Your search keyword '"IFN"' showing total 1,176 results

1. Anatomical, subset, and HIV-dependent expression of viral sensors and restriction factors

Author

George, Ashley F., Neidleman, Jason, Luo, Xiaoyu, Frouard, Julie, Elphick, Natalie, Yin, Kailin, Young, Kyrlia C., Ma, Tongcui, Andrew, Alicer K., Ezeonwumelu, Ifeanyi J., Pedersen, Jesper G., Chaillon, Antoine, Porrachia, Magali, Woodworth, Brendon, Jakobsen, Martin R., Thomas, Reuben, Smith, Davey M., Gianella, Sara, and Roan, Nadia R.

Published

2025

2. The crosstalk between DNA-damage responses and innate immunity

Author

He, Mei, Jiang, Hua, Li, Shun, Xue, Mengzhou, Wang, Huiqing, Zheng, Chunfu, and Tong, Jie

Published

2024

3. Shining a Light on Inflammation as a Critical Modulator of Drug Metabolism

Author

Morgan, Edward T.

Published

2024

4. Type I interferons induce an epigenetically distinct memory B cell subset in chronic viral infection

Author

Cooper, Lucy, Xu, Hui, Polmear, Jack, Kealy, Liam, Szeto, Christopher, Pang, Ee Shan, Gupta, Mansi, Kirn, Alana, Taylor, Justin J., Jackson, Katherine J.L., Broomfield, Benjamin J., Nguyen, Angela, Gago da Graça, Catarina, La Gruta, Nicole, Utzschneider, Daniel T., Groom, Joanna R., Martelotto, Luciano, Parish, Ian A., O’Keeffe, Meredith, Scharer, Christopher D., Gras, Stephanie, and Good-Jacobson, Kim L.

Published

2024

5. The Mycobacterium tuberculosis PhoPR virulence system regulates expression of the universal second messenger c-di-AMP and impacts vaccine safety and efficacy

Author

Pérez, Irene, Campos-Pardos, Elena, Díaz, Caridad, Uranga, Santiago, Sayes, Fadel, Vicente, Francisca, Aguiló, Nacho, Brosch, Roland, Martín, Carlos, and Gonzalo-Asensio, Jesús

Published

2022

6. Acquired resistance to PD-L1 inhibition enhances a type I IFN-regulated secretory program in tumors.

Author

Shi, Yuhao, McKenery, Amber, Dolan, Melissa, Mastri, Michalis, Hill, James W, Dommer, Adam, Benzekry, Sebastien, Long, Mark, Abrams, Scott I, Puzanov, Igor, and Ebos, John M L

Abstract

Therapeutic inhibition of programmed cell death ligand (PD-L1) is linked to alterations in interferon (IFN) signaling. Since IFN-regulated intracellular signaling can control extracellular secretory programs in tumors to modulate immunity, we examined IFN-related secretory changes in tumor cells following resistance to PD-L1 inhibition. Here we report an anti-PD-L1 treatment-induced secretome (PTIS) in tumor models of acquired resistance that is regulated by type I IFNs. These secretory changes can suppress activation of T cells ex vivo while diminishing tumor cell cytotoxicity, revealing that tumor-intrinsic treatment adaptations can exert broad tumor-extrinsic effects. When reimplanted in vivo, resistant tumor growth can slow or stop when PTIS components are disrupted individually, or when type I IFN signaling machinery is blocked. Interestingly, genetic and therapeutic disruption of PD-L1 in vitro can only partially recapitulate the PTIS phenotype highlighting the importance of developing in vivo-based resistance models to more faithfully mimic clinically-relevant treatment failure. Together, this study shows acquired resistance to immune-checkpoint inhibitors 'rewires' tumor secretory programs controlled by type I IFNs that, in turn, can protect from immune cell attack. Synopsis: Acquired resistance to PD-L1 inhibition can rewire the interferon-regulated secretory machinery in tumor cells, altering the immune microenvironment. These secretory programs may be exploited as biomarkers and therapeutic targets following treatment failure. Resistance to αPD-L1 treatment can increase type I IFN-regulated secretory programs. An αPD-L1 treatment-induced secretome (PTIS) can suppress CD8 T cell function and protect resistant tumor cells from splenocyte cytotoxicity. Blocking IFN signaling and the PTIS can slow resistant tumor growth. Acquired resistance to PD-L1 inhibition can rewire the interferon-regulated secretory machinery in tumor cells, altering the immune microenvironment. These secretory programs may be exploited as biomarkers and therapeutic targets following treatment failure. [ABSTRACT FROM AUTHOR]

Published

2025

7. Role of nasal microbiota in regulating host anti-influenza immunity in dogs.

Author

Geng, Jinzhu, Dong, Yuhao, Huang, Hao, Wen, Xia, Xu, Ting, Zhao, Yanbing, and Liu, Yongjie

Subjects

BEAGLE (Dog breed), NASAL cavity, GENE expression profiling, LACTOBACILLUS, INFLUENZA viruses, INFLUENZA A virus, LACTOBACILLUS plantarum

Abstract

Background : Numerous studies have confirmed a close relationship between the pathogenicity of influenza and respiratory microbiota, but the mechanistic basis for this is poorly defined. Also, the majority of these studies have been conducted on murine models, and it remains unclear how far these findings can be extrapolated from murine models to other animals. Considering that influenza A virus is increasingly recognized as an important canine respiratory pathogen, this study investigated the cross-talk between nasal and lung tissues mediated by microbes and its association with influenza susceptibility in a beagle dog model. Results: Using 16S rRNA gene sequencing, combined with comparative transcriptomic, anatomical, and histological examinations, we investigated viral presence, gene expression profiles, and microbiota in the nasal cavity and lung after influenza infection in the beagles with antibiotic-induced nasal dysbiosis. Our data showed that dysbiosis of the nasal microbiome exacerbates influenza-induced respiratory disease and the epithelial barrier disruption, and impairs host antiviral responses in the nasal cavity and lung. Moreover, dysregulation of nasal microbiota exacerbates the influenza-induced disturbance in lung microbiota. Further, we also identified a strain of Lactobacillus plantarum isolated from canine nasal cavity with a significant antiviral effect in vitro, and found that its antiviral activity might be associated with the activation of the interferon (IFN) pathway and modulation of the impaired autophagy flux induced by influenza infection. Conclusions: Our investigation reveals that nasal microbiota dysbiosis exerts a prominent impact on host antiviral responses, inflammation thresholds, and mucosal barrier integrity during influenza infection. Lactobacilli, as part of the nasal microbiota, may contribute to host antiviral defenses by modulating the IFN and autophagy pathways. Collectively, this study underscores the importance of nasal microbiota homeostasis in maintaining respiratory health. ELb-wCzpDVSzGHyDeap6A8 Video Abstract [ABSTRACT FROM AUTHOR]

Published

2025

8. Bacterial Outer Membrane Vesicles from Dextran Sulfate Sodium–Induced Colitis Differentially Regulate Intestinal UDP-Glucuronosyltransferase 1A1 Partially Through Toll-Like Receptor 4/Mitogen-Activated Protein Kinase/Phosphatidylinositol 3-Kinase Pathway

Author

Gao, Xue-Jiao, Li, Ting, Wei, Bin, Yan, Zhi-Xiang, Hu, Nan, Huang, Yan-Juan, Han, Bei-Lei, Wai, Tai-Seng, Yang, Wei, and Yan, Ru

Published

2018

9. Advances in Brazil's National Forest Inventory

Author

Ricardo da Silva Ribeiro, Hallefy Junio de Souza, Lúcia Munari, Claudio Roberto Anholetto Junior, Alcâmenes dos Santos, Hugo Castro Filho, Tiago Alencar, Jair Faria Júnior, Daniel Santiago, Lis Bentes, Vítor Faria, Alex Pereira, David Souza e Lira, Michella Teixeira, Ana Laura Trindade, Raquel Leão, Érico Dianese, Gustavo Pinho, Dárlison Andrade, and Tiago Cruz

Subjects

Brazilian Forest Service, IFN, SNIF, Brazil., Science

Abstract

Brazil's National Forest Inventory (IFN), coordinated by the Brazilian Forest Service (SFB), provides essential data on the country's forest resources. The availability of IFN data, collected over more than a decade, through the National Forest Information System (SNIF), promotes transparency and facilitates access to comprehensive information about Brazilian forests. This detailed survey covers biophysical, botanical and socio-environmental aspects, as well as interviews about the use of forest resources.

Published

2024

10. Nucleos(t)ide analogues potentially activate T lymphocytes through inducing interferon expression in hepatic cells and patients with chronic hepatitis B

Author

Ai-Sheng Ho, Jungshan Chang, Shou-Dong Lee, Zong-Lin Sie, Hui-Fen Shih, Chun Yeh, Cheng-Liang Peng, Kapil Dev, and Chun-Chia Cheng

Subjects

CD4+ T cells, CD8+ T cells, HBV, Nucleoside/nucleotide analogues (NAs), IFN, PD-L1, Medicine, Science

Abstract

Abstract Chronic hepatitis B (CHB) leads to liver inflammation and dysfunction, resulting in liver fibrosis and cancer. Nucleos(t)ide analogues (NAs), inhibitors of hepatitis B virus (HBV), specifically suppress HBV replication. We proposed that immune modulation benefits seroconversion by HBsAg loss. However, activation of T lymphocytes also deteriorates hepatic inflammation. Therefore, we intended to investigate the T cell status and its relationship with hepatic functions in CHB patients treated with NAs. Serum markers, including liver function markers AST, ALT, and HBV-infected markers HBV DNA, HBsAg, HBeAg, and HBsAb were measured in the clinical routine. The T cell levels and markers, including CD69, CD107a, CXCR3, and PD-1 were investigated using flow cytometry. Meanwhile, IFNγ, IL-2, and CXCL10 as immune activation markers in the PBMCs were investigated using qPCR. To validate the effects of NAs on T cell status, qPCR and flow cytometry were used to investigate the gene expression in the HepG2 and PLC5 cells treated with NAs, and in the healthy PBMCs treated with the cell-cultured supernatant. We found that NAs significantly suppressed HBV DNA and reduced AST and ALT levels in the CHB patients. Meanwhile, AST and ALT were both positively correlated with activation marker CD107a in CD8+ T cells. In addition, we found that the CHB patients with seroconversion exhibited a higher CD4/CD8 ratio (p

Published

2024

11. The antitumor effect of extracellular vesicles derived from cytokine-activated CD8+ T cells.

Author

Zhang, Lin, Meng, Yuan, An, Yang, Yang, Xuena, Wei, Feng, and Ren, Xiubao

Subjects

KILLER cells, CYTOTOXIC T cells, CHIMERIC antigen receptors, CANCER cells, EXTRACELLULAR vesicles

Abstract

Extracellular vesicles (EVs) are nano-sized membrane particles secreted by various cell types that are involved in many important cellular processes. Recently, EVs originating from immune cells, such as dendritic cells, chimeric antigen receptor T cells, and natural killer cells, have attracted much attention because of their known direct and indirect antitumor activity. Here, we report the EVs released by cytokine-activated CD8+ T (caCD8) cells and its cytotoxicity against cancer cells. CaCD8 cells can release EVs following stimulation of CD8+ T cells with an anti-CD3 antibody and a cytokine cocktail ex vivo. The isolated vesicles have typical EV characteristics, such as an oval shape and a size distribution between 30 and 200 nm, as well as CD81 expression. Notably, caCD8-EVs displayed cytotoxicity against various cancer cells in vitro. Furthermore, mechanism analysis demonstrates that caCD8-EVs not only contain typical cytotoxic proteins (i.e. granzyme B and perforin), but also significantly enrich interferon γ (IFNγ) compared with caCD8 cells. EV-derived IFNγ participates in EV-induced apoptosis in cancer cells. Therefore, our data reveal antitumor effects of EVs secreted from caCD8 cells and the potential role of the EV-derived IFNγ. [ABSTRACT FROM AUTHOR]

Published

2024

12. Isolation of Limosilactobacillus mucosae G01 with inhibitory effects on porcine epidemic diarrhea virus in vitro from Bama pig gastroenteritis.

