Your search keyword '"ANTIVIRAL RESPONSE"' showing total 1,290 results

1. Proteome profiling of human lung epithelial cells unveils distinct patterns of protein expression in response to SARS-CoV-2 ORF3a

Author

Apoorva, Shukla, Astha, Kumar, Atul, Singh, Saurabh, and Singh, Sunit K.

Published

2025

2. The Atlantic salmon gill transcriptional response to natural infection with HPR0-ISAV (Isavirus salaris) in three Norwegian smolt farms

Author

Benedicenti, Ottavia, Dahle, Maria K., Makvandi-Nejad, Shokouh, Andresen, Adriana Magalhaes Santos, Moldal, Torfinn, Sindre, Hilde, and Fosse, Johanna Hol

Published

2025

3. Comparison of transcriptome responses in blood cells of Atlantic salmon infected by three genotypes of Piscine orthoreovirus

Author

Tsoulia, Thomais, Sundaram, Arvind YM., Amundsen, Marit M., Rimstad, Espen, Wessel, Øystein, Jørgensen, Jorunn B., and Dahle, Maria K.

Published

2025

4. Monkeypox immunity: A landscape of host-virus interactions, vaccination strategies, and future research horizons

Author

Salauddin, Md., Zheng, Qingcong, Murtuza, Mohammad Shaz, Zheng, Chunfu, and Hossain, Md. Golzar

Published

2025

5. BSRF1 modulates IFN-β-mediated antiviral responses by inhibiting NF-κB activity via an IKK-dependent mechanism in Epstein-Barr virus infection

Author

Chen, Shengwen, Deng, Yangxi, Huang, Chen, Xie, Xiaolei, Long, Zhiwei, Lao, Shuxian, Gao, Xinghong, Wang, Kezhen, Wang, Shuai, Li, Xiaoqing, Liu, Yintao, Xu, Chunyan, Chen, Xinru, Huang, Wenzhuo, Zhang, Jian, Peng, Tao, Li, Linhai, Chen, Yonger, Lv, Xi, Cai, Mingsheng, and Li, Meili

Published

2025

6. Molecular antiviral responses, immune priming and inheritance in insects

Author

Gutiérrez-Millán, Everardo, Rodríguez-Aguilar, Eduardo Daniel, and Rodríguez, Mario Henry

Published

2025

7. pacsin1 inhibits antiviral immunity by promoting MITA degradation through autophagy in miiuy croaker, Miichthysmiiuy

Author

Li, Wenxin, Dong, Wenjing, Zhu, Zhihuang, Cao, Baolan, Xu, Tianjun, and Sun, Yuena

Published

2025

8. Stem cell activity-coupled suppression of endogenous retrovirus governs adult tissue regeneration

Author

Lyu, Ying, Kim, Soo Jin, Humphrey, Ericka S., Nayak, Richa, Guan, Yinglu, Liang, Qingnan, Kim, Kun Hee, Tan, Yukun, Dou, Jinzhuang, Sun, Huandong, Song, Xingzhi, Nagarajan, Priyadharsini, Gerner-Mauro, Kamryn N., Jin, Kevin, Liu, Virginia, Hassan, Rehman H., Johnson, Miranda L., Deliu, Lisa P., You, Yun, Sharma, Anurag, Pasolli, H. Amalia, Lu, Yue, Zhang, Jianhua, Mohanty, Vakul, Chen, Ken, Yang, Youn Joo, Chen, Taiping, and Ge, Yejing

Published

2024

9. Liver biopsy-proven non-alcoholic fatty liver disease predicts no impact on antiviral response in patients with chronic hepatitis B

Author

Chen, Miao-Yang, Li, Shun-Xin, Du, Zhi-Xiang, Xiong, Qing-Fang, Zhong, Yan-Dan, Liu, Du-Xian, and Yang, Yong-Feng

Published

2024

10. Chemical modification of uridine modulates mRNA-mediated proinflammatory and antiviral response in primary human macrophages

Author

Moradian, Hanieh, Roch, Toralf, Anthofer, Larissa, Lendlein, Andreas, and Gossen, Manfred

Published

2022

11. HnRNPC triggers the degradation of MITA to suppress the interferon-mediated antiviral response.

Author

Zhang, Yanwei, Jia, Zhao, Yuan, Gaoliang, Chen, Kangyong, Cen, Jing, Wang, Junya, Feng, Hao, Adamek, Mikolaj, and Zou, Jun

Abstract

Heterogeneous nuclear ribonucleoproteins (hnRNPs) are a group of 34–120 kDa nuclear proteins that have recently been reported to participate in virus replication. The hnRNP family contains approximately 20 members, including hnRNP A1, hnRNP A2, hnRNP A2B1, hnRNPC, hnRNPD and hnRNPK. HnRNPC plays important roles in RNA biology, including expression, stability, mRNA splicing, nonspecific sequence export and 3'-end processing; however, the mechanisms underlying hnRNPC regulatory roles are not fully understood. Here, we found that zebrafish hnRNPC promoted spring viraemia of carp virus (SVCV) replication by increasing the stability of SVCV phosphoprotein while inhibiting the K48-linked ubiquitination of virus phosphoprotein, thereby suppressing the type I interferon (IFN) response. Mechanistically, hnRNPC could interact with the mediator of IFN regulatory factor 3 activation (MITA) to activate K48-linked ubiquitination for MITA degradation through the C-terminal domain of hnRNPC. We also showed that human hnRNPC could interact with MITA and that the overexpression of human hnRNPC decreased MITA protein in HEK293 cells, suggesting that the negative regulatory effects of hnRNPC on the type I IFN response are evolutionarily conserved. Collectively, our data indicate that hnRNPC promotes virus replication by suppressing IFN production activated by MITA and increasing the availability of viral proteins. Our work reveals an evolutionarily conserved mechanism that controls the IFN-mediated antiviral response by a member of the hnRNP family in vertebrates. [ABSTRACT FROM AUTHOR]

Published

2025

12. Berberine, a Natural Compound That Demonstrates Antiviral Effects Against Ostreid Herpesvirus 1 Infection in Anadara broughtonii.

Author

Kang, Hui-Gang, Wei, Mao-Le, Wang, Jing-Li, Ma, Cui-Ping, Zhang, Xiang, Huang, Bo-Wen, Xin, Lu-Sheng, and Bai, Chang-Ming

Subjects

*VIRAL genes, *GENETIC transcription, *MEMBRANE proteins, *BERBERINE, *SURVIVAL rate

Abstract

Ostreid herpesvirus 1 (OsHV-1) infection is the primary viral disease responsible for large-scale mortality in bivalve mollusks worldwide, and effective strategies to control the outbreaks of this disease are still lacking. Berberine (BBR), a plant-derived alkaloid, has demonstrated antiviral activity against various vertebrate viruses, while its potential antiviral effects on molluscan herpesviruses remain to be fully elucidated. Therefore, the present study sought to investigate the potential of berberine hydrochloride (BBH) against OsHV-1 infection in blood clams (Anadara broughtonii). The most optimal BBH concentration was figured out according to virus replication and mortality rates during in vivo experimental infection. Quantitative PCR and reverse transcription quantitative PCR were utilized to monitor the OsHV-1 genomic copy numbers and viral gene transcription levels during the development of OsHV-1 infection in the BBH-treated and control groups. The results demonstrated that a 3 mg/L BBH bath immersion significantly suppressed OsHV-1 replication in blood clams. During the early stage of infection (24 h), BBH treatment significantly reduced the expression of OsHV-1 open reading frames (ORFs) related to early enzymes, putative membrane proteins, and nucleocapsid proteins. At 96 h post-infection, all untreated blood clams died, whereas the survival rate of BBH-treated individuals increased to 46.67%. This study provides preliminary evidence for the inhibitory effects of BBH on OsHV-1, paving the way for the development of pharmacological control technologies for OsHV-1 infections. [ABSTRACT FROM AUTHOR]

Published

2025

13. Phytomedical Properties of Carica papaya for Boosting Human Immunity Against Viral Infections.

Author

Srivastava, Rashmi, Jaiswal, Neeshma, Kharkwal, Harsha, Dubey, Neeraj Kumar, and Srivastava, Rakesh

Subjects

*VIRUS diseases, *NATURAL immunity, *TROPICAL plants, *ZIKA virus, *VIRAL replication, *PAPAYA, *HIV

Abstract

Carica papaya, a tropical fruit-bearing plant, has attracted significant attention for its diverse phytomedical properties and its ability to regulate both innate and adaptive immunity, making it a promising natural therapeutic agent. C. papaya is rich in bioactive compounds that play a multifaceted role in immunomodulation. These bioactive constituents have demonstrated efficacy not only against the dengue virus but also against other viral infections, including COVID-19 (Corona Virus Disease 2019), Human Immunodeficiency Virus (HIV), Zika virus, and others. The antiviral effects of C. papaya are achieved through its ability to enhance host immunity, mitigate inflammation, reduce oxidative stress, inhibit viral replication, and modulate immune responses. These mechanisms highlight its potential as a candidate for antiviral therapies, paving the way for further exploration of its pharmacological applications and promoting eco-friendly, accessible healthcare solutions for combating viral diseases. This review highlights the antiviral potential of C. papaya extracts in inhibiting viral replication and modulating immune responses, emphasizing the need for further studies and clinical trials to validate their efficacy against other medically significant viruses causing human diseases. [ABSTRACT FROM AUTHOR]

Published

2025

14. Infectious bursal disease virus affecting interferon regulatory factor 7 signaling through VP3 protein to facilitate viral replication.

