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Search Results (244)

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7 pages, 408 KB  
Case Report
Detection of Anti-Orthopoxvirus Neutralizing Antibodies in Three Dogs and One Cat from a Household with a Confirmed Human Mpox Case in Brazil
by Mariella Sousa Coêlho Maciel, Adriana de Souza Andrade, Ana Luiza Neri de Oliveira, Silvia Hees de Carvalho, Giliane de Souza Trindade, Ana Gabriella Stoffella-Dutra, Erna Geessien Kroon, Mauricio Teixeira Lima and Marco Antônio Campos
Zoonotic Dis. 2026, 6(3), 26; https://doi.org/10.3390/zoonoticdis6030026 - 28 Jun 2026
Viewed by 193
Abstract
Mpox is a zoonotic infectious disease caused by the species Orthopoxvirus monkeypox (MPV), which is becoming an increasing public health concern. While human-to-human transmission of the virus is well established, the role of domestic animals in MPV infection remains poorly understood. Investigating how [...] Read more.
Mpox is a zoonotic infectious disease caused by the species Orthopoxvirus monkeypox (MPV), which is becoming an increasing public health concern. While human-to-human transmission of the virus is well established, the role of domestic animals in MPV infection remains poorly understood. Investigating how the virus is transmitted among humans, dogs, and cats can improve our understanding of the disease’s pathogenesis and help develop strategies to limit its dissemination during future outbreaks. In this study samples were collected from four domestic animals (three dogs and one cat) in May 2023. These animals lived in a household where a human mpox case had been confirmed by PCR in March 2023, approximately 2 months before animal sampling. A plaque reduction neutralization test (PRNT) using vaccinia virus was performed to detect anti-orthopoxvirus (OPV) neutralizing antibodies (nAbs). Our data demonstrated that anti-OPV nAbs were present in samples obtained from three dogs and one cat with neutralization titers ranging from 1:5 to 1:20. These results indicate that the domestic animals were exposed to OPVs after contact with an individual with confirmed mpox, suggesting possible human-to-animal transmission within a household. Nevertheless, due to the cross-reactive immune response among OPVs, and the endemic circulation of vaccinia virus in Brazil, it is not possible to determine the specific viral species based solely on PRNT results. Therefore, these serological findings should be interpreted as evidence of OPV’s exposure rather than confirmed MPV infection. Full article
26 pages, 14528 KB  
Article
Comparative Genomic Analysis of Two Bat Poxviruses in the Genus Vespertilionpoxvirus
by Chi Zhang, Kyle Heye, Davide Lelli, Loubna Tazi and Stefan Rothenburg
Viruses 2026, 18(7), 706; https://doi.org/10.3390/v18070706 - 26 Jun 2026
Viewed by 372
Abstract
Poxviruses are large double-stranded DNA (dsDNA) viruses that cause important human and animal diseases, including smallpox and mpox. Poxviruses have also been identified in diverse bat populations; however, their potential for zoonotic transmission and adaptation to other mammalian hosts remains poorly understood. Poxviruses [...] Read more.
Poxviruses are large double-stranded DNA (dsDNA) viruses that cause important human and animal diseases, including smallpox and mpox. Poxviruses have also been identified in diverse bat populations; however, their potential for zoonotic transmission and adaptation to other mammalian hosts remains poorly understood. Poxviruses encode numerous immunomodulatory proteins that contribute to virulence, immune evasion, and host range. In this study, we performed a comparative genomic analysis of two bat-associated poxviruses belonging to the genus Vespertilionpoxvirus: hypsugopox virus (HYPV) and eptesipox virus (EPTV). Our analyses revealed 24 novel putative ORFs in HYPV and three in EPTV, thereby substantially expanding the inferred coding capacity of these viruses. Comparative analyses further revealed gene duplication and fragmentation events affecting several virulence and host range factors, as well as other unusual genomic features, including the presence of two divergent E3L homologs in EPTV. Together, our findings provide new insights into the genome evolution and potential host adaptation of bat-associated poxviruses and establish a foundation for future functional studies of Vespertilionpoxvirus biology, host–virus interactions, and zoonotic potential. Full article
(This article belongs to the Special Issue Animal Virus Discovery and Genetic Diversity: 2nd Edition)
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16 pages, 11004 KB  
Article
Genomic Insights into the Spread of Vaccinia Virus Strain Cantagalo to Rural Regions of Northeastern Brazil
by Maria Júlia Cadrieskt-Ribeiro, Matheus Nobrega Luques, Samuel Hir, Pedro Lucas O. Correia, Régis Linhares Oliveira, Carolina Maciel Neves, Keilla Maria P. Silva, Mayara Matias O. M. da Costa, Diego Arruda Falcão, Luciana Bahiense da Costa, Arabela Leal S. Mello, Jussara Lagos O. Silveira and Clarissa R. Damaso
Viruses 2026, 18(6), 629; https://doi.org/10.3390/v18060629 - 30 May 2026
Viewed by 507
Abstract
Vaccinia virus strain Cantagalo (CTGV) causes a pustular disease in dairy cows and milkers in Brazil. Outbreaks in several states have been frequently reported, but the full genome sequence and genomic analysis of isolates from the Northeast region have never been described. Here, [...] Read more.