Author

Bin Zhang, Haiyan Shen, Hongchao Gou, Wuri, Nile, Chunhong Zhang, Zhicheng Liu, Haiyan He, Jingjing Nie, Yunzhi Qu, Geri, Letu, and Jianfeng Zhang

Subjects

PATHOGENIC microorganisms, LACTIC acid bacteria, INTESTINAL infections, CORONAVIRUS diseases, PIGLETS, PORCINE epidemic diarrhea virus

Abstract

Porcine epidemic diarrhea virus (PEDV) is responsible for causing fatal watery diarrhea in piglets, resulting in significant economic losses within the pig farming industry. Although vaccination is currently employed as a preventive measure, certain vaccines do not provide complete protection against PEDV field strains. Probiotics present a promising alternative due to their ability to regulate intestinal flora, enhance host immunity, and improve resistance against pathogenic microorganisms. We isolated six lactic acid bacteria (LAB) from the fecal microorganisms of Bama pigs, compared to Limosilactobacillus mucosae DSM13345 of the same genus in which Limosilactobacillus mucosae G01 (L. mucosae G01) proved to have a potent anti-PEDV effect. In a comprehensive manner, L. mucosae G01 significantly augmented the phosphorylation of IRF3 in IPEC-J2 cells, resulting in the induction of interferons (IFN α, IFN β, IFN λ1, and IFN λ3) and subsequent upregulation of interferon-stimulated genes (ISGs) (MX1, MX2, OAS1, and ZAP) in a dose-dependent fashion, consequently leading to the mitigation of PEDV replication. These findings underscore the promising prospects of L. mucosae G01 as a naturally derived substitute for combating PEDV and other enteric coronavirus infections. [ABSTRACT FROM AUTHOR]

Published

2024

13. Immunoglobin attenuates fulminant myocarditis by inhibiting overactivated innate immune response.

Author

Wen, Jianpei, Li, Huihui, Zhou, Yufei, Du, Hengzhi, Hu, Guo, Wen, Zheng, Tang, Du, Wang, Yanwen, Cui, Xinwu, Zhou, Zhou, Wang, Dao Wen, and Chen, Chen

Subjects

*ANTIGEN presentation, *PROCESS capability, *IMMUNE response, *ANTIGEN processing, *CARDIOMYOPATHIES

Abstract

Background and Purpose Experimental Approach Key Results Conclusions and Implications Fulminant myocarditis (FM) is a myocardial inflammatory disease that can result from either viral diseases or autoimmune diseases. In this study, we have determined the treatment effects of immunomodulatory drugs on FM.FM was induced in A/JGpt mice by intraperitoneal administration of coxsackievirus B3, after which immunoglobins were administered daily by intraperitoneal injection. On the seventh day, the cardiac structure and function were determined using echocardiography and cardiac catheterisation. Single‐cell RNA sequencing (scRNA‐seq) was performed to evaluate CD45+ cells in the heart.Immunoglobin, a typical immunomodulatory drug, dramatically reduced mortality and significantly improved cardiac function in mice with FM. ScRNA‐seq revealed that immunoglobin treatment effectively modulated cardiac immune homeostasis, particularly by attenuating overactivated innate immune responses. At the cellular level, immunoglobin predominantly targeted Plac8+ monocytes and S100a8+ neutrophils, suppressing their proinflammatory activities, and enhancing antigen processing and presentation capabilities, thereby amplifying the efficiency and potency of the immune response against the virus. Immunoglobin benefits are mediated by the modulation of multiple signalling pathways, including relevant receptors on immune cells, direction of inflammatory cell chemotaxis, antigen presentation and anti‐viral effects. Subsequently, Bst2-ILT7 ligand‐receptor‐mediated cellular interactions manipulated by immunoglobin were further confirmed in vivo.Immunoglobin treatment significantly attenuated FM‐induced cardiac inflammation and improved cardiac function by inhibiting overactivated innate immune responses. [ABSTRACT FROM AUTHOR]

Published

2024

14. Nucleos(t)ide analogues potentially activate T lymphocytes through inducing interferon expression in hepatic cells and patients with chronic hepatitis B.

Author

Ho, Ai-Sheng, Chang, Jungshan, Lee, Shou-Dong, Sie, Zong-Lin, Shih, Hui-Fen, Yeh, Chun, Peng, Cheng-Liang, Dev, Kapil, and Cheng, Chun-Chia

Subjects

LIVER cells, CHRONIC hepatitis B, HEPATIC fibrosis, HEPATITIS B virus, BIOMARKERS, T cells

Abstract

Chronic hepatitis B (CHB) leads to liver inflammation and dysfunction, resulting in liver fibrosis and cancer. Nucleos(t)ide analogues (NAs), inhibitors of hepatitis B virus (HBV), specifically suppress HBV replication. We proposed that immune modulation benefits seroconversion by HBsAg loss. However, activation of T lymphocytes also deteriorates hepatic inflammation. Therefore, we intended to investigate the T cell status and its relationship with hepatic functions in CHB patients treated with NAs. Serum markers, including liver function markers AST, ALT, and HBV-infected markers HBV DNA, HBsAg, HBeAg, and HBsAb were measured in the clinical routine. The T cell levels and markers, including CD69, CD107a, CXCR3, and PD-1 were investigated using flow cytometry. Meanwhile, IFNγ, IL-2, and CXCL10 as immune activation markers in the PBMCs were investigated using qPCR. To validate the effects of NAs on T cell status, qPCR and flow cytometry were used to investigate the gene expression in the HepG2 and PLC5 cells treated with NAs, and in the healthy PBMCs treated with the cell-cultured supernatant. We found that NAs significantly suppressed HBV DNA and reduced AST and ALT levels in the CHB patients. Meanwhile, AST and ALT were both positively correlated with activation marker CD107a in CD8+ T cells. In addition, we found that the CHB patients with seroconversion exhibited a higher CD4/CD8 ratio (p < 0.05) compared to non-seroconversion. We demonstrated that NAs potentially induced IFNs and PD-L1 expression in HepG2 and PLC5 cells. Moreover, the collected supernatant from NAs-treated HepG2 significantly activated PBMCs. This study revealed that the reduction of HBV by NAs may be the reason leading to less AST and ALT levels. We further demonstrated that NAs induced IFN expression in hepatic cells to potentially activate T lymphocytes, which was positively associated with AST and ALT levels in the CHB patients. The results may explain the phenomena in clinical that when the virus is reactivated by aborted use of NAs, it causes consequent T cells-mediated severe acute-on-chronic liver injury. [ABSTRACT FROM AUTHOR]

Published

2024

15. Long-Term Human Immune Reconstitution, T-Cell Development, and Immune Reactivity in Mice Lacking the Murine Major Histocompatibility Complex: Validation with Cellular and Gene Expression Profiles.

Author

Darguzyte, Milita, Antczak, Philipp, Bachurski, Daniel, Hoelker, Patrick, Abedpour, Nima, Gholamipoorfard, Rahil, Schlößer, Hans A., Wennhold, Kerstin, Thelen, Martin, Garcia-Marquez, Maria A., Koenig, Johannes, Schneider, Andreas, Braun, Tobias, Klawonn, Frank, Damrat, Michael, Rahman, Masudur, Kleid, Jan-Malte, Theobald, Sebastian J., Bauer, Eugen, and von Kaisenberg, Constantin

Subjects

*HLA histocompatibility antigens, *LYMPHOCYTE subsets, *MAJOR histocompatibility complex, *LYMPHOID tissue, *KILLER cells, *T cells

Abstract

Background: Humanized mice transplanted with CD34+ hematopoietic cells (HPCs) are broadly used to study human immune responses and infections in vivo and for testing therapies pre-clinically. However, until now, it was not clear whether interactions between the mouse major histocompatibility complexes (MHCs) and/or the human leukocyte antigens (HLAs) were necessary for human T-cell development and immune reactivity. Methods: We evaluated the long-term (20-week) human hematopoiesis and human T-cell development in NOD Scid Gamma (NSG) mice lacking the expression of MHC class I and II (NSG-DKO). Triplicate experiments were performed with HPCs obtained from three donors, and humanization was confirmed in the reference strain NOD Rag Gamma (NRG). Further, we tested whether humanized NSG-DKO mice would respond to a lentiviral vector (LV) systemic delivery of HLA-A*02:01, HLA-DRB1*04:01, human GM-CSF/IFN-α, and the human cytomegalovirus gB antigen. Results: Human immune reconstitution was detectable in peripheral blood from 8 to 20 weeks after the transplantation of NSG-DKO. Human single positive CD4+ and CD8+ T-cells were detectable in lymphatic tissues (thymus, bone marrow, and spleen). LV delivery harnessed the detection of lymphocyte subsets in bone marrow (αβ and γδ T-cells and NK cells) and the expression of HLA-DR. Furthermore, RNA sequencing showed that LV delivery increased the expression of different human reactome pathways, such as defense responses to other organisms and viruses. Conclusions: Human T-cell development and reactivity are independent of the expression of murine MHCs in humanized mice. Therefore, humanized NSG-DKO is a promising new model for studying human immune responses, as it abrogates the xenograft mouse MHC interference. [ABSTRACT FROM AUTHOR]

Published

2024

16. Advances in Brazil's National Forest Inventory.

Author

da Silva Ribeiro, Ricardo, de Souza, Hallefy Junio, Munari, Lúcia Chamlian, Anholetto Junior, Claudio Roberto, dos Santos, Alcâmenes Heródoto Honorato, Castro Filho, Hugo Crisostomo de, Alencar, Tiago Machado de, Faria Júnior, Jair Eustáquio Quintino de, Santiago, Daniel Silva, Bentes, Lis Vale, Faria, Vítor Marques de, Pereira, Alex de Almeida, Souza e Lira, David Fagner de, Teixeira, Michella Del Rei, Trindade, Ana Laura Cerqueira, Leão, Raquel Alvares, Dianese, Érico de Campos, Pinho, Gustavo Stancioli Campos de, Andrade, Dárlison Fernandes Carvalho de, and Cruz, Tiago Thomasi

Subjects

FOREST reserves, FOREST surveys, INFORMATION storage & retrieval systems, ACCESS to information

Abstract

Brazil's National Forest Inventory (IFN), coordinated by the Brazilian Forest Service (SFB), provides essential data on the country's forest resources. The availability of IFN data, collected over more than a decade, through the National Forest Information System (SNIF), promotes transparency and facilitates access to comprehensive information about Brazilian forests. This detailed survey covers biophysical, botanical and socio-environmental aspects, as well as interviews about the use of forest resources. [ABSTRACT FROM AUTHOR]

Published

2024

17. Mechanisms of immune evasion by Mycobacterium tuberculosis: the impact of T7SS and cell wall lipids on host defenses.