Author

Wang, Zhiyuan, Chen, Yang, Chen, Yanyan, Chen, Rui, Wang, Weiwei, Hu, Shichen, Li, Yihai, Chen, Hongjun, Wei, Ping, and He, Xiumiao

Subjects

INFECTIOUS bursal disease virus, INTERFERON regulatory factors, VIRAL proteins, DOUBLE-stranded RNA, VIRAL replication, TYPE I interferons, CHICKEN diseases

Abstract

Interferon regulatory factor 7 (IRF7)-mediated type I interferon antiviral response is crucial for regulating the host following viral infection in chickens. Infectious bursal disease virus (IBDV) is a double-stranded RNA virus that induces immune suppression and high mortality rates in chickens aged 3-6 weeks. Previous studies have shown that IBDV infection antagonizes the type I interferon production to facilitate viral replication in the cell, and IRF7 signaling might play an important role. However, the underlying mechanisms that enable IBDV to block the IRF7 pathway remain unclear. In this study, we found that IRF7 and IFN-β expression were suppressed in DF-1 cells during infection with very virulent IBDV (vvIBDV), but not with attenuated IBDV, while the virus continued to replicate. Overexpression of IRF7 inhibits IBDV replication while knocking down IRF7 promotes IBDV replication. Overexpression of IRF7 couldn't compensate the IRF7 protein level in vvIBDV-infected cells, which suggested that IRF7 protein was degraded by IBDV infection. By using inhibitors, the degradation of IRF7 was found to be related to the proteasome pathway. Further study revealed that IRF7 was observed to interact and colocalize with the IBDV VP3 protein. Consistent with IBDV infection results, IBDV VP3 protein was observed to inhibit the IRF7-IFN-β expression, affect the degradation of IRF7 protein via proteasome pathway. All these results suggest that the IBDV exploits IRF7 by affecting its expression and proteasome degradation via the viral VP3 protein to facilitate viral replication in the cells. These findings revealed a novel mechanism that IBDV uses to evade host antiviral defense. [ABSTRACT FROM AUTHOR]

Published

2025

15. Boosting the human antiviral response in conjunction with natural plant products.

Author

Srivastava, Rashmi, Dubey, Neeraj Kumar, Sharma, Megha, Kharkwal, Harsha, Bajpai, Rajesh, and Srivastava, Rakesh

Subjects

PLANT products, NATURAL products, DISEASE resistance of plants, DRUG efficacy, VIRUS diseases

Abstract

The increasing prevalence of viral infections and the emergence of drug-resistant or mutant strains necessitate the exploration of novel antiviral strategies. Accumulating evidence suggests that natural plant products have significant potential to enhance the human antiviral response. Various plant natural products (PNPs) known for their antiviral properties have been evaluated for their ability to modulate immune responses and inhibit viral infections. Research has focused on understanding the mechanisms by which these PNPs interact with the human immune system and their potential to complement existing antiviral therapies. PNPs control compounds such as alkaloids, flavonoids, terpenoids, and polyphenols to promote antiviral cytokine synthesis, increase T-cell and macrophage activity, and activate antiviral genes. Studies have investigated the molecular interactions between PNPs, viruses, and host cells, exploring the potential of combining PNPs with conventional antiviral drugs to enhance efficacy. However, several challenges remain, including identifying, characterizing, and standardizing PNP extracts, optimizing dosages, improving bioavailability, assessing long-term safety, and navigating regulatory approval. The promising potential of PNPs is being explored to develop new, effective, and natural antiviral therapies. This review outlines a framework for an integrative approach to connect the full potential of PNPs in combating viral infections and improving human health. By combining natural plant products with conventional antiviral treatments, more effective and sustainable management of viral diseases can be achieved. [ABSTRACT FROM AUTHOR]

Published

2025

16. RNA interference of Aspergillus flavus in response to Aspergillus flavus partitivirus 1 infection.

Author

Jiang, Yinhui, Liu, Xiang, Tian, Xun, Zhou, Jianhong, Wang, Qinrong, Wang, Bi, Yu, Wenfeng, Jiang, Yanping, Hsiang, Tom, and Qi, Xiaolan

Subjects

RNA replicase, RNA interference, SMALL interfering RNA, REVERSE genetics, RNA sequencing

Abstract

RNA interference (RNAi) is one of the important defense responses against viral infection, but its mechanism and impact remain unclear in mycovirus infections. In our study, reverse genetics and virus-derived small RNA sequencing were used to show the antiviral responses of RNAi components in Aspergillus flavus infected with Aspergillus flavus partitivirus 1 (AfPV1). qRT-PCR revealed that AfPV1 infection induced the expression of the RNAi components in A. flavus compared with noninfected A. flavus. Knock mutants of each RNAi component were generated, but the mutants did not exhibit any obvious phenotypic changes compared with the A. flavus parental strain. However, after AfPV1 inoculation, production of AfPV1 was significantly less than in the parental strain. Furthermore, sporulation was greater in each AfPV1-infected mutant compared with the AfPV1-infected parental A. flavus. We also investigated the sensitivity of virus-free and AfPV1-infected RNAi mutants and the parental strain to cell wall stress, osmotic stress, genotoxic stress, and oxidative stress. The mutants of DCLs and AGOs infected by AfPV1 displayed more changes than RDRP mutants in response to the first three stresses. Small RNA sequencing analysis suggested that AfPV1 infection reduced the number of unique reads of sRNA in A. flavus , although there were many vsiRNA derived from the AfPV1 genome. GO term and KEGG pathway analyses revealed that the functions of sRNA affected by AfPV1 infection were closely related to vacuole production. These results provide a better understanding of the functional role of RNAi in the impact of AfPV1 on the hypovirulence of A. flavus. [ABSTRACT FROM AUTHOR]

Published

2025

17. TRIM8 inhibits porcine epidemic diarrhoea virus replication by targeting and ubiquitinately degrading the nucleocapsid protein.

Author

Bi, Zhenbin, Wang, Wei, Gu, Shanshen, Zhou, Yajing, Wu, Zhengchang, Bao, Wenbin, and Wang, Haifei

Abstract

Porcine epidemic diarrhoea virus (PEDV) is an enteric pathogen that causes acute diarrhoea, dehydration and high mortality rates in suckling pigs. Tripartite motif 8 (TRIM8) has been shown to play multiple roles in the host's defence against viral infections. However, the functions of TRIM8 in regulating PEDV infection are still not well understood. In our study, we found a significant upregulation of TRIM8 following PEDV infection. We created TRIM8 knockout and overexpression cell lines and discovered that TRIM8 can inhibit PEDV replication within host cells. Co-immunoprecipitation assays revealed that TRIM8 directly interacts with the nucleocapsid protein (N) of PEDV, specifically within the coiled-coil structural domain of TRIM8. Furthermore, TRIM8 was shown to reduce the expression of the PEDV N protein in a dose-dependent manner. Mechanistically, TRIM8 inhibits the expression of PEDV N through K48-linked ubiquitin proteasome degradation. Transcriptomics analysis revealed that TRIM8 facilitates the expression of genes associated with several pathways, including the IL-17 signalling pathway, chemokine signalling pathway, and cytokine-cytokine receptor interaction. This suggests that TRIM8 plays a crucial role in boosting antiviral immune responses against PEDV infection. Our findings provide new insights into the functions and mechanisms of TRIM8 in regulating PEDV infection and highlight its potential as a molecular target for the prevention and control of this virus. [ABSTRACT FROM AUTHOR]

Published

2025

18. RIOK1/2 Negatively Regulates the Antiviral Response by Targeting TBK1 in Yellow Catfish (Pelteobagrus fulvidraco).

Author

Liu, Kejun, Huang, Jiayang, Gui, Yuting, Li, Qian, Zhang, Lei, and Xiong, Shuting

Subjects

*FLATHEAD catfish, *PROTEIN kinases, *VIRAL genes, *DRUG development, *NATURAL immunity

Abstract

The yellow catfish (Pelteobagrus fulvidraco) industry has expanded to a certain scale and is an important part of aquaculture in China, but frequent diseases have caused huge economic losses. Comprehending the fish's immune mechanisms, particularly the regulation of the interferon (IFN) response, is of paramount importance for future drug development and disease-resistant molecular breeding. Notably, the role of atypical protein kinases, such as the RIO kinase family, in immune regulation is poorly defined. Here, we investigated the roles of yellow catfish RIO kinases, PfRIOK1 and PfRIOK2, in modulating the IFN response through their interaction with PfTBK1, a key player in the RLR signaling pathway. Mechanically, PfRIOK1 and PfRIOK2 negatively regulate the IFN response by interacting with the RIO domains to target and degrade PfTBK1. Our findings reveal that the overexpression of PfRIOK1 and PfRIOK2 led to the decreased expression of IFN-related genes and enhanced viral replication in vitro. Additionally, PfRIOK1 and PfRIOK2 could inhibit PfTBK1-mediated antiviral responses in infected cells. These results suggest that PfRIOK1 and PfRIOK2 act as negative regulators of the IFN response in yellow catfish, providing new insights into the regulatory mechanisms of fish innate immunity and offering target molecules for molecular design breeding in aquaculture. [ABSTRACT FROM AUTHOR]