Vaccinia virus strain Cantagalo (CTGV) causes a pustular disease in dairy cows and milkers in Brazil. Outbreaks in several states have been frequently reported, but the full genome sequence and genomic analysis of isolates from the Northeast region have never been described. Here, we report CTGV outbreaks in two Northeastern states, affecting milkers, lactating cows, and suckling calves. The farms were located in the main dairy belt of Pernambuco, in the Borborema Plateau, and in a rural region of Bahia. Of the 12 samples that tested positive for CTGV, five had their genomes fully sequenced. They cluster with CTGV isolates from Goiás (Midwest region, 2022) and São Paulo (Southeast region, 2023) but diverge from isolates from the Southeast in the early 2000s. Two clinical isolates have accumulated greater genetic variability and segregate separately from the other three isolates from the Northeast, showing evidence of potential recombination events with the FAI-01 isolate from the Midwest region (2022). We also detected Parapoxvirus and CTGV coinfection in some animals. These findings likely suggest different episodes of virus introduction in these states. The spread of CTGV raises concerns about the potential impact on local economic activities and underscores the importance of avoiding raw milk consumption. Full article
(This article belongs to the Special Issue Nucleocytoviricota)
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20 pages, 3468 KB  
Article
Chemical Cell Lysis with Clarification Filtration of Suspension Cell Culture-Derived Modified Vaccinia Virus Ankara
by Linus G. Weber, Larissa Dörr, Caroline Stephan, Leon Freitag, Leander John, Ingo Jordan and Michael W. Wolff
Vaccines 2026, 14(6), 468; https://doi.org/10.3390/vaccines14060468 - 25 May 2026
Viewed by 776
Abstract
Background: Modified Vaccinia Ankara (MVA) vectors are highly immunogenic vaccine platforms for the delivery of recombinant antigens. Efficient downstream processing is still challenging, particularly because substantial fractions of the virus remain intracellular. While chemical cell lysis that releases MVA particles into the [...] Read more.
Background: Modified Vaccinia Ankara (MVA) vectors are highly immunogenic vaccine platforms for the delivery of recombinant antigens. Efficient downstream processing is still challenging, particularly because substantial fractions of the virus remain intracellular. While chemical cell lysis that releases MVA particles into the supernatant before clarification can greatly enhance process efficiency and scalability, this step remains insufficiently characterized. Methods: This study assessed the compatibility of ionic, non-ionic, and zwitterionic detergents with the virus as purification target. Polysorbate 20 (Tween 20) was selected as a candidate detergent and evaluated across harvest times of 48–72 h post-infection (hpi) at concentrations of 0.01–0.5% (v/v). Results: The addition of 0.01% to 0.05% Tween 20 at 48 hpi resulted in a twofold increase in supernatant virus within one hour of application. Extended exposure to Tween 20, combined with a 650 mM mixture of NaCl, NaBr, and KCl, promoted virus particle release. However, Tween 20 concentrations above 0.1% reduced MVA infectivity. A filtration cascade using pore sizes of 5 µm and 1.2 µm achieved product yields of 77–83% at 48 hpi and 41–69% at 72 hpi, respectively. Host-cell DNA is an important contaminant during viral vector processing. However, the application of 0.05% (v/v) Tween 20 resulted in a 35% reduction of dsDNA released into the culture supernatant; the nuclei could not be preserved intact under high-salt conditions to avoid the release of cellular DNA. Conclusions: In summary, this comprehensive data demonstrated that non-ionic detergents can be used to induce cell lysis while maintaining infectious activity of enveloped MVA. Full article
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18 pages, 8115 KB  
Article
First Complete Genome Sequencing of a Pigeonpox Virus Strain from Mainland China and Preliminary Evaluation of Its Attenuated Potential
by Yifan Zhu, Baolichen Zhang, Zhongshu Ji, Jingliang Su, Jianyu Chang and Kai Fan
Vet. Sci. 2026, 13(4), 393; https://doi.org/10.3390/vetsci13040393 - 17 Apr 2026
Viewed by 821
Abstract
Pigeonpox is a significant infectious disease caused by Pigeonpox virus (PPV), which severely impacts the pigeon industry. Current control methods primarily rely on heterologous vaccines, such as those derived from avian poxviruses, but their protection is limited, creating an urgent need for the [...] Read more.
