worldwide. HEV is a small RNA virus with a significant genetic diversity, a broad host range, and a heterogeneous geographical distribution. HEV is mainly transmitted via the faecal–oral route. However, some animals are considered to be natural or potential reservoirs of HEV, thus elucidating the zoonotic route of transmission via the environment through contact with these animals or consumption of their by-products. Other routes of human-to-human transmission are not negligible. The various human–animal–environment entities, taken under one health approach, show the circulation and involvement of the different species (mainly Paslahepevirus balayani and Rocahepevirus ratti) and genotypes in the spreading of HEV infection. Regarding P. balayani, eight genotypes have been described, of which five genotypes (HEV-1 to 4 and HEV-7) are known to infect humans, while six have been reported to infect animals (HEV-3 to HEV-8). Furthermore, the C1 genotype of the rat HEV strain (HEV-C1) is known to be more frequently involved in human infections than the HEV-C2 genotype, which is known to infect mainly ferrets and minks. Contamination can occur during run-off, flooding, and poor sanitation, resulting in all of these genotypes being disseminated in the environment, contaminating both humans and animals. This systematic review followed the PRISMA guidelines and was registered in PROSPERO 2025 CRD420251071192. This research highlights the importance of investigating the transmission routes and major circulating HEV genotypes in order to adopt a holistic approach for controlling its emergence and preventing future outbreaks. In addition, this article outlines the knowledge of HEV in Africa, underlining the absence of large-scale studies at the environmental, human, and animal levels, which could improve HEV surveillance on the continent. Full article

Hepatitis E virus (HEV) infection is an emerging infectious disease. HEV-1 and HEV-2 infect humans through contaminated water and foods, mainly in developing countries. HEV-3 and HEV-4 also infect humans through contaminated food and are thought to be zoonotic infections occurring in both developing and developed countries. A vaccine for hepatitis E is licensed in only limited countries. The inactivation of infectious HEV is very important to ensure the safety of drinking water and foods. HEV-3 and HEV-4 RNA have been detected in some pig liver products, and it is possible that these foods may represent an infectious source of HEV. In this article, previous publications on the heat inactivation and heat stability of HEV are collected, and we discuss the present assessment of the heat inactivation of HEV. The thermal stability of HEV infection in cell culture systems and pig bioassays has been demonstrated, while the efficacy of the method of thermal inactivation using plasma products has not yet been established. Here, we propose that the treatment of HEV-contaminated foods at 95 °C for 10 min is one of the safest options for the inactivation of HEV. Full article

Lithium-ion batteries (LIBs) play a critical role in electric vehicles (EVs) and hybrid electric vehicles (HEVs) and degradation of LIBs influences lifetime, reliability, safety and dependability. The ability to assess and quantify degradation enables assessment of LIB’s true state of health. This paper investigates LIB degradation using a pseudo two-dimensional (P2D) model, particularly focusing on the changes to Electrochemical Impedance spectroscopy (EIS) results due to degradation. Three key degradation mechanism are considered and the impact of State-of-Charge (SoC) and temperature on EIS results are discussed. This paper also identifies the need for a more realistic approach to assess degradation. Simulations are conducted considering four repetitive standard drive cycles (viz., HTDDT, HWFET, US06 and OCTBC) for a vehicle travel distance of 150,000 km for each case. The cycle counting method is used to convert partial SoC variations during a drive cycle to an equivalent full cycle count which is then used within the degradation model to modify the parameters to represent the P2D model. This study demonstrates a robust process for analyzing degradation dynamics. The methodology presented here can guide future researchers with experimental data, enabling validation and refinement of model parameters to advance LIB degradation analysis and improve battery life predictions under operational scenarios. Full article

DDX3 is an ATP-dependent RNA helicase that is involved in multiple cellular activities, including RNA metabolism and innate immunity. DDX3 is known to assist the replication of some viruses while restricting others through its direct interaction with viral proteins. However, the role of DDX3 in the replication of the hepatitis E virus (HEV) is unknown. In this study, DDX3 was shown to interact with the HEV capsid protein and provide an important role in HEV replication. The DDX3 C-terminal domain was demonstrated to interact with the capsid protein. The depletion of DDX3 led to a significant reduction in HEV replication. Also, the ATPase motif of DDX3 was shown to be required in HEV replication as an ATPase-null mutant DDX3 failed to rescue the viral replication in the DDX3-depleted cells. These results demonstrate a pro-viral role of DDX3 in HEV replication, providing further insights on the virus–cell interactions. Full article

Hepatitis E virus (HEV) is the causative agent of acute hepatitis E infection in humans. Two epidemiological patterns of the disease exist—endemic and sporadic. Genotypes 1 (HEV-1) and 2 (HEV-2) are transmitted through contaminated water and are responsible for the outbreaks of many large-scale epidemics in developing countries of Asia and Africa. Genotypes 3 (HEV-3) and 4 (HEV-4) have zoonotic potential and cause sporadic cases and small outbreaks in high-income countries. The first case of HEV infection in swine was confirmed in 1997 and later detected in other animal species. The aim of this study was to investigate the seroprevalence of HEV infection in pig farms in Vojvodina province, Serbia. Three hundred blood samples were collected from five different categories of pigs from 3 different farms on the territory of the South Bačka district in Vojvodina (Serbia). The analyses were conducted by in-house ELISA, while the western blot method was used as a confirmatory test for doubtful results. The presence of HEV IgG was detected on all three examined farms. The established seroprevalence in Farm A was 37%, 31% in Farm B, and 54% in Farm C. The mean seroprevalence for all farms was 40.66%. A higher seroprevalence was found in fatteners compared to younger categories of pigs. We concluded that HEV is widespread on pig farms with intensive management. Further analyses should be conducted with the aim of implementing a surveillance program to prevent possible human infection. Full article

Extracellular vesicles (EVs) from Candida albicans can elicit immune responses, positioning them as promising acellular vaccine candidates. We characterized EVs from an avirulent C. albicans cell wall mutant (ecm33Δ) and evaluated their protective potential against invasive candidiasis. EVs from the yeast (YEVs) and hyphal (HEVs) forms of the SC5314 wild-type strain were also tested, yielding high survival rates with SC5314 YEV (91%) and ecm33 YEV immunization (64%). Surprisingly, HEV immunization showed a dual effect, resulting in 36% protection but also causing premature death in some mice. Proteomic analyses revealed distinct profiles among the top 100 proteins in the different EVs, which may explain these effects: a shared core of 50 immunogenic proteins such as Pgk1, Cdc19, and Fba1; unique, relevant immunogenic proteins in SC5314 YEVs; and proteins linked to pathogenesis, like Ece1 in SC5314 HEVs. Sera from SC5314 YEV-immunized mice showed the highest IgG2a titers and moderate IL-17, IFN-γ, and TNF-α levels, indicating the importance of both humoral and cellular responses for protection. These findings highlight the distinct immunogenic properties of C. albicans EVs, suggesting their potential in acellular vaccine development while emphasizing the need to carefully evaluate pathogenic risks associated with certain EVs. Full article