Published

2025

19. HnRNPC triggers the degradation of MITA to suppress the interferon-mediated antiviral response

Author

Yanwei Zhang, Zhao Jia, Gaoliang Yuan, Kangyong Chen, Jing Cen, Junya Wang, Hao Feng, Mikolaj Adamek, and Jun Zou

Subjects

HnRNPC, interferon, antiviral response, MITA, ubiquitination, Veterinary medicine, SF600-1100

Abstract

Abstract Heterogeneous nuclear ribonucleoproteins (hnRNPs) are a group of 34–120 kDa nuclear proteins that have recently been reported to participate in virus replication. The hnRNP family contains approximately 20 members, including hnRNP A1, hnRNP A2, hnRNP A2B1, hnRNPC, hnRNPD and hnRNPK. HnRNPC plays important roles in RNA biology, including expression, stability, mRNA splicing, nonspecific sequence export and 3’-end processing; however, the mechanisms underlying hnRNPC regulatory roles are not fully understood. Here, we found that zebrafish hnRNPC promoted spring viraemia of carp virus (SVCV) replication by increasing the stability of SVCV phosphoprotein while inhibiting the K48-linked ubiquitination of virus phosphoprotein, thereby suppressing the type I interferon (IFN) response. Mechanistically, hnRNPC could interact with the mediator of IFN regulatory factor 3 activation (MITA) to activate K48-linked ubiquitination for MITA degradation through the C-terminal domain of hnRNPC. We also showed that human hnRNPC could interact with MITA and that the overexpression of human hnRNPC decreased MITA protein in HEK293 cells, suggesting that the negative regulatory effects of hnRNPC on the type I IFN response are evolutionarily conserved. Collectively, our data indicate that hnRNPC promotes virus replication by suppressing IFN production activated by MITA and increasing the availability of viral proteins. Our work reveals an evolutionarily conserved mechanism that controls the IFN-mediated antiviral response by a member of the hnRNP family in vertebrates.

Published

2025

20. TRIM8 inhibits porcine epidemic diarrhoea virus replication by targeting and ubiquitinately degrading the nucleocapsid protein

Author

Zhenbin Bi, Wei Wang, Shanshen Gu, Yajing Zhou, Zhengchang Wu, Wenbin Bao, and Haifei Wang

Subjects

PED, virus-host protein interaction, virus infection, ubiquitination, antiviral response, Veterinary medicine, SF600-1100

Abstract

Abstract Porcine epidemic diarrhoea virus (PEDV) is an enteric pathogen that causes acute diarrhoea, dehydration and high mortality rates in suckling pigs. Tripartite motif 8 (TRIM8) has been shown to play multiple roles in the host’s defence against viral infections. However, the functions of TRIM8 in regulating PEDV infection are still not well understood. In our study, we found a significant upregulation of TRIM8 following PEDV infection. We created TRIM8 knockout and overexpression cell lines and discovered that TRIM8 can inhibit PEDV replication within host cells. Co-immunoprecipitation assays revealed that TRIM8 directly interacts with the nucleocapsid protein (N) of PEDV, specifically within the coiled-coil structural domain of TRIM8. Furthermore, TRIM8 was shown to reduce the expression of the PEDV N protein in a dose-dependent manner. Mechanistically, TRIM8 inhibits the expression of PEDV N through K48-linked ubiquitin proteasome degradation. Transcriptomics analysis revealed that TRIM8 facilitates the expression of genes associated with several pathways, including the IL-17 signalling pathway, chemokine signalling pathway, and cytokine-cytokine receptor interaction. This suggests that TRIM8 plays a crucial role in boosting antiviral immune responses against PEDV infection. Our findings provide new insights into the functions and mechanisms of TRIM8 in regulating PEDV infection and highlight its potential as a molecular target for the prevention and control of this virus.

Published

2025

21. Murine colon cancer derived cells exhibit heterogeneous resistance profiles against an oncolytic virus

Author

Alejandra Larrieux and Rafael Sanjuán

Subjects

Oncolytic virus, Vesicular stomatitis virus, Cellular resistance, Antiviral response, Innate immunity, Medicine, Science

Abstract

Abstract Oncolytic virotherapy has shown efficacy in various animal models and a few human cancers. However, there are still significant limitations for the implementation of these therapies. One such limitation is the emergence of cellular resistances, which may appear rapidly considering the high genetic heterogeneity of most tumors. We previously showed that cellular resistance to an oncolytic virus can be mediated by the chronic activation of innate immunity. Here, we explored the existence of additional resistance mechanisms in murine colon cancer-derived cells. For this purpose, we isolated two cellular clones that were resistant to the oncolytic virus VSV-D51. While one of the clones showed a strong resistance profile associated with increased cytokine-mediated antiviral responses, the other clone showed a lower level of resistance that involves cytoskeletal reorganization, signaling by small GTPases, and cell structural changes. These results demonstrate the capacity of tumor cells to deploy heterogeneous mechanisms of resistance to oncolytic viruses.

Published

2024

22. Innate Immune Response Against Batai Virus, Bunyamwera Virus, and Their Reassortants.

Author

Zöller, David D. J. A., Säurich, Josefin, Metzger, Julia, Jung, Klaus, Lepenies, Bernd, and Becker, Stefanie C.

Subjects

*EMERGING infectious diseases, *DENDRITIC cells, *IMMUNE response, *RNA sequencing, *RNA viruses

Abstract

Orthobunyaviruses (OBVs) represent a diverse group of RNA viruses, encompassing a progressively increasing number of arboviruses that cause disease in both humans and livestock. Yet, studies investigating these viruses remain scarce despite the critical importance of such knowledge for assessing their zoonotic potential. In this study, we conducted an evaluation of the early immune response against the understudied Batai virus (BATV), as well as the influence of reassortment with the Bunyamwera virus (BUNV) on this response. Using RNA sequencing of infected murine bone marrow-derived dendritic cells, complemented by qPCR assays, we assessed the innate immune response at the transcriptome level. Additionally, we extended the qPCR analysis by including human THP-1-derived dendritic cells and ovine SFT-R cells to identify differences across species. Our results provide the first evidence that BATV elicits a strong innate immune response compared to BUNV, which largely evades early detection. Reassortants exhibited intermediate phenotypes, although unique changes in the early immune response were found as well. These findings provide a starting point for a better understanding of the immune response to BATV. Furthermore, they raise the question of whether reassortment induces changes in the innate immune response that might contribute to the differences in pathogenicity between reassortant OBVs and their parental generations. [ABSTRACT FROM AUTHOR]

Published

2024

23. An Evaluation of the Cellular and Humoral Response of a Multi-Epitope Vaccine Candidate Against COVID-19 with Different Alum Adjuvants.

Author

Vega Rojas, Lineth Juliana, Ruíz-Manzano, Rocío Alejandra, Velasco-Elizondo, Miguel Andrés, Carbajo-Mata, María Antonieta, Hernández-Silva, Diego Josimar, Rocha-Solache, Mariana, Hernández, Jesús, Pérez-Serrano, Rosa Martha, Zaldívar-Lelo de Larrea, Guadalupe, García-Gasca, Teresa, and Mosqueda, Juan

Subjects

CHIMERIC proteins, RECOMBINANT proteins, SARS-CoV-2, VIRUS diseases, HUMORAL immunity

Abstract

SARS-CoV-2 (Betacoronavirus pandemicum) is responsible for the disease identified by the World Health Organization (WHO) as COVID-19. We designed "CHIVAX 2.1", a multi-epitope vaccine, containing ten immunogenic peptides with conserved B-cell and T-cell epitopes in the receceptor binding domain (RBD) sequences of different SARS-CoV-2 variants of concern (VoCs). We evaluated the immune response of mice immunized with 20 or 60 µg of the chimeric protein with two different alum adjuvants (Alhydrogel® and Adju-Phos®), plus PHAD®, in a two-immunization regimen (0 and 21 days). Serum samples were collected on days 0, 21, 31, and 72 post first immunization, with antibody titers determined by indirect ELISA, while lymphoproliferation assays and cytokine production were evaluated by flow cytometry. The presence of neutralizing antibodies was assessed by surrogate neutralization assays. Higher titers of total IgG, IgG1, and IgG2a antibodies, as well as increased proliferation rates of specific CD4+ and CD8+ T cells, were observed in mice immunized with 60 μg of protein plus Adju-Phos®/PHAD®. This formulation also generated the highest levels of TNF-α and IFN-γ, in addition to the presence of neutralizing antibodies against Delta and Omicron VoC. These findings indicate the potential of this chimeric multi-epitope vaccine with combined adjuvants as a promising platform against viral infections, eliciting a TH1 or TH1:TH2 balanced cell response. [ABSTRACT FROM AUTHOR]

Published

2024

24. Human genital dendritic cell heterogeneity confers differential rapid response to HIV-1 exposure.

Author

Parthasarathy, Siddharth, Moreno de Lara, Laura, Carrillo-Salinas, Francisco J., Werner, Alexandra, Borchers, Anna, Iyer, Vidya, Vogell, Alison, Fortier, Jared M., Wira, Charles R., and Rodriguez-Garcia, Marta

Subjects

HIV infections, GENITALIA, DENDRITIC cells, CELL populations, RNA sequencing

Abstract

Dendritic cells (DCs) play critical roles in HIV pathogenesis and require further investigation in the female genital tract, a main portal of entry for HIV infection. Here we characterized genital DC populations at the single cell level and how DC subsets respond to HIV immediately following exposure. We found that the genital CD11c+HLA-DR+ myeloid population contains three DC subsets (CD1c+ DC2s, CD14+ monocyte-derived DCs and CD14+CD1c+ DC3s) and two monocyte/macrophage populations with distinct functional and phenotypic properties during homeostasis. Following HIV exposure, the antiviral response was dominated by DCs' rapid secretory response, activation of non-classical inflammatory pathways and host restriction factors. Further, we uncovered subset-specific differences in anti-HIV responses. CD14+ DCs were the main population activated by HIV and mediated the secretory antimicrobial response, while CD1c+ DC2s activated inflammasome pathways and IFN responses. Identification of subset-specific responses to HIV immediately after exposure could aid targeted strategies to prevent HIV infection. [ABSTRACT FROM AUTHOR]

Published

2024

25. Sustained antiviral response against in vitro HIV-1 infection in peripheral blood mononuclear cells from people with chronic myeloid leukemia treated with ponatinib.