Pigeonpox is a significant infectious disease caused by Pigeonpox virus (PPV), which severely impacts the pigeon industry. Current control methods primarily rely on heterologous vaccines, such as those derived from avian poxviruses, but their protection is limited, creating an urgent need for the development of a specific vaccine. In this study, 720 samples collected from several regions of China between 2022 and 2023 were tested for PPV, followed by virus isolation, identification, and genetic evolutionary analysis. Based on these findings, complete genome sequencing and attenuation of the representative BJ-02 isolate were conducted, and the potential of this strain as a candidate for an attenuated vaccine was preliminarily evaluated. The survey showed PCR positive rates of 9.05%, 16.11%, and 12.50% in samples from Beijing, Guangdong, and Hainan, respectively. Six viral strains were isolated, all of which produced typical lesions on chorioallantoic membranes (CAM) and chicken embryo fibroblasts (CEF). Phylogenetic analysis based on the P4b gene revealed that the six viruses clustered within the same evolutionary branch, closely related to PPV and penguinpox virus strains from South Africa, India, and Taiwan, China. Complete genome sequencing of the BJ-02 strain showed its genomic structure to be similar to that of other fowlpox viruses, with some differences. After serial passage in CAM, PEF and CEF, the BJ-02 SD55 high-passage strain adapted well to in vitro culture, exhibited significantly reduced pathogenicity in chicken embryos and pigeons, and showed no reversion to virulence after five consecutive back-passages. Animal immunization tests demonstrated that the BJ-02 SD55 suspected attenuated strain induced specific antibodies and provided 100% protection against challenge with the virulent strain. In conclusion, PPV is widely prevalent in China. The BJ-02 strain, successfully isolated and attenuated through serial passage, demonstrates excellent immunogenicity and high safety, making it a promising candidate for a specific pigeonpox vaccine. Additionally, the complete genome characterization of BJ-02 contributes to the avian poxvirus genome database and provides critical data to support research on viral pathogenesis and the development of viral vector vaccines for avian and potentially mammalian species. Full article
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14 pages, 3164 KB  
Article
Transcriptomic Assessment of Host Responses in Vaccinia and Venezuelan Equine Encephalitis Virus-Infected Human Dendritic Cells
by Aarti Gautam, Stacy Ann Miller, Burook Misganaw, Nicholas C. Gary, Marti Jett, Sofi Ibrahim and Rasha Hammamieh
Biomolecules 2026, 16(4), 544; https://doi.org/10.3390/biom16040544 - 8 Apr 2026
Viewed by 608
Abstract
Understanding host cell response to viral infection could lead to the identification of molecular targets that can be used for the development of diagnostics and therapeutics. In this study, we investigated human dendritic cell (DC) response to infections with Vaccinia (VAC) virus, a [...] Read more.