Author

Malik, Asrar Ahmad, Shariq, Mohd, Sheikh, Javaid Ahmad, Jaiswal, Udyeshita, Fayaz, Haleema, Shrivastava, Gauri, Ehtesham, Nasreen Z., and Hasnain, Seyed E.

Subjects

*MYCOBACTERIAL diseases, *CELL envelope (Biology), *MYCOBACTERIUM tuberculosis, *CARRIER proteins, *PROTEIN transport

Abstract

Mycobacterium tuberculosis (M. tb) is one of the most successful human pathogens, causing a severe and widespread infectious disease. The frequent emergence of multidrug-resistant (MDR) strains has exacerbated this public health crisis, particularly in underdeveloped regions. M. tb employs a sophisticated array of virulence factors to subvert host immune responses, both innate and adaptive. It utilizes the early secretory antigenic target (ESAT6) secretion system 1 (ESX-1) type VII secretion system (T7SS) and cell wall lipids to disrupt phagosomal integrity, inhibiting phagosome maturation, and fusion with lysosomes. Although host cells activate mechanisms such as ubiquitin (Ub), Ub-ligase, and cyclic GMP-AMP synthase-stimulator of interferon genes 1 (CGAS-STING1)-mediated autophagy to inhibit M. tb survival within macrophages, the pathogen counteracts these defenses with its own virulence factors, thereby inhibiting autophagy and dampening host-directed responses. T7SSs are critical for transporting proteins across the complex mycobacterial cell envelope, performing essential functions, including metabolite uptake, immune evasion, and conjugation. T7SS substrates fall into two main families: ESAT-6 system proteins, which are found in both Firmicutes and Actinobacteria, and proline-glutamic acid (PE) and proline-proline-glutamic acid (PPE) proteins, which are unique to mycobacteria. Recent studies have highlighted the significance of T7SSs in mycobacterial growth, virulence, and pathogenesis. Understanding the mechanisms governing T7SSs could pave the way for novel therapeutic strategies to combat mycobacterial diseases, including tuberculosis (TB). T7SS of M. tb plays a critical role in the bacterium's virulence, pathogenesis, and survival within host cells. T7SS mediates the secretion of PE-PPE proteins and ESX substrates, which are pivotal in various cellular processes. These include damaging the phagosome, inducing ubiquitination, autophagy, and promoting the release dsDNA. Furthermore, T7SS activates key immune responses such as inflammasome formation, CGAS-STING1 signaling, and type I IFN production, while stimulating the secretion of proinflammatory cytokines. It also contributes to inflammation, necroptosis, pyroptosis, and facilitates the dissemination of M. tb to neighboring cells. In addition to promoting immune responses, T7SS is involved in nutrient acquisition and inhibits host cell defense mechanisms. It prevents phagosome-lysosome fusion, impairs phagosome repair mechanisms, and inhibits phagosome maturation, enabling M. tb to survive within macrophages. Targeting multiple stages of the T7SS pathway offers potential therapeutic strategies to inhibit its function, thereby reducing M. tb replication, virulence, and pathogenicity, as highlighted in the accompanying figure through cross-marks. These insights provide promising avenues for the development of interventions aimed at disrupting the T7SS and mitigating M. tb infection. AR = autophagy receptors (SQSTM1/p62, NBR1, CALCOCO2, TAX1BP1, OPTN, TRIM16, and TRIM32). HIGHLIGHTS: Emergence of MDR strains exacerbates the TB health crisis. M. tb uses T7SS to disrupt host immune responses. Pathogen counters autophagy, dampening host defense mechanisms. T7SSs critical for protein transport and immune evasion. Understanding T7SSs may lead to new TB therapies. [ABSTRACT FROM AUTHOR]

Published

2024

18. A cGAS-mediated type I interferon response in human CD4+ T cells depends on productive infection and is conserved over HIV types and strains.

Author

Janevska, Marija, Cammaert, Timothy, Naessens, Evelien, and Verhasselt, Bruno

Subjects

*TYPE I interferons, *HIV infections, *HIV, *T cells, *INTEGRASE inhibitors

Abstract

Human immunodeficiency virus (HIV) type 2 is known to be less pathogenic than HIV-1, possibly due to more effective immune control mechanisms. The mechanism of innate sensing of HIV-2 by T cells is at present unclear. In this study, we show that several primary isolates of HIV-2 (CBL20 and CI85) and HIV-1 (A8 and D2), similar to the molecular clone HIV-1 NL4.3-GFP-I, induce a significant type I interferon response in its main target, activated CD4+ T cells. However, they are unable to do so after shRNA-mediated knock-down of cGAS. In addition, both HIV-1- and HIV-2-induced type I interferon response in CD4+ T cells was dependent on productive infection and integration, as the presence of RT or integrase inhibitor dramatically suppressed the sensing. Our findings collectively showed that the cGAS-dependent type I interferon response of CD4+ T cells to HIV infection is conserved over HIV types and critically depends on productive infection. [ABSTRACT FROM AUTHOR]

Published

2024

19. STING Contributes to Pulmonary Hypertension by Targeting IFN and BMPR2 Signaling through Regulating of F2RL3.

Author

Deng, Lin, Cao, Chengrui, Cai, Zongye, Wang, Ziping, Leng, Bin, Chen, Zhen, Kong, Fanhao, Zhou, Zhiyue, He, Jun, Nie, Xiaowei, and Bian, Jin-Song

Subjects

PULMONARY artery diseases, VASCULAR remodeling, PULMONARY hypertension, ENDOTHELIUM diseases, ENDOTHELIAL cells

Abstract

Pulmonary hypertension (PH) is an incurable disease characterized by pulmonary vascular remodeling. Endothelial injury and inflammation are the key triggers of disease initiation. Recent findings suggest that STING (stimulator of IFN genes) activation plays a critical role in endothelial dysfunction and IFN signaling. Here, we investigated the involvement of STING in the pathogenesis of PH. Patients with PH and rodent PH model samples, a Sugen 5416/hypoxia PH model, and pulmonary artery endothelial cells (PAECs) were used to evaluate the hypothesis. We found that the cyclic guanosine monophosphate–AMP synthase–STING signaling pathway was activated in lung tissues from rodent PH models and patients with PH and in TNF-α–induced PAECs in vitro. Specifically, STING expression was significantly elevated in the endothelial cells in PH disease settings. In the Sugen 5416/hypoxia mouse model, genetic knockout or pharmacological inhibition of STING prevented the progression of PH. Functionally, knockdown of STING reduced the proliferation and migration of PAECs. Mechanistically, STING transcriptionally regulates its binding partner F2RL3 (F2R-like thrombin or trypsin receptor 3) through the STING-NF-κB axis, which activated IFN signaling and repressed BMPR2 (bone morphogenetic protein receptor 2) signaling both in vitro and in vivo. Further analysis revealed that F2RL3 expression was increased in PH settings and identified negative feedback regulation of F2RL3/BMPR2 signaling. Accordingly, a positive correlation of expression amounts between STING and F2RL3/IFN-stimulated genes was observed in vivo. Our findings suggest that STING activation in PAECs plays a critical role in the pathobiology of PH. Targeting STING may be a promising therapeutic strategy for preventing the development of PH. [ABSTRACT FROM AUTHOR]

Published

2024

20. Helicase protein DDX11 as a novel antiviral factor promoting RIG-I-MAVS-mediated signaling pathway

Author

Jiyu Zhang, Liaoyuan Zhang, Dakai Liu, Hongyan Shi, Xin Zhang, Jianfei Chen, Xiaoman Yang, Miaomiao Zeng, Jialin Zhang, Tingshuai Feng, Xiaoyuan Zhu, Zhaoyang Jing, Zhaoyang Ji, Da Shi, and Li Feng

Subjects

DDX11, RIG-I, MAVS, IFN, Microbiology, QR1-502

Abstract

ABSTRACT Type Ι interferon (IFN) production mediated by retinoic acid-inducible gene 1 (RIG-I) and mitochondrial antiviral signaling protein (MAVS) is essential for antiviral innate immune responses. Here, we report the identification of a novel co-sensor for cytosolic nucleic acids: DEAD/H-box helicase 11 (DDX11), a member of the DExD/H (Asp-Glu-x-Asp/His)-box helicase family. Knockdown or knockout of DDX11 attenuated the ability of cells to increase IFN-β, IFN-stimulated gene 56, and C-X-C motif chemokine ligand 10 in response to SeV and poly (I:C) by blocking the activation of TANK-binding kinase 1 and IFN regulatory factor 3. Nucleic acid sensing by DDX11 was independent of the stimulator of IFN genes but was dependent on RIG-I and MAVS. DDX11 regulated RIG-I-MAVS-mediated IFN signaling by specifically interacting with nucleic acid, RIG-I, and MAVS to enhance RIG-I-double-strand RNA and RIG-I-MAVS binding affinity. Overall, our results identified a critical role for DDX11 in the innate immune response and provided molecular insights into the mechanisms by which DDX11 recognized cytosolic nucleic acid and interacted with RIG-Ι and MAVS for potent IFN signaling and antiviral immunity.IMPORTANCEInnate immunity is the first and most rapid host defense against virus infection. Recognition of viral RNA by the retinoic acid-inducible gene 1 (RIG-I)-like receptors (RLRs) initiates innate antiviral immune responses. How the binding of viral RNA to and activation of the RLRs are regulated remains enigmatic. In this study, we identified DEAD/H-box helicase 11 (DDX11) as a positive regulator of the RIG-I-mitochondrial antiviral signaling protein (MAVS)-mediated signaling pathways. Mechanistically, we demonstrated that DDX11 bound to viral RNA, interacted with RIG-I, and promoted their binding to viral RNA. DDX11 also promoted the interaction between RIG-I and MAVS and activation of RIG-I-MAVS signaling. Overall, our results elucidate the role of DDX11 in RIG-I-MAVS-dependent signaling pathways and may shed light on innate immune gene regulation.