Author

Manzanares, Mario, Ramos-Martín, Fernando, Rodríguez-Mora, Sara, Casado-Fernández, Guiomar, Sánchez-Menéndez, Clara, Simón-Rueda, Alicia, Mateos, Elena, Cervero, Miguel, Spivak, Adam M., Planelles, Vicente, Torres, Montserrat, García-Gutiérrez, Valentín, and Coiras, Mayte

Subjects

MONONUCLEAR leukocytes, CHRONIC myeloid leukemia, PROTEIN-tyrosine kinase inhibitors, CYTOTOXINS, CANCER cells

Abstract

HIV-1 infection cannot be cured due to long-lived viral reservoirs formed by latently infected CD4+ T cells. "Shock and Kill" strategy has been considered to eliminate the viral reservoir and achieve a functional cure but the stimulation of cytotoxic immunity is necessary. Ponatinib is a tyrosine kinase inhibitor (TKI) clinically used against chronic myeloid leukemia (CML) that has demonstrated to be effective against HIV-1 infection in vitro. Several TKIs may induce a potent cytotoxic response against cancer cells that makes possible to discontinue treatment in people with CML who present long-term deep molecular response. In this longitudinal study, we analyzed the capacity of ponatinib to induce an antiviral response against HIV-1 infection in peripheral blood mononuclear cells (PBMCs) obtained from people with CML previously treated with imatinib for a median of 10 years who changed to ponatinib for 12 months to boost the anticancer response before discontinuing any TKI as part of the clinical trial NCT04043676. Participants were followed-up for an additional 12 months in the absence of treatment. PBMCs were obtained at different time points and then infected in vitro with HIV-1. The rate of infection was determined by quantifying the intracellular levels of p24-gag in CD4+ T cells. The levels of p24-gag+ CD4+ T−cells were lower when these cells were obtained during and after treatment with ponatinib in comparison with those obtained during treatment with imatinib. Cytotoxicity of PBMCs against HIV-infected target cells was significantly higher during treatment with ponatinib than during treatment with imatinib, and it was maintained at least 12 months after discontinuation. There was a significant negative correlation between the lower levels of p24-gag+ CD4+ T−cells and the higher cytotoxicity induced by PBMCs when cells were obtained during and after treatment with ponatinib. This cytotoxic immunity was mostly based on higher levels of Natural Killer and Tγδ cells seemingly boosted by ponatinib. In conclusion, transient treatment with immunomodulators like ponatinib along with ART could be explored to boost the antiviral activity of cytotoxic cells and contribute to the elimination of HIV-1 reservoir. [ABSTRACT FROM AUTHOR]

Published

2024

26. Mechanistic Role of TRIM26 in Viral Infection and Host Defense.

Author

Sharma, Mona, Liu, Ke, Wei, Jianchao, Ma, Zhiyong, and Qiu, Yafeng

Subjects

*TRIM proteins, *VIRUS diseases, *VIRAL proteins, *UBIQUITIN ligases, *IMMUNE response, *PROTEINS

Abstract

Tripartite motif protein 26 (TRIM26) is an E3 ubiquitin ligase and a member of the TRIM family. Similar to other TRIM proteins, TRIM26 consists of three domains, collectively termed RBCC: a Really Interesting New Gene (RING) domain, one B-Box domain, and a C terminal domain consisting of a PRY/SPRY domain. The PRY/SPRY domain exhibits relatively higher conservation compared with the RING and B-Box domains, suggesting potentially similar roles across TRIM26 proteins from various species. TRIM26 either directly interacts with viral proteins or modulates immune responses to engage with a viral infection, serving as either a protective or detrimental host factor depending on the circumvent of the viral infection. The present review focuses on understanding the mechanisms of TRIM26 during viral infection and its potential future applications. [ABSTRACT FROM AUTHOR]

Published

2024

27. Cytokine production in an ex vivo model of SARS-CoV-2 lung infection.

Author

Vorobyeva, Daria A., Potashnikova, Daria M., Maryukhnich, Elena V., Rusakovich, George I., Tvorogova, Anna V., Kalinskaya, Anna I., Pinegina, Natalia V., Kovyrshina, Anna V., Dolzhikova, Inna V., Postnikov, Alexander B., Rozov, Fedor N., Sotnikova, Tatiana N., Kanner, Dmitry Yu., Logunov, Denis Yu., Gintsburg, Alexander L., Vasilieva, Elena J., and Margolis, Leonid B.

Subjects

COVID-19, TISSUE culture, VIRUS diseases, LUNG infections, VIRAL load

Abstract

Introduction: The mechanisms of the SARS-CoV-2-triggered complex alterations in immune cell activation and production of cytokines in lung tissue remain poorly understood, in part because of the limited use of adequate tissue models that simulate the structure and cell composition of the lung in vivo. We developed a novel ex vivo model of SARS-CoV-2 infection of lung explants, that maintains the intact tissue composition and the viral load for up to 7-10 days. Using this model, we studied cytokine production during SARS-CoV-2 infection. Materials and methods: Lung tissue was monitored for viability and cell composition using flow cytometry and histological analysis. SARS-CoV-2 infection was verified immunohistochemically, viral loads in tissue and culture medium were monitored by qPCR. A panel of 41 cytokines was measured in culture medium using xMAP technology. Results: The explant lung tissue was viable and maintained viral infection that influenced the cytokine production. Elevated concentrations of G-CSF, GM-CSF, GRO-a, IFN-g, IL-6, IL-8, IP-10, MCP-3, MIP-1a, PDGF-AA, and VEGF, and decreased IL-1RA concentration were observed in infected tissue compared to non-infected tissue. Discussion: Our results generally reflect the data obtained in COVID-19 patients. GRO-a, IFN-g, IL-6, IL-8, MCP-1, MCP-3, and RANTES correlated with the viral load, forming a distinct pro-inflammatory cluster. Thus, our lung ex vivo model faithfully reproduces some aspects of cytokine alterations in COVID-19 patients at an early disease stage, making the investigation of SARS-CoV-2 infection mechanisms more accessible and providing a potential platform for antiviral drug testing. [ABSTRACT FROM AUTHOR]

Published

2024

28. Development of an intestinal epithelial cell line and organoids derived from the same swine and characterization of their antiviral responses.

Author

Kaho MATSUMOTO, Fu NAMAI, Ayako MIYAZAKI, Yoshiya IMAMURA, Kohtaro FUKUYAMA, Wakako IKEDA-OHTSUBO, Keita NISHIYAMA, Julio VILLENA, Kohtaro MIYAZAWA, and Haruki KITAZAWA

Subjects

TIGHT junctions, SMALL intestine, TOLL-like receptors, CELL lines, EPITHELIAL cells, TYPE I interferons

Abstract

Intestinal homeostasis and integrity are important factors for maintaining host health. This study established intestinal epithelial cell lines and organoids from the same swine jejunal crypts to develop seamless swine intestinal in vitro evaluation systems. The study evaluated the proliferative capacity and tight junction formation of the epithelial cell line and characterized the cell differentiation potential of the intestinal organoids. The evaluation systems were subsequently exposed to the Toll-like receptor 3 (TLR3) agonist poly(I:C) to simulate viral infections and assess the antiviral responses. The results demonstrated no differences in the response to type I interferons. There were, however, significant differences in the expression of interferon-stimulated genes. This study collectively introduced a flexible evaluation system using cell lines and organoids and revealed notable differences in the expression of interferon-stimulated genes, highlighting the complexity of the immune responses in these in vitro systems and the importance of intestinal heterogeneity in assessing viral responses. [ABSTRACT FROM AUTHOR]

Published

2024

29. Antiviral Functions of Type I and Type III Interferons in the Olfactory Epithelium.

Author

Zedan, Ahmad, Winters, Ashley, Yu, Wei, Wang, Shuangyan, Ren, Ying, Takeshita, Ashley, and Gong, Qizhi

Subjects

antiviral response, innate immunity, olfaction, Animals, Mice, Interferon Lambda, Mice, Inbred C57BL, Interferons, Olfactory Mucosa, Virus Diseases, Virus Replication, Antiviral Agents

Abstract

The olfactory neuroepithelium (OE) is one of the few neuronal tissues where environmental pathogens can gain direct access. Despite this vulnerable arrangement, little is known about the protective mechanisms in the OE to prevent viral infection and its antiviral responses. We systematically investigated acute responses in the olfactory mucosa upon exposure to vesicular stomatitis virus (VSV) via RNA-seq. VSVs were nasally inoculated into C57BL/6 mice. Olfactory mucosae were dissected for gene expression analysis at different time points after viral inoculation. Interferon functions were determined by comparing the viral load in interferon receptor knockout (Ifnar1-/- and Ifnlr1-/-) with wildtype OE. Antiviral responses were observed as early as 24 h after viral exposure in the olfactory mucosa. The rapidly upregulated transcripts observed included specific type I as well as type III interferons (Ifn) and interferon-stimulated genes. Genetic analyses demonstrated that both type I and type III IFN signaling are required for the suppression of viral replication in the olfactory mucosa. Exogenous IFN application effectively blocks viral replication in the OE. These findings reveal that the OE possesses an innate ability to suppress viral infection. Type I and type III IFNs have prominent roles in OE antiviral functions.