Understanding host cell response to viral infection could lead to the identification of molecular targets that can be used for the development of diagnostics and therapeutics. In this study, we investigated human dendritic cell (DC) response to infections with Vaccinia (VAC) virus, a highly immunogenic poxvirus, and Venezuelan Equine Encephalitis (VEE) virus, a single-stranded positive-strand RNA alphavirus, using human gene expression microarrays. Comparative changes in DC mRNA expression resulting from infection by the two viruses at 1, 8, and 12 h post-infection (hpi) revealed distinct temporal dynamics. VAC infection triggered early and robust activation of pathways related to chromatin organization, DNA damage, and antigen presentation, while VEE infection exhibited delayed activation of immune signaling pathways, including interferon signaling and cytokine production. Shared pathways, such as interferon signaling and inflammasome activation, highlight universal antiviral responses and potential therapeutic targets. These findings provide a molecular framework affected by VAC and VEE that need to be validated with additional experiments, such as functional assays or in vivo studies. The specific up- or downregulation of these pathways at different time points likely dictates the overall outcome of the viral infection and could potentially lead to better understanding of the temporal regulatory dynamics of virus host response. Full article
(This article belongs to the Section Bioinformatics and Systems Biology)
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19 pages, 2276 KB  
Article
Insights into Genomic Dynamics and Plasticity in the Monkeypox Virus from the 2022 Outbreak
by Michela Deiana, Elena Locatelli, Laura Veschetti, Simone Malagò, Antonio Mori, Denise Lavezzari, Silvia Accordini, Niccolò Ronzoni, Andrea Angheben, Giovanni Malerba, Evelina Tacconelli, Maria Grazia Cusi, Federico Giovanni Gobbi, Chiara Piubelli and Concetta Castilletti
Int. J. Mol. Sci. 2026, 27(3), 1371; https://doi.org/10.3390/ijms27031371 - 29 Jan 2026
Viewed by 945
Abstract
The 2022 global mpox outbreak represented a turning point in the Monkeypox virus (MPXV) epidemiology, highlighting the incredible capability of this virus to adapt to different conditions, also in a non-endemic context. To investigate the genomic dynamics of MPXV 2022 strains, we performed [...] Read more.
The 2022 global mpox outbreak represented a turning point in the Monkeypox virus (MPXV) epidemiology, highlighting the incredible capability of this virus to adapt to different conditions, also in a non-endemic context. To investigate the genomic dynamics of MPXV 2022 strains, we performed whole-genome sequencing of 40 clinical samples from 16 Italian patients across multiple anatomical sites and timepoints between May and December 2022. Combining single-nucleotide analysis with detailed investigation of short tandem repeats (STRs), we explored inter- and intra-host viral dynamics. We identified 19 STR loci located near or within genes involved in immune modulation and virion morphogenesis. While most STRs remained stable across patients, a subset displayed locus- or matrix-specific variation. Among these, STR-VII—embedded within the coding sequence of OPG153, an envelope-associated protein implicated in viral attachment—showed a 12-nucleotide in-frame deletion, resulting in the loss of four aspartic acid residues (Δ4D variant). Structural modeling indicated that this deletion slightly alters a disordered acidic loop without affecting the global fold, potentially modulating surface charge and immune recognition. Integrating STR profiling into genomic surveillance may enhance resolution in outbreak reconstruction and reveal subtle adaptive processes underlying poxvirus–host interaction and immune escape. Full article
(This article belongs to the Special Issue Viral Biology: Infection and Pathology, Diagnosis and Treatment)
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17 pages, 2404 KB  
Article
Novel 2-Aryl-1H-Benzimidazole Derivatives and Their Aza-Analogues as Promising Anti-Poxvirus Agents
by Valeria Manca, Laura Locci, Roberta Ibba, Laura Sanna, Ilenia Lupinu, Sandra Piras, Gabriele Murineddu, Gabriele Serreli, Roberta Loddo, Rebecca Piras, Luca Virdis, Michela Isola, Vanessa Palmas, Giuseppina Sanna and Antonio Carta
Viruses 2026, 18(1), 71; https://doi.org/10.3390/v18010071 - 4 Jan 2026
Cited by 3 | Viewed by 1368
Abstract
Introduction: Despite the impressive progress carried out in the field of biomedical sciences in recent decades, the incidence of emerging and neglected lethal viral infections mainly belonging to the Coronaviridae, Filoviridae, Arenaviridae, Bunyaviridae, and Paramyxoviridae families has considerably impaired [...] Read more.