Published

2024

21. Augmented epigenetic repression of hepatitis B virus covalently closed circular DNA by interferon-α and small-interfering RNA synergy

Author

Kongying Hu, Wenjing Zai, Mingzhu Xu, Haiyu Wang, Xinluo Song, Chao Huang, Jiangxia Liu, Juan Chen, Qiang Deng, Zhenghong Yuan, and Jieliang Chen

Subjects

HBV, cccDNA, IFN, siRNA, epigenetic modulation, combination therapy, Microbiology, QR1-502

Abstract

ABSTRACT The persistence of hepatitis B virus (HBV) covalently closed circular DNA (cccDNA) is a key obstacle for HBV cure. This study aims to comprehensively assess the effect of interferon (IFN) and small-interfering RNA (siRNA) combination on the cccDNA minichromosome. Utilizing both cell and mouse cccDNA models, we compared the inhibitory effects of IFNα, siRNA, and their combination on cccDNA activity and assessed its epigenetic state. IFNα2 treatment alone reduced HBV RNAs, HBeAg, and HBsAg levels by approximately 50%, accompanied by a low-level reconstitution of SMC5/6—a chromatin modulator that restricts cccDNA transcription. HBx-targeting siRNA (siHBx) achieved significant suppression of viral antigens and reconstitution of SMC5/6, but this effect could be reversed by the deacetylase inhibitor Belinostat. The combination of IFN with siHBx resulted in over 95% suppression of virological markers, reduction in epigenetic activation modifications (H3Ac and H4Ac) on cccDNA, and further reduced cccDNA accessibility, with the effect not reversible by Belinostat. In an extracellular humanized IFNAR C57BL/6 mouse model harboring recombinant cccDNA, the effect of combination of clinically used pegylated IFNα2 and GalNac-siHBx was further clarified, indicating a higher and more durable suppression of cccDNA activity compared to either therapy alone. In conclusion, the combination of IFNα and siRNA achieves a more potent and durable epigenetic inhibition of cccDNA activity in cell and mouse models, compared to monotherapy. These findings deepen the understanding of cccDNA modulation and strengthen the scientific basis for the potential of combination therapy.IMPORTANCESince there are currently no approved drugs targeting and silencing covalently closed circular DNA (cccDNA), achieving a “functional cure” remains difficult. This study aims to comprehensively compare the effects of IFNα, small-interfering RNA targeting hepatitis B virus (HBV), and their combination on the activity, accessibility, and epigenetic modifications of cccDNA minichromosomes in cell models. A more durable and stable inhibition of HBV RNAs and antigens expression by IFNα and HBx-targeting siRNA (siHBx) synergy was observed, associated with augmented epigenetic repression of the cccDNA minichromosome. Besides, in an extracellular humanized IFNAR mouse model harboring recombinant cccDNA with an intact response to human IFNα, the synergistic effect of clinically used pegylated IFNα2 and in-house-developed GalNac-siHBx was further clarified.

Published

2024

22. CD11b maintains West Nile virus replication through modulation of immune response in human neuroblastoma cells

Author

Yan-Gang Liu, Hao-Ran Peng, Rui-Wen Ren, Ping Zhao, and Lan-Juan Zhao

Subjects

West Nile virus, CD11b, TNF-α, IFN, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background West Nile virus (WNV) is a rapidly spreading mosquito-borne virus accounted for neuroinvasive diseases. An insight into WNV-host factors interaction is necessary for development of therapeutic approaches against WNV infection. CD11b has key biological functions and been identified as a therapeutic target for several human diseases. The purpose of this study was to determine whether CD11b was implicated in WNV infection. Methods SH-SY5Y cells with and without MEK1/2 inhibitor U0126 or AKT inhibitor MK-2206 treatment were infected with WNV. CD11b mRNA levels were assessed by real-time PCR. WNV replication and expression of stress (ATF6 and CHOP), pro-inflammatory (TNF-α), and antiviral (IFN-α, IFN-β, and IFN-γ) factors were evaluated in WNV-infected SH-SY5Y cells with CD11b siRNA transfection. Cell viability was determined by MTS assay. Results CD11b mRNA expression was remarkably up-regulated by WNV in a time-dependent manner. U0126 but not MK-2206 treatment reduced the CD11b induction by WNV. CD11b knockdown significantly decreased WNV replication and protected the infected cells. CD11b knockdown markedly increased TNF-α, IFN-α, IFN-β, and IFN-γ mRNA expression induced by WNV. ATF6 mRNA expression was reduced upon CD11b knockdown following WNV infection. Conclusion These results demonstrate that CD11b is involved in maintaining WNV replication and modulating inflammatory as well as antiviral immune response, highlighting the potential of CD11b as a target for therapeutics for WNV infection.

Published

2024

23. Microbiome-host interactions in the pathogenesis of acute exacerbation of chronic obstructive pulmonary disease.

Author

Yao Li, Xiaoyan Mao, Pengfei Shi, Zongren Wan, Dan Yang, Ting Ma, Baolan Wang, Jipeng Wang, Jingjing Wang, and Rong Zhu

Subjects

CHRONIC obstructive pulmonary disease, GENE expression, HAEMOPHILUS influenzae, TOLL-like receptors, CELLULAR signal transduction

Abstract

Objective: To explore the underlying mechanisms the airway microbiome contributes to Acute Exacerbation of Chronic Obstructive Pulmonary Disease(AECOPD). Methods: We enrolled 31 AECOPD patients and 26 stable COPD patients, their sputum samples were collected for metagenomic and RNA sequencing, and then subjected to bioinformatic analyses. The expression of host genes was validated by Quantitative Real-time PCR(qPCR) using the same batch of specimens. Results: Our results indicated a higher expression of Rothia mucilaginosa (p=0.015) in the AECOPD group and Haemophilus influenzae(p=0.005) in the COPD group. The Different expressed genes(DEGs) detected were significantly enriched in "type I interferon signaling pathway"(p<0.001, q=0.001) in gene function annotation, and "Cytosolic DNA-sensing pathway"(p=0.002, q=0.024), "Toll-like receptor signaling pathway"(p=0.006, q=0.045), and "TNF signaling pathway"(p=0.006, q=0.045) in KEGG enrichment analysis. qPCR amplification experiment verified that the expression of OASL and IL6 increased significantly in the AECOPD group. Conclusion: Pulmonary bacteria dysbiosis may regulate the pathogenesis of AECOPD through innate immune system pathways like type I interferon signaling pathway and Toll-like receptor signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

24. CD11b maintains West Nile virus replication through modulation of immune response in human neuroblastoma cells.

Author

Liu, Yan-Gang, Peng, Hao-Ran, Ren, Rui-Wen, Zhao, Ping, and Zhao, Lan-Juan

Subjects

WEST Nile virus, IMMUNOREGULATION, VIRAL replication, IMMUNE response, GENE expression, MOSQUITO control

Abstract

Background: West Nile virus (WNV) is a rapidly spreading mosquito-borne virus accounted for neuroinvasive diseases. An insight into WNV-host factors interaction is necessary for development of therapeutic approaches against WNV infection. CD11b has key biological functions and been identified as a therapeutic target for several human diseases. The purpose of this study was to determine whether CD11b was implicated in WNV infection. Methods: SH-SY5Y cells with and without MEK1/2 inhibitor U0126 or AKT inhibitor MK-2206 treatment were infected with WNV. CD11b mRNA levels were assessed by real-time PCR. WNV replication and expression of stress (ATF6 and CHOP), pro-inflammatory (TNF-α), and antiviral (IFN-α, IFN-β, and IFN-γ) factors were evaluated in WNV-infected SH-SY5Y cells with CD11b siRNA transfection. Cell viability was determined by MTS assay. Results: CD11b mRNA expression was remarkably up-regulated by WNV in a time-dependent manner. U0126 but not MK-2206 treatment reduced the CD11b induction by WNV. CD11b knockdown significantly decreased WNV replication and protected the infected cells. CD11b knockdown markedly increased TNF-α, IFN-α, IFN-β, and IFN-γ mRNA expression induced by WNV. ATF6 mRNA expression was reduced upon CD11b knockdown following WNV infection. Conclusion: These results demonstrate that CD11b is involved in maintaining WNV replication and modulating inflammatory as well as antiviral immune response, highlighting the potential of CD11b as a target for therapeutics for WNV infection. [ABSTRACT FROM AUTHOR]

Published

2024

25. Evaluating Immunomodulatory Effects and Cytokine Changes by Propranolol Following Surgical Stress in Male Rats.

Author

Azarhosh, Milad, Ghashghaei, Ali, Pooyanmehr, Mehrdad, Maleki, Ali, and Alimohammadi, Samad

Subjects

CYTOKINES, PROPRANOLOL, IMMUNOSUPPRESSION, INTERLEUKIN-2, LEUKOCYTES

Abstract

Background: Surgery through different mechanisms causes immunosuppression in the postoperative period. Objectives: This study aimed to investigate the effects of preoperative administration of propranolol on blood levels of interleukin-2 (IL-2), interferon-γ (IFN-γ), tumor necrosis factor-α (TNF-α), and hematological parameters, such as white blood cells (WBCs) and lymphocytes. Methods: Forty-five Wistar male rats were divided into three groups. Group 1 (normal control) was injected with normal saline. Groups 2 and 3 were injected subcutaneously with 4 mg/kg of the propranolol (P4) and 8 mg/kg of the propranolol (P8), respectively. Blood samples were collected (before, immediately, 6, 24, and 72 hours after surgery). Then, the IL-2, IFN-γ, TNF-α, WBCs, and lymphocytes levels were determined at different time points. The data were analyzed by one-way ANOVA and the Pearson-test at a significant level of P≤0.05. Results: The results showed a higher level of IL-2 in the P8 and P4 groups with a significant difference compared to the control group (P≤0.05). TNF-α was decreased significantly in the P8 compared to the P4 and control groups (P≤0.05). The P4 has shown a lower level of IFN-γ compared to the P8 and control groups with a significant diference (P≤0.05). Conclusion: It appears that propranolol has considerable immunomodulatory effects on immune responses. Therefore, perioperative use of propranolol may improve immune system function. [ABSTRACT FROM AUTHOR]

Published

2024

26. African swine fever virus structural protein p17 inhibits IRF3 activation by recruiting host protein PR65A and inducing apoptotic degradation of STING.