Published

2023

30. Boosting the human antiviral response in conjunction with natural plant products

Author

Rashmi Srivastava, Neeraj Kumar Dubey, Megha Sharma, Harsha Kharkwal, Rajesh Bajpai, and Rakesh Srivastava

Subjects

secondary metabolite, human pathogen, virus, antiviral response, immunity, plants, Chemistry, QD1-999, Botany, QK1-989

Abstract

The increasing prevalence of viral infections and the emergence of drug-resistant or mutant strains necessitate the exploration of novel antiviral strategies. Accumulating evidence suggests that natural plant products have significant potential to enhance the human antiviral response. Various plant natural products (PNPs) known for their antiviral properties have been evaluated for their ability to modulate immune responses and inhibit viral infections. Research has focused on understanding the mechanisms by which these PNPs interact with the human immune system and their potential to complement existing antiviral therapies. PNPs control compounds such as alkaloids, flavonoids, terpenoids, and polyphenols to promote antiviral cytokine synthesis, increase T-cell and macrophage activity, and activate antiviral genes. Studies have investigated the molecular interactions between PNPs, viruses, and host cells, exploring the potential of combining PNPs with conventional antiviral drugs to enhance efficacy. However, several challenges remain, including identifying, characterizing, and standardizing PNP extracts, optimizing dosages, improving bioavailability, assessing long-term safety, and navigating regulatory approval. The promising potential of PNPs is being explored to develop new, effective, and natural antiviral therapies. This review outlines a framework for an integrative approach to connect the full potential of PNPs in combating viral infections and improving human health. By combining natural plant products with conventional antiviral treatments, more effective and sustainable management of viral diseases can be achieved.

Published

2025

31. Corrigendum: RNA interference of Aspergillus flavus in response to Aspergillus flavus partitivirus 1 infection

Author

Yinhui Jiang, Xiang Liu, Xun Tian, Jianhong Zhou, Qinrong Wang, Bi Wang, Wenfeng Yu, Yanping Jiang, Tom Hsiang, and Xiaolan Qi

Subjects

Aspergillus flavus, mycoviruses, RNA-dependent RNA polymerase, dicer, argonaute, antiviral response, Microbiology, QR1-502

Published

2025

32. Infectious bursal disease virus affecting interferon regulatory factor 7 signaling through VP3 protein to facilitate viral replication

Author

Zhiyuan Wang, Yang Chen, Yanyan Chen, Rui Chen, Weiwei Wang, Shichen Hu, Yihai Li, Hongjun Chen, Ping Wei, and Xiumiao He

Subjects

infectious bursal disease virus (IBDV), interferon regulatory factor 7 (IRF7), antiviral response, IBDV VP3 protein, viral replication, Microbiology, QR1-502

Abstract

Interferon regulatory factor 7 (IRF7)-mediated type I interferon antiviral response is crucial for regulating the host following viral infection in chickens. Infectious bursal disease virus (IBDV) is a double-stranded RNA virus that induces immune suppression and high mortality rates in chickens aged 3-6 weeks. Previous studies have shown that IBDV infection antagonizes the type I interferon production to facilitate viral replication in the cell, and IRF7 signaling might play an important role. However, the underlying mechanisms that enable IBDV to block the IRF7 pathway remain unclear. In this study, we found that IRF7 and IFN-β expression were suppressed in DF-1 cells during infection with very virulent IBDV (vvIBDV), but not with attenuated IBDV, while the virus continued to replicate. Overexpression of IRF7 inhibits IBDV replication while knocking down IRF7 promotes IBDV replication. Overexpression of IRF7 couldn’t compensate the IRF7 protein level in vvIBDV-infected cells, which suggested that IRF7 protein was degraded by IBDV infection. By using inhibitors, the degradation of IRF7 was found to be related to the proteasome pathway. Further study revealed that IRF7 was observed to interact and colocalize with the IBDV VP3 protein. Consistent with IBDV infection results, IBDV VP3 protein was observed to inhibit the IRF7-IFN-β expression, affect the degradation of IRF7 protein via proteasome pathway. All these results suggest that the IBDV exploits IRF7 by affecting its expression and proteasome degradation via the viral VP3 protein to facilitate viral replication in the cells. These findings revealed a novel mechanism that IBDV uses to evade host antiviral defense.

Published

2025

33. Disease severity and antiviral response in patients with chronic hepatitis B with non-obese NAFLD

Author

Danqing Hu, Peng Wang, Xiaojing Wang, Xue Hu, Da Huang, Weiming Yan, Dong Xi, Meifang Han, Qin Ning, and Hongwu Wang

Subjects

Chronic hepatitis B, Non-obese, Non-alcoholic fatty liver disease, Fibrosis progression, Antiviral response, Medicine (General), R5-920

Abstract

Background: The burden of nonalcoholic fatty liver disease (NAFLD) is growing in patients with chronic hepatitis B (CHB). NAFLD is typically associated with obesity, however, it is increasingly being identified in non-obese patients. This study aimed to investigate disease severity and antiviral response in non-obese patients with CHB with NAFLD (CHB + NAFLD). Methods: A total of 809 patients with CHB + NAFLD were prospectively recruited and followed up for 3 years. NAFLD was diagnosed by transient elastography and defined as controlled attenuation parameter ≥248 dB/m, in the absence of excessive alcohol intake. Obesity status was defined by the Asian body mass index (BMI) cutoff of 25 kg/m2. Metabolic abnormality was defined by the presence of dyslipidemia, hypertension or diabetes. Fibrosis staging was defined according to the EASL-ALEH guidelines, with fibrosis progression defined as ≥1-stage increment. Results: In the total cohort (median age 40 years, 59.0% antiviral-treated), 33.3% were non-obese. Non-obese patients were less metabolically abnormal than obese patients (60.2% vs 72.0%, P = 0.003). After 3-year follow up, the rate of fibrosis progression was comparable between non-obese and obese patients (17.5% vs 21.9% in the total cohort, P = 0.145; 15.7% vs 14.6% in antiviral-treated cohort with persistent viral suppression, P = 0.795). No significant differences in virological and biochemical responses were observed between non-obese and obese patients (P >0.05 for all). Conclusion: Approximately one third of CHB + NAFLD patients were non-obese. Non-obese patients, while less metabolically abnormal, had a similar risk for fibrosis progression as obese patients. Obesity status did not impact the efficiency of antiviral therapy.

Published

2024

34. Long non-coding RNAs — regulators of rubella virus infection and antiviral response

Author

M. K. Gulimov, N. O. Kalyuzhnaya, Yulia I. Ammour, V. V. Zverev, and O. A. Svitich

Subjects

long non-coding rnas, rubella virus, с-77 laboratory strain, antiviral response, rna-sequencing, differential gene expression analysis, Infectious and parasitic diseases, RC109-216

Abstract

Introduction. Rubella virus is an RNA-containing virus capable of infecting human cells and causing infectious disease. Infection of pregnant women with rubella virus can lead to abortion or congenital rubella syndrome (CRS), a set of long-term birth defects including incomplete fetal organ development and mental retardation. There is no specific treatment for rubella and CRS. The regulation of antiviral immune response and viral reproduction by long non-coding RNAs is currently under active investigation. In this study, we evaluated the changes in the expression profile of long non-coding RNAs in rubella virus-infected A549 epithelial by RNA sequencing. Materials and Methods. A549 cells were infected with a wild-type variant of laboratory strain C-77 of rubella virus with a multiplicity of infection of 1.0 infectious units per cell and incubated for 72 hours. Virus titres were determined by the CCID method in the sensitive RK-13 cell culture. 48 h after infection, the cell monolayer was lysed, RNA was isolated, and libraries were prepared for sequencing. Sequencing was performed on the NextSeq500 platform (Illumina, USA) in paired-end reading mode. Validation of the obtained RNA sequencing data was performed using quantitative real-time PCR. Results. Rubella virus replication affects the production of some long non-coding RNAs by altering their expression profile. Thus, upon infection of A549 epithelial cells with rubella virus, there was a significant increase in the expression of such long non-coding RNAs as GAS5, NEAT1, LUCAT1, MIR210HG, MEG3, EPB41L4A-AS1, ZFAS1, and SNHG 1, 7, 12, 29, 32. DANCR, IGFL2-AS1, IGFL2-AS1, MIR1915HG, and SNHG14 were most significantly decreased in expression. Gene ontology (GO)-analysis revealed that long non-coding RNAs are involved at different levels in the mechanisms of immune response, in particular, RNA processing and nucleic acid metabolism; therefore, up- and down-regulation of these molecules leads to modulation of human antiviral immune response in response to rubella virus infection. Conclusion. Thus, the regulation of long non-coding RNA production by rubella virus has been shown for the first time. Differentially expressed long non-coding RNAs can be used as prognostic and diagnostic biomarkers of viral diseases.