Introduction: Despite the impressive progress carried out in the field of biomedical sciences in recent decades, the incidence of emerging and neglected lethal viral infections mainly belonging to the Coronaviridae, Filoviridae, Arenaviridae, Bunyaviridae, and Paramyxoviridae families has considerably impaired human health. The worldwide vaccination campaign at the end of the 1970s determined the eradication of smallpox. However, the growing number of cases of diseases linked to orthopoxvirus diseases, such as the recent epidemic of monkeypox zoonosis in various countries around the world, has increased the need for knowledge of these viral pathogens. To date, there is no specific treatement for Monkeypox virus (MPXV) infection. However, several antiviral drugs used to treat Smallpox and other viral infections could also be beneficial for Monkeypox disease. In this study we report the design and synthesis of new, variously substituted benzimidazole derivatives and the evaluation of their cytotoxicity and antiviral activity against representatives of the Orthopoxvirus genus, Vaccinia Virus (VV), closely related to variola virus and MPXV. Methods: A combination of cell-based assays and experimental techniques was used to investigate the cytotoxicity, antiviral activity, and mechanisms of action of the most interesting compound. Results: In our study, new, variously substituted benzimidazoles showed interesting EC50 values against vaccinia and MPXV and a cytotoxic profile in the high micromolar range. Conclusions: Our work shows that the new tested benzimidazole derivatives possess appealing activity and selectivity, accompanied by low cytotoxicity. These results set a valid foundation with which to identify potent and selective anti-Poxvirus agents. Full article
(This article belongs to the Special Issue Advances in Small-Molecule Viral Inhibitors)
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19 pages, 3714 KB  
Article
Unveiling Intra-Clonal Diversity of Monkeypox Virus from Brazil’s First Outbreak Wave
by Amanda Stéphanie Arantes Witt, João Victor Rodrigues Pessoa Carvalho, Izabela Mamede, Talita Emile Ribeiro Adelino, Felipe Campos de Melo Iani, Maurício Teixeira Lima, Thalita Souza Arantes, Denilson Eduardo Silva Cunha, Rodrigo Araújo Lima Rodrigues, Giliane de Souza Trindade, Erna Geessien Kroon, Nidia Esther Colquehuanca Arias, Glória Regina Franco and Jônatas Santos Abrahão
Viruses 2026, 18(1), 62; https://doi.org/10.3390/v18010062 - 31 Dec 2025
Viewed by 962
Abstract
The monkeypox virus (MPXV) is an emerging zoonotic pathogen responsible for mpox, a disease characterized by some smallpox-like symptoms, typically mild but occasionally fatal. The largest mpox recorded global outbreak began in May 2022, with over 162,000 cases across 140 countries. Herein, we [...] Read more.
The monkeypox virus (MPXV) is an emerging zoonotic pathogen responsible for mpox, a disease characterized by some smallpox-like symptoms, typically mild but occasionally fatal. The largest mpox recorded global outbreak began in May 2022, with over 162,000 cases across 140 countries. Herein, we have analyzed the intra-clonal diversity of MPXV obtained from a single skin lesion sample from a male patient (June 2022). Three viral clones were obtained following phenotypic evaluation of MPXV lysis plaque characteristics over a three-course infection in BSC-40 cells. Unlike the vaccinia virus Western Reserve (VACV-WR) strain, MPXV clones did not produce comet-like structures, suggesting reduced extracellular enveloped virus (EEV) morphotype release, which is associated with viral dissemination. Whole-genome sequencing and assembly identified subtle differences among clones. Comparative genomic analyses, including synteny and single nucleotide variation (SNV) calling, revealed intra-clonal differences and divergence from clade I and II references, although the variety of mutations found did not reveal possible variations at the protein level. Altogether, these findings suggest that although similar, it is possible that distinct MPXV variants may circulate together and can be found in a single exanthematous lesion. Full article
(This article belongs to the Special Issue Nucleocytoviricota)
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20 pages, 1732 KB  
Article
Molecular Determinants of Species-Specific Interactions Between Protein Kinase R and Poxvirus K3 Orthologs
by Chorong Park, Greg Brennan, Chen Peng, Chi Zhang, Jingxin Cao, Loubna Tazi and Stefan Rothenburg
Viruses 2025, 17(12), 1550; https://doi.org/10.3390/v17121550 - 26 Nov 2025
Viewed by 1303
Abstract
Protein kinase R (PKR) is an antiviral protein that is involved in molecular “arms races” with viral antagonists. As a result, some PKR inhibitors, including the vaccinia virus (VACV) protein K3 and its orthologs from other poxviruses only inhibit PKRs of selected species. [...] Read more.