Author

Shimin Wang, Zhiyong Xiang, Peng Gao, Yongning Zhang, Lei Zhou, Xinna Ge, Xin Guo, Jun Han, and Hanchun Yang

Subjects

AFRICAN swine fever virus, CYTOSKELETAL proteins, SCAFFOLD proteins, MEMBRANE proteins, VIRAL envelopes, VIRAL proteins

Abstract

African swine fever virus (ASFV) is notoriously known for evolving strategies to modulate IFN signaling. Despite lots of efforts, the underlying mechanisms have remained incompletely understood. This study concerns the regulatory role of viral inner membrane protein p17. We found that the ASFV p17 shows a preferential interaction with cGAS-STING-IRF3 pathway, but not the RIG-IMAVS-NF-κB signaling, and can inhibit both poly(I:C)- and poly(A:T)-induced activation of IRF3, leading to attenuation of IFN-β induction. Mechanistically, p17 interacts with STING and IRF3 and recruits host scaffold protein PR65A, a subunit of cellular phosphatase PP2A, to down-regulate the level of p-IRF3. Also, p17 targets STING for partial degradation via induction of cellular apoptosis that consequently inhibits activation of both p-TBK1 and p-IRF3. Thus, our findings reveal novel regulatory mechanisms for p17 modulation of IFN signaling and shed light on the intricate interplay between ASFV proteins and host immunity. [ABSTRACT FROM AUTHOR]

Published

2024

27. Corrigendum: Isolation of Limosilactobacillus mucosae G01 with inhibitory effects on porcine epidemic diarrhea virus in vitro from Bama pig gastroenteritis

Author

Bin Zhang, Haiyan Shen, Hongchao Gou, Nile Wuri, Chunhong Zhang, Zhicheng Liu, Haiyan He, Jingjing Nie, Yunzhi Qu, Letu Geri, and Jianfeng Zhang

Subjects

PEDV, antiviral activity, L. mucosae G01, IFN, Bama pig, Microbiology, QR1-502

Published

2024

28. Novel goose parvovirus VP1 targets IRF7 protein to block the type I interferon upstream signaling pathway

Author

You-tian Yang, Zhi-chao Deng, Liu-jun Zhang, Xin-liang Fu, Chen Fu, Xiao-zhi Zhan, Yun-bo Tian, and Wen-jun Liu

Subjects

NGPV, IFN, cGAS-STING, IRF-7, immune evasion, Animal culture, SF1-1100

Abstract

ABSTRACT: Outbreaks of short beak and dwarfism syndrome (SBDS), caused by a novel goose parvovirus (NGPV), have occurred in China since 2015. The NGPV, a single-stranded DNA virus, is thought to be vertically transmitted. However, the mechanism of NGPV immune evasion remains unclear. In this study, we investigated the impact of NGPV infection on the Cyclic GMP–AMP synthase (cGAS)–stimulator of interferon genes (STING) signaling pathway in duck embryonic fibroblast (DEF) cells. Our findings demonstrate that NGPV infection stimulates the mRNA expression of cGAS but results in weak IFN-β induction. NGPV impedes the expression of IFN-β and downstream interferon-stimulated genes, thereby reducing the secretion of IFN-β induced by interferon-stimulating DNA (ISD) and poly (I: C). RNA-seq results show that NGPV infection downregulates interferon mRNA expression while enhancing the mRNA expression of inflammatory factors. Additionally, the results of viral protein over-expression indicate that VP1 exhibits a remarkable ability to inhibit IFN-β expression compared to other viral proteins. Results indicated that only the intact VP1 protein could inhibit the expression of IFN-β, while the truncated proteins VP1U and VP2 do not possess such characteristics. The immunoprecipitation experiment showed that both VP1 and VP2 could interact with IRF7 protein, while VP1U does not. In summary, our findings indicate that NGPV infection impairs the host's innate immune response by potentially modulating the expression and secretion of interferons and interferon-stimulating factors via IRF7 molecules, which are regulated by the VP1 protein.

Published

2024

29. Therapeutic efficacy of a novel self-assembled immunostimulatory siRNA combining apoptosis promotion with RIG-I activation in gliomas

Author

Junxiao Chen, Ziyuan Liu, Haiting Fang, Qing Su, Yiqi Fan, Luyao Song, and Shuai He

Subjects

Immunostimulatory RNAs, RIG-I, Glioma, MHC-I, Apoptosis, IFN, Medicine

Abstract

Abstract Background Current cancer therapies often fall short in addressing the complexities of malignancies, underscoring the urgent need for innovative treatment strategies. RNA interference technology, which specifically suppresses gene expression, offers a promising new approach in the fight against tumors. Recent studies have identified a novel immunostimulatory small-interfering RNA (siRNA) with a unique sequence (sense strand, 5’-C; antisense strand, 3’-GGG) capable of activating the RIG-I/IRF3 signaling pathway. This activation induces the release of type I and III interferons, leading to an effective antiviral immune response. However, this class of immunostimulatory siRNA has not yet been explored in cancer therapy. Methods IsiBCL-2, an innovative immunostimulatory siRNA designed to suppress the levels of B-cell lymphoma 2 (BCL-2), contains a distinctive motif (sense strand, 5’-C; antisense strand, 3’-GGG). Glioblastoma cells were subjected to 100 nM isiBCL-2 treatment in vitro for 48 h. Morphological changes, cell viability (CCK-8 assay), proliferation (colony formation assay), migration/invasion (scratch test and Transwell assay), apoptosis rate, reactive oxygen species (ROS), and mitochondrial membrane potential (MMP) were evaluated. Western blotting and immunofluorescence analyses were performed to assess RIG-I and MHC-I molecule levels, and ELISA was utilized to measure the levels of cytokines (IFN-β and CXCL10). In vivo heterogeneous tumor models were established, and the anti-tumor effect of isiBCL-2 was confirmed through intratumoral injection. Results IsiBCL-2 exhibited significant inhibitory effects on glioblastoma cell growth and induced apoptosis. BCL-2 mRNA levels were significantly decreased by 67.52%. IsiBCL-2 treatment resulted in an apoptotic rate of approximately 51.96%, accompanied by a 71.76% reduction in MMP and a 41.87% increase in ROS accumulation. Western blotting and immunofluorescence analyses demonstrated increased levels of RIG-I, MAVS, and MHC-I following isiBCL-2 treatment. ELISA tests indicated a significant increase in IFN-β and CXCL10 levels. In vivo studies using nude mice confirmed that isiBCL-2 effectively impeded the growth and progression of glioblastoma tumors. Conclusions This study introduces an innovative method to induce innate signaling by incorporating an immunostimulatory sequence (sense strand, 5’-C; antisense strand, 3’-GGG) into siRNA, resulting in the formation of RNA dimers through Hoogsteen base-pairing. This activation triggers the RIG-I signaling pathway in tumor cells, causing further damage and inducing a potent immune response. This inventive design and application of immunostimulatory siRNA offer a novel perspective on tumor immunotherapy, holding significant implications for the field.

Published

2024

30. Corrigendum: Isolation of Limosilactobacillus mucosae G01 with inhibitory effects on porcine epidemic diarrhea virus in vitro from Bama pig gastroenteritis.

Subjects

PORCINE epidemic diarrhea virus, VETERINARY therapeutics, AGRICULTURE, WESTERN immunoblotting, GENE expression

Abstract

The document is a corrigendum published in Frontiers in Microbiology on October 16, 2024, regarding the article "Isolation of Limosilactobacillus mucosae G01 with inhibitory effects on porcine epidemic diarrhea virus in vitro from Bama pig gastroenteritis." The correction addresses errors in Figures 4C and 5C of the original article, where some images were repeated due to data processing issues. The authors emphasize that these errors do not impact the scientific conclusions of the study. The document provides detailed information on the methodology and results of the study, focusing on the antiviral activity of Limosilactobacillus mucosae G01 against porcine epidemic diarrhea virus. [Extracted from the article]

Published

2024

31. cGAS-STING signaling in cardiovascular diseases.

Author

Qianxin Zhang, Lijuan Shen, Hongbiao Ruan, and Zhouqing Huang

Subjects

TYPE I interferons, CARDIOVASCULAR diseases, THERAPEUTICS, INFLAMMATION, NUCLEIC acids

Abstract

Sterile inflammation, characterized by a persistent chronic inflammatory state, significantly contributes to the progression of various diseases such as autoimmune, metabolic, neurodegenerative, and cardiovascular disorders. Recent evidence has increasingly highlighted the intricate connection between inflammatory responses and cardiovascular diseases, underscoring the pivotal role of the Stimulator of Interferon Genes (STING). STING is crucial for the secretion of type I interferon (IFN) and proinflammatory cytokines in response to cytosolic nucleic acids, playing a vital role in the innate immune system. Specifically, research has underscored the STING pathway involvement in unregulated inflammations, where its aberrant activation leads to a surge in inflammatory events, enhanced IFN I responses, and cell death. The primary pathway triggering STING activation is the cyclic GMP-AMP synthase (cGAS) pathway. This review delves into recent findings on STING and the cGAS-STING pathways, focusing on their regulatory mechanisms and impact on cardiovascular diseases. It also discusses the latest advancements in identifying antagonists targeting cGAS and STING, and concludes by assessing the potential of cGAS or STING inhibitors as treatments for cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2024

32. Transcription of NOD1 and NOD2 and their interaction with CARD9 and RIPK2 in IFN signaling in a perciform fish, the Chinese perch, Siniperca chuatsi.

Author

Xue Yun Peng, Kai Lun Wang, Li Li, Bo Li, Xiang Yang Wu, Zhi Wei Zhang, Nan Li, Lan Hao Liu, Nie, P., and Shan Nan Chen

Subjects

TRANSGENIC organisms, IMMUNE response, NF-kappa B, IMMUNOFLUORESCENCE, OLIGOMERIZATION

Abstract

NOD1 and NOD2 as two representative members of nucleotide-binding oligomerization domain (NOD)-like receptor (NLR) family play important roles in antimicrobial immunity. However, transcription mechanism of nod1 and nod2 and their signal circle are less understood in teleost fish. In this study, with the cloning of card9 and ripk2 in Chinese perch, the interaction between NOD1, NOD2, and CARD9 and RIPK2 were revealed through coimmunoprecipitation and immunofluorescence assays. The overexpression of NOD1, NOD2, RIPK2 and CARD9 induced significantly the promoter activity of NF-kB, IFNh and IFNc. Furthermore, it was found that nod1 and nod2 were induced by poly(I:C), type I IFNs, RLR and even NOD1/NOD2 themselves through the ISRE site of their proximal promoters. It is thus indicated that nod1 and nod2 can be classified also as ISGs due to the presence of ISRE in their proximal promoter, and their expression can be mechanistically controlled through PRR pathway as well as through IFN signaling in antiviral immune response. [ABSTRACT FROM AUTHOR]

Published

2024

33. Meta-DHGNN: method for CRS-related cytokines analysis in CAR-T therapy based on meta-learning directed heterogeneous graph neural network.