Published

2024

35. Differential susceptibility of human motor neurons to infection with Usutu and West Nile virus.

Author

Marshall, Eleanor M., Bauer, Lisa, Nelemans, Tessa, Sooksawasdi Na Ayudhya, Syriam, Benavides, Feline, Lanko, Kristina, de Vrij, Femke M. S., Kushner, Steven A., Koopmans, Marion, van Riel, Debby, and Rockx, Barry

Subjects

*WEST Nile fever, *INDUCED pluripotent stem cells, *WEST Nile virus, *MOTOR neurons, *ACUTE flaccid paralysis

Abstract

West Nile virus (WNV) and Usutu virus (USUV) are closely related flaviviruses with differing capacities to cause neurological disease in humans. WNV is thought to use a transneural route of neuroinvasion along motor neurons and causes severe motor deficits. The potential for use of transneural routes of neuroinvasion by USUV has not been investigated experimentally, and evidence from the few clinical case reports of USUV-associated neuroinvasive disease is lacking. We hypothesised that, compared with WNV, USUV is less able to infect motor neurons, and therefore determined the susceptibility of human induced pluripotent stem cell (iPSC)-derived spinal cord motor neurons to infection. Both viruses could grow to high titres in iPSC-derived neural cultures. However, USUV could not productively infect motor neurons due to restriction by the antiviral response, which was not induced upon WNV infection. Inhibition of the antiviral response allowed for widespread infection and transportation of USUV along motor neurons within a compartmented culture system. These results show a stark difference in the ability of these two viruses to evade initiation of intrinsic antiviral immunity. Our data suggests that USUV cannot infect motor neurons in healthy individuals but in case of immunodeficiency may pose a risk for motor-related neurological disease and transneural invasion. Brief summary: West Nile virus, but not Usutu virus, can productively infect human motor neurons as a possible route of neuroinvasion. [ABSTRACT FROM AUTHOR]

Published

2024

36. Zebrafish phd1 enhances mavs-mediated antiviral responses in a hydroxylation-independent manner.

Author

Guangqing Yu, Le Yuan, Xiong Li, Mingzhong Zuo, Rui Wang, Mengjuan Chen, Yuqing Liu, Xing Liu, and Wuhan Xiao

Subjects

*TRANSMEMBRANE domains, *HYPOXIA-inducible factors, *POST-translational modification, *NATURAL immunity, *VIRUS diseases, *HYPOXIA-inducible factor 1

Abstract

PHD1 is a member of the prolyl hydroxylase domain protein (PHD1–4) family, which plays a prominent role in the post-translational modification of its target proteins by hydroxylating proline residues. The best-characterized targets of PHD1 are hypoxia-inducible factor α (HIF-1α and HIF-2α), two master regulators of the hypoxia signaling pathway. In this study, we show that zebrafish phd1 positively regulates mavs-mediated antiviral innate immunity. Overexpression of phd1 enhances the cellular antiviral response. Consistently, zebrafish lacking phd1 are more susceptible to spring viremia of carp virus infection. Further assays indicate that phd1 interacts with mavs through the C-terminal transmembrane domain of mavs and promotes mavs aggregation. In addition, zebrafish phd1 attenuates K48-linked polyubiquitination of mavs, leading to stabilization of mavs. However, the enzymatic activity of phd1 is not required for phd1 to activate mavs. In conclusion, this study reveals a novel function of phd1 in the regulation of antiviral innate immunity. IMPORTANCE PHD1 is a key regulator of the hypoxia signaling pathway, but its role in antiviral innate immunity is largely unknown. In this study, we found that zebrafish phd1 enhances cellular antiviral responses in a hydroxylation-independent manner. Phd1 interacts with mavs through the C-terminal transmembrane domain of mavs and promotes mavs aggregation. In addition, phd1 attenuates K48-linked polyubiquitination of mavs, leading to stabilization of mavs. Zebrafish lacking phd1 are more susceptible to spring viremia of carp virus infection. These findings reveal a novel role for phd1 in the regulation of mavs-mediated antiviral innate immunity. [ABSTRACT FROM AUTHOR]

Published

2024

37. Metabolic Dependency Shapes Bivalent Antiviral Response in Host Cells in Response to Poly:IC: The Role of Glutamine.

Author

Lebeau, Grégorie, Paulo-Ramos, Aurélie, Hoareau, Mathilde, El Safadi, Daed, Meilhac, Olivier, Krejbich-Trotot, Pascale, Roche, Marjolaine, and Viranaicken, Wildriss

Subjects

*METABOLIC reprogramming, *ZIKA virus, *OXIDATIVE phosphorylation, *CELL culture, *GLYCOLYSIS

Abstract

The establishment of effective antiviral responses within host cells is intricately related to their metabolic status, shedding light on immunometabolism. In this study, we investigated the hypothesis that cellular reliance on glutamine metabolism contributes to the development of a potent antiviral response. We evaluated the antiviral response in the presence or absence of L-glutamine in the culture medium, revealing a bivalent response hinging on cellular metabolism. While certain interferon-stimulated genes (ISGs) exhibited higher expression in an oxidative phosphorylation (OXPHOS)-dependent manner, others were surprisingly upregulated in a glycolytic-dependent manner. This metabolic dichotomy was influenced in part by variations in interferon-β (IFN-β) expression. We initially demonstrated that the presence of L-glutamine induced an enhancement of OXPHOS in A549 cells. Furthermore, in cells either stimulated by poly:IC or infected with dengue virus and Zika virus, a marked increase in ISGs expression was observed in a dose-dependent manner with L-glutamine supplementation. Interestingly, our findings unveiled a metabolic dependency in the expression of specific ISGs. In particular, genes such as ISG54, ISG12 and ISG15 exhibited heightened expression in cells cultured with L-glutamine, corresponding to higher OXPHOS rates and IFN-β signaling. Conversely, the expression of viperin and 2′-5′-oligoadenylate synthetase 1 was inversely related to L-glutamine concentration, suggesting a glycolysis-dependent regulation, confirmed by inhibition experiments. This study highlights the intricate interplay between cellular metabolism, especially glutaminergic and glycolytic, and the establishment of the canonical antiviral response characterized by the expression of antiviral effectors, potentially paving the way for novel strategies to modulate antiviral responses through metabolic interventions. [ABSTRACT FROM AUTHOR]

Published

2024

38. The Dual Role of TRIM7 in Viral Infections.

Author

Gonzalez-Orozco, Maria, Rodriguez-Salazar, Carlos A., and Giraldo, Maria I.

Subjects

*TRIM proteins, *VIRAL proteins, *VIRUS diseases, *PROTEOLYSIS, *VIRAL replication

Abstract

The E3 ubiquitin ligase TRIM7 is known to have dual roles during viral infections. Like other TRIM proteins, TRIM7 can regulate the IFN pathway via the regulation of the cytosolic receptors RIG-I or MDA-5, which promote the production of type I interferons (IFN-I) and antiviral immune responses. Alternatively, under certain infectious conditions, TRIM7 can negatively regulate IFN-I signaling, resulting in increased virus replication. A growing body of evidence has also shown that TRIM7 can, in some cases, ubiquitinate viral proteins to promote viral replication and pathogenesis, while in other cases it can promote degradation of viral proteins through the proteasome, reducing virus infection. TRIM7 can also regulate the host inflammatory response and modulate the production of inflammatory cytokines, which can lead to detrimental inflammation. TRIM7 can also protect the host during infection by reducing cellular apoptosis. Here, we discuss the multiple functions of TRIM7 during viral infections and its potential as a therapeutic target. [ABSTRACT FROM AUTHOR]

Published

2024

39. Fish HERC7: Phylogeny, Characterization, and Potential Implications for Antiviral Immunity in European Sea Bass.

Author

Valero, Yulema, Chaves-Pozo, Elena, and Cuesta, Alberto

Subjects

*EUROPEAN seabass, *CYTOLOGY, *MITOGENS, *PHYLOGENY, *PROTEOLYSIS, *UBIQUITIN ligases, *BINDING sites

Abstract

E3 ubiquitin ligases, key components of the ubiquitin proteasome system, orchestrate protein degradation through ubiquitylation and profoundly impact cellular biology. Small HERC E3 ligases (HERC3-6) have diverse functions in mammals, including roles in spermatogenesis, protein degradation, and immunity. Until now, only mammals' HERC3, HERC5, and HERC6 are known to participate in immune responses, with major involvement in the antiviral response. Interestingly, an exclusive HERC7 has been characterized in fish showing great molecular conservation and antiviral roles. Thus, this study identifies and characterizes the herc7 gene in the European sea bass teleost. The European sea bass herc7 gene and the putative protein show good conservation of the promoter binding sites for interferons and the RCC1 and HECT domains characteristic of HERC proteins, respectively. The phylogenetic analysis shows a unique cluster with the fish-exclusive HERC7 orthologues. During ontogeny, the herc7 gene is expressed from 3 days post-fertilization onwards, being constitutively and widely distributed in adult tissues. In vitro, stimulated leucocytes up-regulate the herc7 gene in response to mitogens and viruses, pointing to a role in the immune response. Furthermore, sea bass herc7 expression is related to the interferon response intensity and viral load in different tissues upon in vivo infection with red-grouper betanodavirus (RGNNV), suggesting the potential involvement of fish HERC7 in ISGylation-based antiviral activity, similarly to mammalian HERC5. This study broadens the understanding of small HERC proteins in fish species and highlights HERC7 as a potential contributor to the immune response in European sea bass, with implications for antiviral defense mechanisms. Future research is needed to unravel the precise actions and functions of HERC7 in teleost fish immunity, providing insights into direct antiviral activity and viral evasion. [ABSTRACT FROM AUTHOR]

Published

2024

40. Translation Inhibition Mediated by Interferon-Stimulated Genes during Viral Infections.

Author

Smart, Alexandria, Gilmer, Orian, and Caliskan, Neva

Subjects

*VIRAL proteins, *VIRUS diseases, *VIRAL genes, *VIRAL replication, *RNA

Abstract

Viruses often pose a significant threat to the host through the exploitation of cellular machineries for their own benefit. In the context of immune responses, myriad host factors are deployed to target viral RNAs and inhibit viral protein translation, ultimately hampering viral replication. Understanding how "non-self" RNAs interact with the host translation machinery and trigger immune responses would help in the development of treatment strategies for viral infections. In this review, we explore how interferon-stimulated gene products interact with viral RNA and the translation machinery in order to induce either global or targeted translation inhibition. [ABSTRACT FROM AUTHOR]

Published

2024

41. SOCS3 acts as a potential negative regulator in the antiviral response of large yellow croaker (Larimichthys crocea) by interacting with STAT.