Protein kinase R (PKR) is an antiviral protein that is involved in molecular “arms races” with viral antagonists. As a result, some PKR inhibitors, including the vaccinia virus (VACV) protein K3 and its orthologs from other poxviruses only inhibit PKRs of selected species. We previously reported contrasting inhibition patterns of human, sheep, and cow PKRs by VACV K3 and the sheeppox virus (SPPV) K3 ortholog, SPPV 011. Here we show that the differential sensitivities of cow and sheep PKRs to VACV K3 were mediated by only two residues in PKR helix αG. In contrast, SPPV 011 sensitivities were governed by additional residues and regions. Analysis of the PKR sensitivities from 20 mammalian species to VACV K3 and SPPV 011 revealed four different sensitivity patterns: some PKRs were inhibited by only one K3 ortholog, as previously reported, whereas other PKRs were either resistant or sensitive to both inhibitors. Furthermore, we characterized a residue (K45) in VACV K3 that is involved in the species-specific inhibition of PKR. Mutating this residue increased the inhibition of sheep but not human PKR, whereas it decreased the inhibition of mouse PKR, highlighting that a single mutation in a viral protein can result in distinct species-dependent inhibition changes. Full article
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12 pages, 1559 KB  
Article
TCEPVDB: Artificial Intelligence-Based Proteome-Wide Screening of Antigens and Linear T-Cell Epitopes in the Poxviruses and the Development of a Repository
by Mansi Dutt, Anuj Kumar, Ali Toloue Ostadgavahi, David J. Kelvin and Gustavo Sganzerla Martinez
Proteomes 2025, 13(4), 58; https://doi.org/10.3390/proteomes13040058 - 6 Nov 2025
Viewed by 1247
Abstract
Background: Poxviruses constitute a family of large dsDNA viruses that can infect a plethora of species including humans. Historically, poxviruses have caused a health burden in multiple outbreaks. The large genome of poxviruses favors reverse vaccinology approaches that can determine potential antigens and [...] Read more.
Background: Poxviruses constitute a family of large dsDNA viruses that can infect a plethora of species including humans. Historically, poxviruses have caused a health burden in multiple outbreaks. The large genome of poxviruses favors reverse vaccinology approaches that can determine potential antigens and epitopes. Here, we propose the modeling of a user-friendly database containing the predicted antigens and epitopes of a large cohort of poxvirus proteomes using the existing PoxiPred method for reverse vaccinology of poxviruses. Methods: In the present study, we obtained the whole proteomes of as many as 37 distinct poxviruses. We utilized each proteome to predict both antigenic proteins and T-cell epitopes of poxviruses with the aid of an Artificial Intelligence method, namely the PoxiPred method. Results: In total, we predicted 3966 proteins as potential antigen targets. Of note, we considered that this protein may exist in a set of proteoforms. Subsets of these proteins constituted a comprehensive repository of 54,291 linear T-cell epitopes. We combined the outcome of the predictions in the format of a web tool that delivers a database of antigens and epitopes of poxviruses. We also developed a comprehensive repository dedicated to providing access to end-users to obtain AI-based screened antigens and T-cell epitopes of poxviruses in a user-friendly manner. These antigens and epitopes can be utilized to design experiments for the development of effective vaccines against a plethora of poxviruses. Conclusions: The TCEPVDB repository, already deployed to the web under an open-source coding philosophy, is free to use, does not require any login, does not store any information from its users. Full article
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26 pages, 714 KB  
Review
Lumpy Skin Disease Virus Pathogenesis: Viral Protein Functions and Comparative Insights from Vaccinia Virus
by Huan Chen, Ruiyu Zhai, Chang Cai, Xiaojie Zhu, Yong-Sam Jung and Yingjuan Qian
Animals 2025, 15(21), 3176; https://doi.org/10.3390/ani15213176 - 31 Oct 2025
Cited by 3 | Viewed by 2830
Abstract
Lumpy Skin Disease Virus (LSDV), a member of the poxvirus family, represents a significant threat to global cattle industries. This review presents an analysis of LSDV-encoded proteins and their interactions with host systems, elucidating the molecular mechanisms governing viral life cycle progression and [...] Read more.