Author

Wei, Zhenyu, Zhao, Chengkui, Zhang, Min, Xu, Jiayu, Xu, Nan, Wu, Shiwei, Xin, Xiaohui, Yu, Lei, and Feng, Weixing

Subjects

*GRAPH neural networks, *DIRECTED graphs, *CYTOKINE release syndrome, *CYTOKINES, *CHIMERIC antigen receptors

Abstract

Chimeric antigen receptor T-cell (CAR-T) immunotherapy, a novel approach for treating blood cancer, is associated with the production of cytokine release syndrome (CRS), which poses significant safety concerns for patients. Currently, there is limited knowledge regarding CRS-related cytokines and the intricate relationship between cytokines and cells. Therefore, it is imperative to explore a reliable and efficient computational method to identify cytokines associated with CRS. In this study, we propose Meta-DHGNN, a directed and heterogeneous graph neural network analysis method based on meta-learning. The proposed method integrates both directed and heterogeneous algorithms, while the meta-learning module effectively addresses the issue of limited data availability. This approach enables comprehensive analysis of the cytokine network and accurate prediction of CRS-related cytokines. Firstly, to tackle the challenge posed by small datasets, a pre-training phase is conducted using the meta-learning module. Consequently, the directed algorithm constructs an adjacency matrix that accurately captures potential relationships in a more realistic manner. Ultimately, the heterogeneous algorithm employs meta-photographs and multi-head attention mechanisms to enhance the realism and accuracy of predicting cytokine information associated with positive labels. Our experimental verification on the dataset demonstrates that Meta-DHGNN achieves favorable outcomes. Furthermore, based on the predicted results, we have explored the multifaceted formation mechanism of CRS in CAR-T therapy from various perspectives and identified several cytokines, such as IFNG (IFN-γ), IFNA1, IFNB1, IFNA13, IFNA2, IFNAR1, IFNAR2, IFNGR1 and IFNGR2 that have been relatively overlooked in previous studies but potentially play pivotal roles. The significance of Meta-DHGNN lies in its ability to analyze directed and heterogeneous networks in biology effectively while also facilitating CRS risk prediction in CAR-T therapy. [ABSTRACT FROM AUTHOR]

Published

2024

34. PANoptosis Features, a Humanized NSG Murine Model of Sjogren's Syndrome.

Author

Yang, Yiying, Zhang, Huali, Xiao, Xiaoyu, and Guo, Muyao

Subjects

*LABORATORY mice, *SJOGREN'S syndrome, *LUNGS, *SALIVARY glands, *MONONUCLEAR leukocytes, *SYSTEMIC lupus erythematosus, *SUBMANDIBULAR gland

Abstract

Sjogren's syndrome (SS) is a complex systemic autoimmune disease. This study aims to elucidate a humanized NOD-PrkdcscidIl2rgem1/Smoc (NSG) murine model to better clarify the pathogenesis of SS. NSG female mice were adoptively transferred with 10 million peripheral blood mononuclear cells (PBMCs) through the tail vein from healthy controls (HCs), primary Sjogren's syndrome (pSS), and systemic lupus erythematosus (SLE) patients on D0. The mice were subcutaneously injected with C57/B6j submandibular gland (SG) protein or phosphate-buffered saline on D3, D17 and D31, respectively. NSG mice were successfully transplanted with human PBMCs. Compared with NSG-HC group, NSG-pSS and NSG-SLE mice exhibited a large number of lymphocytes infiltration in the SG, decreased salivary flow rate, lung involvement, decreased expression of genes related to salivary secretion, and the production of autoantibodies. Type I interferon-related genes were increased in the SG of NSG-pSS and NSG-SLE mice. The ratio of BAX/BCL2, BAX, cleaved caspase3, and TUNEL staining were increased in the SG of NSG-pSS and NSG-SLE mice. The expressions of p-MLKL and p-RIPK3 were increased in the SG of NSG-pSS and NSG-SLE mice. Increased expression of type I interferon-related genes, PANoptosis (apoptosis and necroptosis) were identified in the SG of this typical humanized NSG murine model of SS. [ABSTRACT FROM AUTHOR]

Published

2024

35. Harnessing the power of IFN for therapeutic approaches to COVID-19.

Author

Viox, Elise G., Bosinger, Steven E., Douek, Daniel C., Schreiber, Gideon, and Paiardini, Mirko

Subjects

*COVID-19 pandemic, *COVID-19, *VIRUS diseases, *INTERFERONS, *TYPE I interferons, *VIRAL replication, *SARS-CoV-2

Abstract

Interferons (IFNs) are essential for defense against viral infections but also drive recruitment of inflammatory cells to sites of infection, a key feature of severe COVID-19. Here, we explore the complexity of the IFN response in COVID-19, examine the effects of manipulating IFN on SARS-CoV-2 viral replication and pathogenesis, and highlight pre-clinical and clinical studies evaluating the therapeutic efficacy of IFN in limiting COVID-19 severity. [ABSTRACT FROM AUTHOR]

Published

2024

36. Therapeutic efficacy of a novel self-assembled immunostimulatory siRNA combining apoptosis promotion with RIG-I activation in gliomas.

Author

Chen, Junxiao, Liu, Ziyuan, Fang, Haiting, Su, Qing, Fan, Yiqi, Song, Luyao, and He, Shuai

Subjects

RNA interference, SMALL interfering RNA, TREATMENT effectiveness, TYPE I interferons, APOPTOSIS

Abstract

Background: Current cancer therapies often fall short in addressing the complexities of malignancies, underscoring the urgent need for innovative treatment strategies. RNA interference technology, which specifically suppresses gene expression, offers a promising new approach in the fight against tumors. Recent studies have identified a novel immunostimulatory small-interfering RNA (siRNA) with a unique sequence (sense strand, 5'-C; antisense strand, 3'-GGG) capable of activating the RIG-I/IRF3 signaling pathway. This activation induces the release of type I and III interferons, leading to an effective antiviral immune response. However, this class of immunostimulatory siRNA has not yet been explored in cancer therapy. Methods: IsiBCL-2, an innovative immunostimulatory siRNA designed to suppress the levels of B-cell lymphoma 2 (BCL-2), contains a distinctive motif (sense strand, 5'-C; antisense strand, 3'-GGG). Glioblastoma cells were subjected to 100 nM isiBCL-2 treatment in vitro for 48 h. Morphological changes, cell viability (CCK-8 assay), proliferation (colony formation assay), migration/invasion (scratch test and Transwell assay), apoptosis rate, reactive oxygen species (ROS), and mitochondrial membrane potential (MMP) were evaluated. Western blotting and immunofluorescence analyses were performed to assess RIG-I and MHC-I molecule levels, and ELISA was utilized to measure the levels of cytokines (IFN-β and CXCL10). In vivo heterogeneous tumor models were established, and the anti-tumor effect of isiBCL-2 was confirmed through intratumoral injection. Results: IsiBCL-2 exhibited significant inhibitory effects on glioblastoma cell growth and induced apoptosis. BCL-2 mRNA levels were significantly decreased by 67.52%. IsiBCL-2 treatment resulted in an apoptotic rate of approximately 51.96%, accompanied by a 71.76% reduction in MMP and a 41.87% increase in ROS accumulation. Western blotting and immunofluorescence analyses demonstrated increased levels of RIG-I, MAVS, and MHC-I following isiBCL-2 treatment. ELISA tests indicated a significant increase in IFN-β and CXCL10 levels. In vivo studies using nude mice confirmed that isiBCL-2 effectively impeded the growth and progression of glioblastoma tumors. Conclusions: This study introduces an innovative method to induce innate signaling by incorporating an immunostimulatory sequence (sense strand, 5'-C; antisense strand, 3'-GGG) into siRNA, resulting in the formation of RNA dimers through Hoogsteen base-pairing. This activation triggers the RIG-I signaling pathway in tumor cells, causing further damage and inducing a potent immune response. This inventive design and application of immunostimulatory siRNA offer a novel perspective on tumor immunotherapy, holding significant implications for the field. [ABSTRACT FROM AUTHOR]

Published

2024

37. Prophylactic treatment with PEGylated bovine IFNλ3 effectively bridges the gap in vaccine-induced immunity against FMD in cattle.

Author

Attreed, Sarah E., Silva, Christina, Rodriguez-Calzada, Monica, Mogulothu, Aishwarya, Abbott, Sophia, Azzinaro, Paul, Canning, Peter, Skidmore, Lillian, Nelson, Jay, Knudsen, Nick, Medina, Gisselle N., de los Santos, Teresa, and Segundo, Fayna Díaz-San

Subjects

CATTLE, COMBINED vaccines, BOS, ANIMAL diseases, VIRUS diseases, FOOT & mouth disease

Abstract

Foot-and-mouth disease (FMD) is a vesicular disease of cloven-hoofed animals with devastating economic implications. The current FMD vaccine, routinely used in enzootic countries, requires at least 7 days to induce protection. However, FMD vaccination is typically not recommended for use in non-enzootic areas, underscoring the need to develop new fast-acting therapies for FMD control during outbreaks. Interferons (IFNs) are among the immune system's first line of defense against viral infections. Bovine type III IFN delivered by a replication defective adenovirus (Ad) vector has effectively blocked FMD in cattle. However, the limited duration of protection--usually only 1-3 days post-treatment (dpt)--diminishes its utility as a field therapeutic. Here, we test whether polyethylene glycosylation (PEGylation) of recombinant bovine IFNλ3 (PEGboIFNλ3) can extend the duration of IFN-induced prevention of FMDV infection in both vaccinated and unvaccinated cattle. We treated groups of heifers with PEGboIFNλ3 alone or in combination with an adenovirus-based FMD O1Manisa vaccine (Adt-O1M) at either 3 or 5 days prior to challenge with homologous wild type FMDV. We found that pre-treatment with PEGboIFNλ3 was highly effective at preventing clinical FMD when administered at either time point, with or without co-administration of Adt-O1M vaccine. PEGboIFNλ3 protein was detectable systemically for >10 days and antiviral activity for 4 days following administration. Furthermore, in combination with Adt-O1M vaccine, we observed a strong induction of FMDV-specific IFNγ+ T cell response, demonstrating its adjuvanticity when co-administered with a vaccine. Our results demonstrate the promise of this modified IFN as a pre-exposure prophylactic therapy for use in emergency outbreak scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