Author

You Chen, Huazhi Chen, Shuaiwei Ren, Yangfan Xiao, Shuaichao Tao, Jiamei Liu, Xiaoqin Yuan, Xinhua Chen, and Yinnan Mua

Subjects

*LARIMICHTHYS, *SUPPRESSORS of cytokine signaling, *GENE expression, *INTERFERON receptors, *TYPE I interferons, *GENETIC transcription, *STAT proteins

Abstract

Suppressors of cytokine signaling (SOCS) proteins are important regulators of the Janus kinase-signal transducer and activator of transcription (JAK-STAT) pathway. Within the SOCS family, SOCS3 is one of the most potent inhibitors of cytokine signaling. However, there is limited knowledge regarding the function of SOCS3 on regulating type I interferon (IFN) signaling in fish. In this study, the complete open reading frame (ORF) of SOCS3 from the large yellow croaker (Larimichthys crocea, LcSOCS3) was cloned and characterized. The ORF of LcSOCS3 was 618 nucleotides in length and encoded a protein containing 205 amino acids. LcSOCS3 had the typical domain architecture of the SOCS family, including an SRC homology 2 (SH2) domain, a SOCS box, an additional kinase inhibition region (KIR), and an extended SH2 subdomain (ESS). Phylogenetic analysis revealed that LcSOCS3 was clustered with other fish SOCS3s and most closely related to the SOCS3 of Collichthy lucidus. LcSOCS3 mRNA was detected in all organs or tissues examined, and its expression was significantly increased in both head kidney and spleen tissues, and primary head kidney leukocytes after poly(I:C) stimulation. Overexpression of LcSOCS3 significantly promoted Spring viremia of carp virus (SVCV) replication, resulting in a more severe cytopathic effect, increased viral titer, enhanced copy number of the SVCV-G gene, and decreased expression levels of IFN1, IRF7, ISG15, Viperin, PKR, and Mx in epithelioma papulosum cyprinid (EPC) cells. Silencing of LcSOCS3 correspondingly up-regulated the expression of IFNi, IFNh, PKR, Viperin, and Mx in large yellow croaker head kidney (LYCK) cells. Additionally, LcSOCS3 was shown to interact with Signal Transducer and Activator of Transcription 1 (STAT1) which may inhibit STAT1 translocating into the nucleus. This speculation was supported by the increased phosphorylation level of STAT1 in head kidney leukocytes after LcSOCS3 silencing. These results indicated that LcSOCS3 functioned as a potential negative regulator of type I IFN signaling in large yellow croaker through its interaction with STAT1. [ABSTRACT FROM AUTHOR]

Published

2024

42. Disease severity and antiviral response in patients with chronic hepatitis B with non-obese NAFLD.

Author

Hu, Danqing, Wang, Peng, Wang, Xiaojing, Hu, Xue, Huang, Da, Yan, Weiming, Xi, Dong, Han, Meifang, Ning, Qin, and Wang, Hongwu

Subjects

CHRONIC hepatitis B, NON-alcoholic fatty liver disease, BODY mass index

Abstract

The burden of nonalcoholic fatty liver disease (NAFLD) is growing in patients with chronic hepatitis B (CHB). NAFLD is typically associated with obesity, however, it is increasingly being identified in non-obese patients. This study aimed to investigate disease severity and antiviral response in non-obese patients with CHB with NAFLD (CHB + NAFLD). A total of 809 patients with CHB + NAFLD were prospectively recruited and followed up for 3 years. NAFLD was diagnosed by transient elastography and defined as controlled attenuation parameter ≥248 dB/m, in the absence of excessive alcohol intake. Obesity status was defined by the Asian body mass index (BMI) cutoff of 25 kg/m2. Metabolic abnormality was defined by the presence of dyslipidemia, hypertension or diabetes. Fibrosis staging was defined according to the EASL-ALEH guidelines, with fibrosis progression defined as ≥1-stage increment. In the total cohort (median age 40 years, 59.0% antiviral-treated), 33.3% were non-obese. Non-obese patients were less metabolically abnormal than obese patients (60.2% vs 72.0%, P = 0.003). After 3-year follow up, the rate of fibrosis progression was comparable between non-obese and obese patients (17.5% vs 21.9% in the total cohort, P = 0.145; 15.7% vs 14.6% in antiviral-treated cohort with persistent viral suppression, P = 0.795). No significant differences in virological and biochemical responses were observed between non-obese and obese patients (P >0.05 for all). Approximately one third of CHB + NAFLD patients were non-obese. Non-obese patients, while less metabolically abnormal, had a similar risk for fibrosis progression as obese patients. Obesity status did not impact the efficiency of antiviral therapy. [ABSTRACT FROM AUTHOR]

Published

2024

43. The Role of Natural Killer Cells in Oncolytic Virotherapy: Friends or Foes?

Author

Franks, Michael L., An, Ju-Hyun, and Leavenworth, Jianmei W.

Subjects

ONCOLYTIC virotherapy, KILLER cells, TREATMENT effectiveness, CELL anatomy, IMMUNE response

Abstract

Oncolytic virotherapy (OVT) has emerged as a promising cancer immunotherapy, and is capable of potentiating other immunotherapies due to its capacity to increase tumor immunogenicity and to boost host antitumor immunity. Natural killer (NK) cells are a critical cellular component for mediating the antitumor response, but hold a mixed reputation for their role in mediating the therapeutic efficacy of OVT. This review will discuss the pros and cons of how NK cells impact OVT, and how to harness this knowledge for the development of effective strategies that could modulate NK cells to improve OVT-based therapeutic outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

44. Human genital dendritic cell heterogeneity confers differential rapid response to HIV-1 exposure

Author

Siddharth Parthasarathy, Laura Moreno de Lara, Francisco J. Carrillo-Salinas, Alexandra Werner, Anna Borchers, Vidya Iyer, Alison Vogell, Jared M. Fortier, Charles R. Wira, and Marta Rodriguez-Garcia

Subjects

dendritic cell, HIV, female genital tract, single-cell RNA sequencing, mucosal immunity, antiviral response, Immunologic diseases. Allergy, RC581-607

Abstract

Dendritic cells (DCs) play critical roles in HIV pathogenesis and require further investigation in the female genital tract, a main portal of entry for HIV infection. Here we characterized genital DC populations at the single cell level and how DC subsets respond to HIV immediately following exposure. We found that the genital CD11c+HLA-DR+ myeloid population contains three DC subsets (CD1c+ DC2s, CD14+ monocyte-derived DCs and CD14+CD1c+ DC3s) and two monocyte/macrophage populations with distinct functional and phenotypic properties during homeostasis. Following HIV exposure, the antiviral response was dominated by DCs’ rapid secretory response, activation of non-classical inflammatory pathways and host restriction factors. Further, we uncovered subset-specific differences in anti-HIV responses. CD14+ DCs were the main population activated by HIV and mediated the secretory antimicrobial response, while CD1c+ DC2s activated inflammasome pathways and IFN responses. Identification of subset-specific responses to HIV immediately after exposure could aid targeted strategies to prevent HIV infection.

Published

2024

45. T cell-mediated Immune response and correlates of inflammation and their relationship with COVID-19 clinical severity: not an intuitive guess

Author

Nathalia Mantovani Pena, Luiz Claudio Santana, James R Hunter, Vinicius Fontanesi Blum, Tania Vergara, Celso Gouvea, Elcio Leal, Nancy Bellei, Mauro Schechter, and Ricardo Sobhie Diaz

Subjects

COVID-19 severity, Cellular immune response, Antiviral response, HIV-1, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Predictors of the outcome of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) infection remain to be fully determined. We evaluated selected viral characteristics and immunological responses that might predict and/or correlate to the clinical outcome of COVID-19. Methods For individuals developing divergent clinical outcomes, the magnitude and breadth of T cell-mediated responses were measured within 36 h of symptom onset. Peripheral Blood Mononuclear Cells (PBMCs) were subjected to in vitro stimulation with SARS-CoV-2-based peptides. In addition, SARS-CoV-2 sequences were generated by metagenome, and HLA typing was performed using Luminex technology. Findings CD4+ T cell activation was negatively correlated with SARS-CoV-2 basal viral load in patients with severe COVID-19 (p = 0·043). The overall cellular immune response, as inferred by the IFN-γ signal, was higher at baseline for patients who progressed to mild disease compared to patients who progressed to severe disease (p = 0·0044). Subjects with milder disease developed higher T cell responses for MHC class I and II-restricted peptides (p = 0·033). Interpretation Mounting specific cellular immune responses in the first days after symptom onset, as inferred by IFN-γ magnitude in the ELISPOT assay, may efficiently favor a positive outcome. In contrast, progression to severe COVID-19 was accompanied by stronger cellular immune responses, higher CD4 + T cell activation, and a higher number of in silico predicted high-affinity class I HLA alleles.