Lumpy Skin Disease Virus (LSDV), a member of the poxvirus family, represents a significant threat to global cattle industries. This review presents an analysis of LSDV-encoded proteins and their interactions with host systems, elucidating the molecular mechanisms governing viral life cycle progression and immune evasion strategies. We provide detailed characterization of the complex architecture of LSDV virions, including Intracellular Mature Virus (IMV), Extracellular Enveloped Virus (EEV), lateral bodies, and the core components, while summarizing the crucial functions of viral proteins throughout various stages of infection—entry, replication, transcription, translation, assembly, and egress. Particular attention is given to the immunomodulatory strategies employed by LSDV to subvert both innate and adaptive immune responses. These mechanisms encompass molecular mimicry of cytokines and chemokines, interference with antigen presentation pathways, inhibition of key immune signaling cascades, and modulation of apoptosis and autophagy processes. Through comparative analysis with homologs from related poxviruses, especially vaccinia virus, we highlight both evolutionarily conserved functions and potential unique adaptations in LSDV proteins. This review further identifies critical knowledge gaps in current understanding and proposes promising research directions. We emphasize that integrating multi-omics approaches with structural biology will be essential for advancing our understanding of LSDV pathogenesis and for developing novel preventive and therapeutic strategies against this important animal pathogen. Full article
(This article belongs to the Section Cattle)
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15 pages, 2603 KB  
Review
Global Transmission, Prevention, Control, and Treatment of Mpox Virus in 2025: A Comprehensive Review from Infection Mechanisms to Vaccine Development
by Quan Quan, Nan Wu, Ying-Hua Luo, Yan-Jun Tang, Yan-Zhi Liu, Xi-Chun Huang, Jun-Hao Li, Wan-Xia Ren and Cheng-Hao Jin
Vaccines 2025, 13(10), 1071; https://doi.org/10.3390/vaccines13101071 - 20 Oct 2025
Cited by 5 | Viewed by 2679
Abstract
The World Health Organization (WHO) declared the mpox (MPX) outbreak a public health emergency of international concern (PHEIC) on 23 July 2022, and 14 August 2024, respectively, underscoring the confirmed and concerning global spread of the disease. A gap exists in our fundamental [...] Read more.
The World Health Organization (WHO) declared the mpox (MPX) outbreak a public health emergency of international concern (PHEIC) on 23 July 2022, and 14 August 2024, respectively, underscoring the confirmed and concerning global spread of the disease. A gap exists in our fundamental understanding of the mpox virus (MPXV), despite its genetic relatedness to the variola virus (VARV). This knowledge deficit is evident in the performance of current medical countermeasures; vaccines and antiviral therapies adapted from smallpox programs demonstrate only partial efficacy and are constrained by issues of safety and suboptimal effectiveness against MPXV. In this context, the development of MPX-specific vaccines and antiviral drugs has become a critical priority in the global effort to combat MPX. However, MPXV employs multiple strategies to evade host immune responses, such as producing specific and poxvirus homologous proteins that suppress both innate immunity (including the six principal innate immune signaling pathways and antiviral strategies, notably the interferon [IFN] pathway) and adaptive immunity, thereby complicating vaccine and drug development. Insights from research on vaccinia virus (VACV) and VARV may inform the investigation of MPXV pathogenesis and immune evasion mechanisms. Drawing on relevant scientific literature, this review systematically examines key aspects of MPX infection, pathogenicity, and immune evasion, as well as the coordination between innate and adaptive immune responses. Furthermore, this review elucidates the current application and deployment landscape of the three principal therapeutics and three major vaccines for MPX, aiming to provide a theoretical foundation for future research and development of vaccines and targeted antiviral agents. Full article
(This article belongs to the Section Vaccines and Public Health)
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25 pages, 5371 KB  
Article
Chronic Folliculitis Associated with Ovine gammaherpesvirus 2-Induced Infections in Dairy Cows from Southern Brazil
by Selwyn Arlington Headley, Flávia Helena Pereira Silva, Mariana da Silva Marques, Juliana Torres Tomazi Fritzen, Fernanda Pinto-Ferreira, Geovana Depieri Yoshitani, Ana Aparecida Correa Xavier, Pedro Paulo Benyunes Vieira and Amauri Alcindo Alfieri
Animals 2025, 15(19), 2883; https://doi.org/10.3390/ani15192883 - 1 Oct 2025
Cited by 1 | Viewed by 1097
Abstract
Ovine gammaherpesvirus 2 (OvGHV2) is a Macavirus and the cause of sheep-associated malignant catarrhal fever (SA-MCF) in susceptible mammalian hosts worldwide. OvGHV2 may produce typical clinical manifestations of SA-MCF or subclinical infections. Additionally, OvGHV2 is associated with cutaneous lesions in ruminants, with few [...] Read more.