38. Bat STING drives IFN-beta production in anti-RNA virus innate immune response.

Author

Feiyu Fu, Qi Shao, Jianjian Zhang, Jie Wang, Zhaofei Wang, Jingjiao Ma, Yaxian Yan, Jianhe Sun, and Yuqiang Cheng

Subjects

RNA virus infections, GREEN fluorescent protein, GENE expression, VESICULAR stomatitis, IMMUNE response, INTERFERON receptors

Abstract

The ability of stimulator of interferon genes (STING) to activate interferon (IFN) responses during RNA virus infection has been demonstrated in different mammalian cells. Despite being the host of numerous RNA viruses, the role of STING in bats during RNA virus infection has not been elucidated. In this study, we identified and cloned the STING gene of the Brazilian free-tailed bat Tadarida brasiliensis (T. brasiliensis) and tested its ability to induce IFN-ß by overexpressing and knocking down bat STING (BatSTING) in T. brasiliensis 1 lung (TB1 Lu) cells. In addition, we used green fluorescent protein (GFP)-labeled vesicular stomatitis virus (VSV) VSV-GFP as a model to detect the antiviral activity of BatSTING. The results showed that overexpression of STING in TB1 Lu cells stimulated by cGAS significantly inhibited RNA virus replication, and the antiviral activities were associated with its ability to regulate basal expression of IFN-ß and some IFN stimulated genes (ISGs). We also found that BatSTING was able to be activated after stimulation by diverse RNA viruses. The results of TB1 Lu cells with STING deficiency showed that knockdown of BatSTING severely hindered the IFN-ß response triggered by VSV-GFP. Based on this, we confirm that BatSTING is required to induce IFN-ß expression during RNA virus infection. In conclusion, our experimental data clearly show that STING in bat hosts plays an irreplaceable role in mediating IFN-ß responses and anti-RNA virus infection. [ABSTRACT FROM AUTHOR]

Published

2024

39. Exploring type I interferon pathway: virulent vs. attenuated strain of African swine fever virus revealing a novel function carried by MGF505-4R.

Author

Dupré, Juliette, le Le Dimna, Mireil, Hutet, Evelyne, Dujardin, Pascal, Fablet, Aurore, Leroy, Aurélien, Fleurot, Isabelle, Karadjian, Grégory, Roesch, Ferdinand, Caballero, Ignacio, Bourry, Olivier, Vitour, Damien, Le Potier, Marie-Frédé rique, and Caignard, Grégory

Subjects

AFRICAN swine fever virus, TYPE I interferons, ACTINOBACILLUS pleuropneumoniae, GENE expression, ALVEOLAR macrophages, VIRAL genes

Abstract

African swine fever virus represents a significant reemerging threat to livestock populations, as its incidence and geographic distribution have surged over the past decade in Europe, Asia, and Caribbean, resulting in substantial socio-economic burdens and adverse effects on animal health and welfare. In a previous report, we described the protective properties of our newly thermo-attenuated strain (ASFV- 989) in pigs against an experimental infection of its parental Georgia 2007/1 virulent strain. In this new study, our objective was to characterize the molecular mechanisms underlying the attenuation of ASFV-989. We first compared the activation of type I interferon pathway in response to ASFV-989 and Georgia 2007/1 infections, employing both in vivo and in vitro models. Expression of IFN-a was significantly increased in porcine alveolar macrophages infected with ASFV-989 while pigs infectedwith Georgia 2007/1 showed higher IFN-a than those infected by ASFV-989. We also used a medium-throughput transcriptomic approach to study the expression of viral genes by both strains, and identified several patterns of gene expression. Subsequently, we investigated whether proteins encoded by the eight genes deleted in ASFV-989 contribute to the modulation of the type I interferon signaling pathway. Using different strategies, we showed that MGF505-4R interfered with the induction of IFN-α/β pathway, likely through interaction with TRAF3. Altogether, our data reveal key differences between ASFV-989 and Georgia 2007/ 1 in their ability to control IFN-α/β signaling and provide molecular mechanisms underlying the role of MGF505-4R as a virulence factor. [ABSTRACT FROM AUTHOR]

Published

2024

40. Relationships between Type 1 interferon signatures and clinical features of the new-onset lupus patients in Japan.

Author

Yuri Shirahama, Aki Hashimoto, Nobuyuki Ono, Yukiko Takeyama, Akihito Maruyama, Takuya Inoue, Yoshifumi Tada, and Hiroaki Niiro

Subjects

*TYPE I interferons, *LEUCOCYTES, *SYSTEMIC lupus erythematosus, *HOSPITAL admission & discharge, *DNA antibodies

Abstract

Objectives: The objective of the study is to investigate the relationships between Type 1 interferon (T1-IFN) signatures and clinical characteristics of lupus patients. Methods: We examined 49 new-onset lupus patients who were diagnosed between 1999 and 2017. The patients treated with >10 mg of prednisolone or hydroxychloroquine were excluded from this study. Serum T1-IFN signatures were revealed by a functional reporter assay and standardized by recombinant IFN-α. Patient backgrounds, clinical findings, and treatments were retrospectively extracted from their electrical medical records. Clinical data were also available, including SLE Disease Activity Index of SLE patients on admission. Results: T1-IFN signatures of lupus patients closely correlated with lupus disease activities, such as SLE Disease Activity Index-2K, white blood cell, C3 levels, and the titre of double-strand DNA antibody. We found fever and acute lupus dermatitis closely associated with T1-IFN signature. Conclusions: In lupus patients, fever and acute lupus dermatitis are good indicators of a strong T1-IFN signature. [ABSTRACT FROM AUTHOR]

Published

2024

41. African swine fever virus pH240R enhances viral replication via inhibition of the type I IFN signaling pathway.

Author

Guangqiang Ye, Zhaoxia Zhang, Xiaohong Liu, Hongyang Liu, Weiye Chen, Chunying Feng, Jiangnan Li, Qiongqiong Zhou, Dongming Zhao, Shuai Zhang, Hefeng Chen, Zhigao Bu, Li Huang, and Changjiang Weng

Subjects

*AFRICAN swine fever virus, *CLASSICAL swine fever, *VIRAL replication, *JAK-STAT pathway, *CELLULAR signal transduction, *AFRICAN swine fever, *TYPE I interferons

Abstract

African swine fever (ASF) is an acute, hemorrhagic, and severe infectious disease caused by ASF virus (ASFV) infection. At present, there are still no safe and effective drugs and vaccines to prevent ASF. Mining the important proteins encoded by ASFV that affect the virulence and replication of ASFV is the key to developing effective vaccines and drugs. In this study, ASFV pH240R, a capsid protein of ASFV, was found to inhibit the type I interferon (IFN) signaling pathway. Mechanistically, pH240R interacted with IFNAR1 and IFNAR2 to disrupt the interaction of IFNAR1-TYK2 and IFNAR2-JAK1. Additionally, pH240R inhibited the phosphorylation of IFNAR1, TYK2, and JAK1 induced by IFN-a, resulting in the suppression of the nuclear import of STAT1 and STAT2 and the expression of IFN-stimulated genes (ISGs). Consistent with these results, H240R-deficient ASFV (ASFV-ΔH240R) infection induced more ISGs in porcine alveolar macrophages compared with its parental ASFV HLJ/18. We also found that pH240R enhanced viral replication via inhibition of ISGs expression. Taken together, our results clarify that pH240R enhances ASFV replication by inhibiting the JAK-STAT signaling pathway, which highlights the possibility of pH240R as a potential drug target. [ABSTRACT FROM AUTHOR]

Published

2024

42. RBM14 inhibits the replication of porcine epidemic diarrhea virus by recruiting p62 to degrade nucleocapsid protein through the activation of autophagy and interferon pathway.

Author

Xiaoquan Wang, Wu Tong, Xinyu Yang, Huanjie Zhai, Wenzhen Qin, Changlong Liu, Hao Zheng, Hai Yu, Guangzhi Tong, Zhendong Zhang, Ning Kong, and Tongling Shan

Subjects

*PORCINE epidemic diarrhea virus, *AUTOPHAGY, *RNA-binding proteins, *VIRAL proteins, *INTERFERONS, *INTESTINAL diseases

Abstract

Porcine epidemic diarrhea virus (PEDV) results in PED, which is an infectious intestinal disease with the representative features of diarrhea, vomiting, and dehydration. PEDV infects neonatal piglets, causing high mortality rates. Therefore, elucidating the interaction between the virus and host in preventing and controlling PEDV infection is of immense significance. We found a new antiviral function of the host protein, RNA-binding motif protein 14 (RBM14), which can inhibit PEDV replication via the activation of autophagy and interferon (IFN) signal pathways. We found that RBM14 can recruit cargo receptor p62 to degrade PEDV nucleocapsid (N) protein through the RBM14-p62-autophagosome pathway. Furthermore, RBM14 can also improve the antiviral ability of the hosts through interacting with mitochondrial antiviral signaling protein to induce IFN expression. These results highlight the novel mechanism underlying RBM14-induced viral restriction. This mechanism leads to the degradation of viral N protein via the autophagy pathway and upregulates IFN for inhibiting PEDV replication; thus, offering new ways for preventing and controlling PED. [ABSTRACT FROM AUTHOR]

Published

2024

43. Antiviral Effects of Avian Interferon-Stimulated Genes

Author

Xingchen He, Shiyuan Zhang, Ziheng Zou, Pei Gao, Liangyu Yang, and Bin Xiang

Subjects

avian, ISG, antiviral, IFN, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Interferons (IFNs) stimulate the expression of numerous IFN-stimulating genes via the Janus kinase-signal transducers and activators of the transcription (JAK-STAT) signaling pathway, which plays an important role in the host defense against viral infections. In mammals, including humans and mice, a substantial number of IFN-stimulated genes (ISGs) have been identified, and their molecular mechanisms have been elucidated. It is important to note that avian species are phylogenetically distant from mammals, resulting in distinct IFN-induced ISGs that may have different functions. At present, only a limited number of avian ISGs have been identified. In this review, we summarized the identified avian ISGs and their antiviral activities. As gene-editing technology is widely used in avian breeding, the identification of avian ISGs and the elucidation of their molecular mechanism may provide important support for the breeding of avians for disease resistance.