Published

2024

46. T cell-mediated Immune response and correlates of inflammation and their relationship with COVID-19 clinical severity: not an intuitive guess.

Author

Pena, Nathalia Mantovani, Santana, Luiz Claudio, Hunter, James R, Blum, Vinicius Fontanesi, Vergara, Tania, Gouvea, Celso, Leal, Elcio, Bellei, Nancy, Schechter, Mauro, and Diaz, Ricardo Sobhie

Subjects

SARS-CoV-2, MONONUCLEAR leukocytes, COVID-19, IMMUNE response, VIRAL shedding

Abstract

Background: Predictors of the outcome of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) infection remain to be fully determined. We evaluated selected viral characteristics and immunological responses that might predict and/or correlate to the clinical outcome of COVID-19. Methods: For individuals developing divergent clinical outcomes, the magnitude and breadth of T cell-mediated responses were measured within 36 h of symptom onset. Peripheral Blood Mononuclear Cells (PBMCs) were subjected to in vitro stimulation with SARS-CoV-2-based peptides. In addition, SARS-CoV-2 sequences were generated by metagenome, and HLA typing was performed using Luminex technology. Findings: CD4+ T cell activation was negatively correlated with SARS-CoV-2 basal viral load in patients with severe COVID-19 (p = 0·043). The overall cellular immune response, as inferred by the IFN-γ signal, was higher at baseline for patients who progressed to mild disease compared to patients who progressed to severe disease (p = 0·0044). Subjects with milder disease developed higher T cell responses for MHC class I and II-restricted peptides (p = 0·033). Interpretation: Mounting specific cellular immune responses in the first days after symptom onset, as inferred by IFN-γ magnitude in the ELISPOT assay, may efficiently favor a positive outcome. In contrast, progression to severe COVID-19 was accompanied by stronger cellular immune responses, higher CD4 + T cell activation, and a higher number of in silico predicted high-affinity class I HLA alleles. [ABSTRACT FROM AUTHOR]

Published

2024

47. Characterizing patterns of selection pressure on mammalian antiviral immune response.

Author

Hawash, Mohamed B.F.

Abstract

Immune response is known to be under constant evolutionary pressure from different factors including pathogens. Although different selection regimes are expected to act on the magnitude of immune response, there are limited studies that have investigated the different patterns of selection pressures on the immune response quantitatively. I employed evolutionary models (Ornstein-Uhlenbeck models) to identify different patterns of selection on the antiviral immune response of fibroblasts derived from 18 mammalian species and one vertebrate stimulated by viral ligand, poly I: C, or Interferon alpha cytokine. I found stabilizing selection to be the dominant form of selection on the immune response. Out of 59 genes that were found to be responding in at least 15 species, 50 genes were found to be under stabilizing selection. Moreover, the evolutionary variance was found to differ among these conservatively responding genes implicated in fighting viruses. For instance, ADAR was found to have low evolutionary variance while TRIM14 response showed the opposite trend suggesting different evolutionary pressures acting on the magnitude of response. Directional selection was also detected in specific infra-orders of primates such as apes and old-world monkeys in response of innate immune effectors. [ABSTRACT FROM AUTHOR]

Published

2024

48. Interleukin 27, like interferons, activates JAK-STAT signaling and promotes pro-inflammatory and antiviral states that interfere with dengue and chikungunya viruses replication in human macrophages.

Author

Valdés-López, Juan Felipe, Hernández-Sarmiento, Lady Johana, Tamayo-Molina, Y. S., Velilla-Hernández, Paula A., Rodenhuis-Zybert, Izabela A., and Urcuqui-Inchima, Silvio

Subjects

DENGUE viruses, CHIKUNGUNYA virus, INFLAMMATION, JAK-STAT pathway, INTERFERONS

Abstract

Interferons (IFNs) are a family of cytokines that activate the JAK-STAT signaling pathway to induce an antiviral state in cells. Interleukin 27 (IL-27) is a member of the IL-6 and/or IL-12 family that elicits both pro- and anti-inflammatory responses. Recent studies have reported that IL-27 also induces a robust antiviral response against diverse viruses, both in vitro and in vivo, suggesting that IFNs and IL-27 share many similarities at the functional level. However, it is still unknown how similar or different IFN- and IL-27-dependent signaling pathways are. To address this question, we conducted a comparative analysis of the transcriptomic profiles of human monocyte-derived macrophages (MDMs) exposed to IL-27 and those exposed to recombinant human IFN-α, IFN-γ, and IFN-λ. We utilized bioinformatics approaches to identify common differentially expressed genes between the different transcriptomes. To verify the accuracy of this approach, we used RT-qPCR, ELISA, flow cytometry, and microarrays data. We found that IFNs and IL-27 induce transcriptional changes in several genes, including those involved in JAK-STAT signaling, and induce shared pro-inflammatory and antiviral pathways in MDMs, leading to the common and unique expression of inflammatory factors and IFN-stimulated genes (ISGs)Importantly, the ability of IL-27 to induce those responses is independent of IFN induction and cellular lineage. Additionally, functional analysis demonstrated that like IFNs, IL-27-mediated response reduced chikungunya and dengue viruses replication in MDMs. In summary, IL-27 exhibits properties similar to those of all three types of human IFN, including the ability to stimulate a protective antiviral response. Given this similarity, we propose that IL-27 could be classified as a distinct type of IFN, possibly categorized as IFN-pi (IFN-π), the type V IFN (IFN-V). [ABSTRACT FROM AUTHOR]

Published

2024

49. Single-cell analysis reveals an antiviral network that controls Zika virus infection in human dendritic cells.

Author

Moore, Kathryn M., Pelletier, Adam-Nicolas, Lapp, Stacey, Metz, Amanda, Tharp, Gregory K., Lee, Michelle, Bhasin, Swati Sharma, Bhasin, Manoj, Sékaly, Rafick-Pierre, Bosinger, Steven E., and Suthar, Mehul S.

Subjects

*ZIKA virus infections, *TYPE I interferons, *DENDRITIC cells, *ZIKA virus, *MISCARRIAGE, *PROTEIN-protein interactions

Abstract

Zika virus (ZIKV) is a mosquito-borne flavivirus that caused an epidemic in the Americas in 2016 and is linked to severe neonatal birth defects, including microcephaly and spontaneous abortion. To better understand the host response to ZIKV infection, we adapted the 10× Genomics Chromium single-cell RNA sequencing (scRNA-seq) assay to simultaneously capture viral RNA and host mRNA. Using this assay, we profiled the antiviral landscape in a population of human monocyte-derived dendritic cells infected with ZIKV at the single-cell level. The bystander cells, which lacked detectable viral RNA, expressed an antiviral state that was enriched for genes coinciding predominantly with a type I interferon (IFN) response. Within the infected cells, viral RNA negatively correlated with type I IFN-dependent and -independent genes (the antiviral module). We modeled the ZIKV-specific antiviral state at the protein level, leveraging experimentally derived protein interaction data. We identified a highly interconnected network between the antiviral module and other host proteins. In this work, we propose a new paradigm for evaluating the antiviral response to a specific virus, combining an unbiased list of genes that highly correlate with viral RNA on a per-cell basis with experimental protein interaction data. [ABSTRACT FROM AUTHOR]

Published

2024

50. FADD promotes type I interferon production to suppress porcine reproductive and respiratory syndrome virus infection.

Author

Xiaobo Chang, Mengqi Wang, Zhaopeng Li, Lei Wang, Gaiping Zhang, Yafei Chang, and Jianhe Hu

Subjects

PORCINE reproductive & respiratory syndrome, TYPE I interferons, VIRUS diseases, ANIMAL diseases, DEATH receptors, CIRCOVIRUS diseases, CLASSICAL swine fever

Abstract

Porcine reproductive and respiratory syndrome (PRRS) is an epidemic animal infectious disease worldwide, causing huge economic losses to the global swine industry. Fas-associated death domain (FADD) was previously reported to be an adaptor protein that functions in transferring the apoptotic signals regulated by the death receptors. In the current study, we unravel its unidentified role in promoting type I interferon (IFN) production during PRRS virus (PRRSV) infection. We identified that FADD inhibited PRRSV infection via promotion of type I IFN transcription. Overexpression of FADD suppressed the replication of PRRSV, while knockout of FADD increased viral titer and nucleocapsid protein expression. Mechanistically, FADD promoted mitochondrial antiviral signaling protein (MAVS)-mediated production of IFN-β and some IFN-stimulated genes (ISGs). Furthermore, FADD exerted anti-PRRSV effects in a MAVS-dependent manner and increased the type I IFN signaling during PRRSV infection. This study highlights the importance of FADD in PRRSV replication, which may have implications for the future control of PRRS. [ABSTRACT FROM AUTHOR]

Published

2024