Ovine gammaherpesvirus 2 (OvGHV2) is a Macavirus and the cause of sheep-associated malignant catarrhal fever (SA-MCF) in susceptible mammalian hosts worldwide. OvGHV2 may produce typical clinical manifestations of SA-MCF or subclinical infections. Additionally, OvGHV2 is associated with cutaneous lesions in ruminants, with few documented reports of this unusual manifestation worldwide. This paper presents the pathological, immunohistochemical (IHC), and molecular findings observed in outbreaks of OvGHV2-related skin infections in dairy cattle from Southern Brazil. Cutaneous scrapings (n = 35) and biopsies (n = 6) were obtained from dairy cows derived from three farms. All cows (n = 35) developed widespread, ulcerative to scaly and erythematous skin lesions, and had no contact with sheep or goats. The biopsies were evaluated for histopathological diagnosis and then used in IHC analyses designed to detect malignant catarrhal fever virus (MCFV) antigens and to evaluate the inflammatory response. All scrapings and biopsies were used in PCR assays to amplify OvGHV2. Additionally, all biopsies were used in PCR assays to detect bovine gammaherpesvirus 6 (BoGHV6), bovine alphaherpesvirus 1 (BoAHV1), and poxvirus. Histopathology revealed chronic folliculitis in all biopsies. IHC detected intralesional, intracytoplasmic MCFV antigens in most (83.3%; 5/6) of the cutaneous lesions with folliculitis. These skin lesions showed a strong T-cell response, macrophage clusters, and caspase-positive follicular keratinocytes. OvGHV2 DNA was detected in 66.7% (4/6) of the cutaneous biopsies that contained MCFV antigens and in 8.6% (3/35) of the cutaneous scrapings. The DNA of BoGHV6, BoAHV1, and Poxvirus was not amplified from any of the cutaneous biopsies. These findings demonstrated that OvGHV2 was associated with the cutaneous lesions in dairy cows at these farms and represent the first description of OvGHV2-related skin disease in ruminants from Brazil and the entire Latin America. A review of previous cases of skin lesions associated with infections by OvGHV2 revealed that most cases had a histological diagnosis of folliculitis, suggesting that folliculitis may be associated with OvGHV2-related skin infections. Additionally, this investigation contrasts all previous reports of OvGHV2-related skin disease in ruminants, since the infected cows herein identified were not reared concomitantly or within proximity of the asymptomatic reservoir host. Furthermore, the possible form of OvGHV2 dissemination to the susceptible cows during this study is discussed. Full article
(This article belongs to the Section Cattle)
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Article
Pathological and Molecular Characterization of Avipoxvirus Infection in Burhinus oedicnemus in the Canary Islands
by Ana Colom-Rivero, Antonio Fernández, Lucía Marrero-Ponce, Derke Padrón-Ramírez, Lucía Caballero-Hernández, Candela Rivero-Herrera, Cristian M. Suárez-Santana and Eva Sierra
Vet. Sci. 2025, 12(9), 849; https://doi.org/10.3390/vetsci12090849 - 2 Sep 2025
Cited by 2 | Viewed by 2159
Abstract
Avian poxvirus was diagnosed in eight wild Stone-curlews (Burhinus oedicnemus) from the Canary Islands, based on a combination of pathological and molecular analysis. Affected birds exhibited lesions consistent with poxvirus infection; three of four with mild lesions (≤2 on pelvic limbs, [...] Read more.
Avian poxvirus was diagnosed in eight wild Stone-curlews (Burhinus oedicnemus) from the Canary Islands, based on a combination of pathological and molecular analysis. Affected birds exhibited lesions consistent with poxvirus infection; three of four with mild lesions (≤2 on pelvic limbs, excluding phalanges) were successfully rehabilitated and released, while four with moderate (≤2 on phalanges) to severe lesions (≥3 on phalanges) potentially faced impaired mobility, increased predation risk, and reduced foraging efficiency. Histopathology of six individuals revealed Bollinger bodies, characteristic of Avipoxvirus infection, and molecular analysis confirmed the presence of viral DNA in six cases. Three genetically distinct viral variants were identified, each associated with different phylogenetic clades and subclades, suggesting substantial viral diversity within this host species. Co-infection with Aspergillus fumigatus was also detected in six of the eight birds, confirmed by molecular analysis in either skin lesions or lung tissue. To our knowledge, this represents the first report of A. fumigatus co-infection in Stone-curlews with Avipoxvirus. Additionally, one individual presented a tumor-like lesion, expanding the known pathological manifestations of the disease. These findings provide new insights into avian pox and highlight the importance of considering fungal co-infections in the differential diagnosis, given their potential to exacerbate disease severity. Full article
(This article belongs to the Section Anatomy, Histology and Pathology)
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