Published

2024

44. Effect of Nicotine on Advanced Glycation End Product-Induced Immune Response in Human Monocytes

Author

Takahashi, Hideo Kohka, Liu, Keyue, Wake, Hidenori, Mori, Shuji, Zhang, Jiyong, Liu, Rui, Yoshino, Tadashi, and Nishibori, Masahiro

Published

2010

45. Effect of Tumor Necrosis Factor-Related Apoptosis-Inducing Ligand on the Reduction of Joint Inflammation in Experimental Rheumatoid Arthritis

Author

Jin, Cheng-Hao, Chae, Su Young, Kim, Tae Hyung, Yang, Han-Kwang, Lee, Eun Young, Song, Yeong Wook, Jo, Dong-Gyu, and Lee, Kang Choon

Published

2010

46. Prophylactic treatment with PEGylated bovine IFNλ3 effectively bridges the gap in vaccine-induced immunity against FMD in cattle

Author

Sarah E. Attreed, Christina Silva, Monica Rodriguez-Calzada, Aishwarya Mogulothu, Sophia Abbott, Paul Azzinaro, Peter Canning, Lillian Skidmore, Jay Nelson, Nick Knudsen, Gisselle N. Medina, Teresa de los Santos, and Fayna Díaz-San Segundo

Subjects

FMDV, foot-and-mouth disease, type III interferon, IFN, IFNλ3, IL28B, Microbiology, QR1-502

Abstract

Foot-and-mouth disease (FMD) is a vesicular disease of cloven-hoofed animals with devastating economic implications. The current FMD vaccine, routinely used in enzootic countries, requires at least 7 days to induce protection. However, FMD vaccination is typically not recommended for use in non-enzootic areas, underscoring the need to develop new fast-acting therapies for FMD control during outbreaks. Interferons (IFNs) are among the immune system’s first line of defense against viral infections. Bovine type III IFN delivered by a replication defective adenovirus (Ad) vector has effectively blocked FMD in cattle. However, the limited duration of protection—usually only 1–3 days post-treatment (dpt)—diminishes its utility as a field therapeutic. Here, we test whether polyethylene glycosylation (PEGylation) of recombinant bovine IFNλ3 (PEGboIFNλ3) can extend the duration of IFN-induced prevention of FMDV infection in both vaccinated and unvaccinated cattle. We treated groups of heifers with PEGboIFNλ3 alone or in combination with an adenovirus-based FMD O1Manisa vaccine (Adt-O1M) at either 3 or 5 days prior to challenge with homologous wild type FMDV. We found that pre-treatment with PEGboIFNλ3 was highly effective at preventing clinical FMD when administered at either time point, with or without co-administration of Adt-O1M vaccine. PEGboIFNλ3 protein was detectable systemically for >10 days and antiviral activity for 4 days following administration. Furthermore, in combination with Adt-O1M vaccine, we observed a strong induction of FMDV-specific IFNγ+ T cell response, demonstrating its adjuvanticity when co-administered with a vaccine. Our results demonstrate the promise of this modified IFN as a pre-exposure prophylactic therapy for use in emergency outbreak scenarios.

Published

2024

47. Exploring type I interferon pathway: virulent vs. attenuated strain of African swine fever virus revealing a novel function carried by MGF505-4R

Author

Juliette Dupré, Mireille Le Dimna, Evelyne Hutet, Pascal Dujardin, Aurore Fablet, Aurélien Leroy, Isabelle Fleurot, Grégory Karadjian, Ferdinand Roesch, Ignacio Caballero, Olivier Bourry, Damien Vitour, Marie-Frédérique Le Potier, and Grégory Caignard

Subjects

African Swine Fever Virus, IFN, viral immune evasion, virulence factor, TRAF3, Immunologic diseases. Allergy, RC581-607

Abstract

African swine fever virus represents a significant reemerging threat to livestock populations, as its incidence and geographic distribution have surged over the past decade in Europe, Asia, and Caribbean, resulting in substantial socio-economic burdens and adverse effects on animal health and welfare. In a previous report, we described the protective properties of our newly thermo-attenuated strain (ASFV-989) in pigs against an experimental infection of its parental Georgia 2007/1 virulent strain. In this new study, our objective was to characterize the molecular mechanisms underlying the attenuation of ASFV-989. We first compared the activation of type I interferon pathway in response to ASFV-989 and Georgia 2007/1 infections, employing both in vivo and in vitro models. Expression of IFN-α was significantly increased in porcine alveolar macrophages infected with ASFV-989 while pigs infected with Georgia 2007/1 showed higher IFN-α than those infected by ASFV-989. We also used a medium-throughput transcriptomic approach to study the expression of viral genes by both strains, and identified several patterns of gene expression. Subsequently, we investigated whether proteins encoded by the eight genes deleted in ASFV-989 contribute to the modulation of the type I interferon signaling pathway. Using different strategies, we showed that MGF505-4R interfered with the induction of IFN-α/β pathway, likely through interaction with TRAF3. Altogether, our data reveal key differences between ASFV-989 and Georgia 2007/1 in their ability to control IFN-α/β signaling and provide molecular mechanisms underlying the role of MGF505-4R as a virulence factor.

Published

2024

48. Study of alloferon, a novel immunomodulatory antimicrobial peptide (AMP), and its analogues.

Author

Appiah, Clara, Chen, Shitian, Pori, Afia Ibnat, Retyunskiy, Vladimir, Chimeng Tzeng, and Ye Zhao

Subjects

ANTIMICROBIAL peptides, PEPTIDES, CYTOTOXINS, ANTI-infective agents, ANTINEOPLASTIC agents, PEPTIDE antibiotics, TYPE I interferons, INTERFERONS

Abstract

Antimicrobial peptides (AMPs) are widely distributed throughout the biosphere and represent a class of conserved peptide molecules with intrinsic antimicrobial properties. Their broad-spectrum antimicrobial activity and low risk to induce resistance have led to increased interest in AMPs as potential alternatives to traditional antibiotics. Among the AMPs, alloferon has been addressed due to its immunomodulatory properties that augment both innate and adaptive immune responses against various pathogens. Alloferon and its analogues have demonstrated pharmaceutical potential through their ability to enhance Natural Killer (NK) cell cytotoxicity and stimulate interferon (IFN) synthesis in both mouse and human models. Additionally, they have shown promise in augmenting antiviral and antitumor activities in mice. In this article, we provide a comprehensive review of the biological effects of alloferon and its analogues, incorporating our own research findings as well. These insights may contribute to a deeper understanding of the therapeutic potential of these novel AMPs. [ABSTRACT FROM AUTHOR]

Published

2024

49. Platinum-based neoadjuvant chemotherapy upregulates STING/IFN pathway expression and promotes TILs infiltration in NSCLC.

Author

Huan Gao, Xiaoni Zhang, Mengdi Ren, Aimin Jiang, Na Liu, Jingjing Wang, Xiaoqiang Zheng, Xuan Liang, Zhiping Ruan, Tao Tian, Xiao Fu, and Yu Yao

Subjects

NEOADJUVANT chemotherapy, OVARIAN epithelial cancer, NON-small-cell lung carcinoma, COMBINATION drug therapy, PROGNOSIS

Abstract

Objectives: To evaluate the effects of platinum-based neoadjuvant chemotherapy (NACT) on the STING/IFN pathway and tumor-infiltrating lymphocytes (TILs) in non-small cell lung cancer (NSCLC), as well as clinicopathological factors affecting patient survival. Materials and methods: A total of 68 patients aged 34-77 years with NSCLC who received neoadjuvant chemotherapy and surgical treatment from March 2012 to February 2019 were reviewed, and the clinical pathological data and paired tissue specimens before and after NACT were collected. Immunohistochemistry and immunofluorescence were used to detect the protein levels of STING, PD-L1 and IFN-b, and the infiltration density of CD3+ TILs and CD8+TILs. The correlation between the expression of STING, PD-L1, IFN-b and the infiltration density of CD3+ TILs and CD8+ TILs as well as the clinicopathological characteristics before and after NACT was analyzed. The relationship between the related indexes, clinicopathological features and prognosis was also discussed. Results: NACT increased the expression of STING, IFN-β and PD-L1 in tumor cells, and the infiltration of CD3+ and CD8+ TILs. In addition, ypTNM stage, ypN stage, changes in CD3+ TILs and in PD-L1 were associated with DFS (disease-free survival). CD3+ TILs changes and ypN stage were associated with OS (overall survival). Notably, ypN stage and CD3+ TILs changes were independent prognostic factors for DFS and OS. Conclusion: NACT stimulates STING/IFN-β pathway, promotes infiltration of CD3+ and CD8+ TILs, triggers innate and adaptive immunity, and also upregulates PD-L1, which complemented the rationale for neoadjuvant chemotherapy in combination with immunotherapy. In addition, DFS was longer in patients with ypTNM I, ypN0-1, and elevated CD3+TILs after NACT. Patients with ypN0 and elevated CD3+ TILs after NACT had better OS benefits. [ABSTRACT FROM AUTHOR]

Published

2024

50. Identification of pigeon mitochondrial antiviral signaling protein (MAVS) and its role in antiviral innate immunity.

Author

Shao, Qi, Li, Yawen, Fu, Feiyu, Zhu, Pei, Wang, Hengan, Wang, Zhaofei, Ma, Jingjiao, Yan, Yaxian, Cheng, Yuqiang, and Sun, Jianhe

Abstract

Pigeons can be infected with various RNA viruses, and their innate immune system responds to viral infection to establish an antiviral response. Mitochondrial antiviral signaling protein (MAVS), an important adaptor protein in signal transduction, plays a pivotal role in amplifying the innate immune response. In this study, we successfully cloned pigeon MAVS (piMAVS) and performed a bioinformatics analysis. The results showed that the caspase recruitment domain (CARD) and transmembrane (TM) domain are highly conserved in poultry and mammals but poorly conserved in other species. Furthermore, we observed that MAVS expression is upregulated both in pigeons and pigeon embryonic fibroblasts (PEFs) upon RNA virus infection. Overexpression of MAVS resulted in increased levels of β-interferon (IFN-β), IFN-stimulated genes (ISGs), and interleukin (ILs) mRNA and inhibited Newcastle disease virus (NDV) replication. We also found that piMAVS and human MAVS (huMAVS) induced stronger expression of IFN-β and ISGs when compared to chicken MAVS (chMAVS), and this phenomenon was also reflected in the degree of inhibition of NDV replication. Our findings demonstrate that piMAVS plays an important role in repressing viral replication by regulating the activation of the IFN signal pathway in pigeons. This study not only sheds light on the function of piMAVS in innate immunity but also contributes to a more comprehensive understanding of the innate immunity system in poultry. Our data also provide unique insights into the differences in innate immunity between poultry and mammal. [ABSTRACT FROM AUTHOR]

Published

2024