Your search keyword '"STAT2"' showing total 968 results

1. Pyrogallol Suppresses the Tumor Progression via Modulating Aerobic Glycolysis and STAT2 Signaling Pathway in Non-small Cell Lung Carcinoma.

Author

Liu, Hao, Chang, Yanxiang, and Jin, Lei

Abstract

Background: Pyrogallol, a bioactive compound derived from natural sources, is the focus of this study, aiming to investigate its anti-cancer properties against A549 lung cancer cells and uncover the underlying mechanisms. Purpose: This study seeks to elucidate the therapeutic potential of pyrogallol as a novel anti-cancer agent for NSCLC by targeting aerobic glycolysis and signal transducer and activator of transcription 2 (STAT2) signaling pathway. Background: Pyrogallol, a bioactive compound derived from natural sources, is the focus of this study, aiming to investigate its anti-cancer properties against A549 lung cancer cells and uncover the underlying mechanisms. Materials and Methods: A range of pyrogallol doses was administered to A549 cells, followed by a comprehensive analysis utilizing bioinformatic tools like Gene Expression Omnibus (GEO), GEO2R, WebGestalt, and the Search Tool for Interactions of Chemicals database. Assessments of cytotoxicity were conducted using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) and trypan blue assays post-treatment of A549 cells with pyrogallol. Cell cycle progression and cell death were evaluated via flow cytometry using Annexin V-fluorescein isothiocyanates/propidium iodide double staining. Network analysis helped identify pertinent signaling pathways, while RT-PCR validated mRNA expression changes in A549 cells. Auto dock docking studies were employed to gauge the binding affinity of pyrogallol with targets associated with the STAT2-mediated pathway. Results: Pyrogallol notably impeded the progression of A549 cells by prompting cell cycle arrest in the G0/G1 phase and fostering apoptosis. Network analysis highlighted its role in regulating metabolism, apoptosis, and STAT2 targets linked to lung tumorigenesis. RT-PCR validation affirmed the downregulation of genes associated with cell cycle and apoptosis targets. Furthermore, docking studies indicated a robust binding affinity between pyrogallol and the signaling targets within the STAT2 pathway. Pyrogallol displays the potential to halt the growth of lung cancer cells, indicating its promise as a viable treatment for this condition. Conclusion: These discoveries emphasize the need for additional research and clinical studies to fully harness its therapeutic benefits for lung cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

2. Zika virus NS5 protein inhibits type I interferon signaling via CRL3 E3 ubiquitin ligase-mediated degradation of STAT2.

Author

Wenlin Ren, Chonglei Fu, Yu Zhang, Xiaohui Ju, Xi Jiang, Jingwei Song, Mingli Gong, Zhuoyang Li, Wenchun Fan, Jun Yao, and Qiang Ding

Subjects

*TYPE I interferons, *SCAFFOLD proteins, *UBIQUITIN ligases, *ZIKA virus infections, *VIRAL proteins

Abstract

The ZIKA virus (ZIKV) evades the host immune response by degrading STAT2 through its NS5 protein, thereby inhibiting type I interferon (IFN)-mediated antiviral immunity. However, the molecular mechanism underlying this process has remained elusive. In this study, we performed a genome-wide CRISPR/Cas9 screen, revealing that ZSWIM8 as the substrate receptor of Cullin3-RING E3 ligase is required for NS5-mediated STAT2 degradation. Genetic depletion of ZSWIM8 and CUL3 substantially impeded NS5-mediated STAT2 degradation. Biochemical analysis illuminated that NS5 enhances the interaction between STAT2 and the ZSWIM8-CUL3 E3 ligase complex, thereby facilitating STAT2 ubiquitination. Moreover, ZSWIM8 knockout endowed A549 and Huh7 cells with partial resistance to ZIKV infection and protected cells from the cytopathic effects induced by ZIKV, which was attributed to the restoration of STAT2 levels and the activation of IFN signaling. Subsequent studies in a physiologically relevant model, utilizing human neural progenitor cells, demonstrated that ZSWIM8 depletion reduced ZIKV infection, resulting from enhanced IFN signaling attributed to the sustained levels of STAT2. Our findings shed light on the role of ZIKV NS5, serving as the scaffold protein, reprograms the ZSWIM8-CUL3 E3 ligase complex to orchestrate STAT2 proteasome-dependent degradation, thereby facilitating evasion of IFN antiviral signaling. Our study provides unique insights into ZIKV-host interactions and holds promise for the development of antivirals and prophylactic vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

3. The Susceptibility of Chickens to Zika Virus: A Comprehensive Study on Age-Dependent Infection Dynamics and Host Responses.

Author

Nissly, Ruth H., Lim, Levina, Keller, Margo R., Bird, Ian M., Bhushan, Gitanjali, Misra, Sougat, Chothe, Shubhada K., Sill, Miranda C., Kumar, Nagaram Vinod, Sivakumar, A. V. N., Naik, B. Rambabu, Jayarao, Bhushan M., and Kuchipudi, Suresh V.

Subjects

*ZIKA virus, *ZIKA virus infections, *TYPE I interferons, *CHICKENS, *POULTRY breeding, *STAT proteins, *MOSQUITO control

Abstract

Zika virus (ZIKV) remains a public health concern, with epidemics in endemic regions and sporadic outbreaks in new areas posing significant threats. Several mosquito-borne flaviviruses that can cause human illness, including West Nile, Usutu, and St. Louis encephalitis, have associations with birds. However, the susceptibility of chickens to ZIKV and their role in viral epidemiology is not currently known. We investigated the susceptibility of chickens to experimental ZIKV infection using chickens ranging from 1-day-old chicks to 6-week-old birds. ZIKV caused no clinical signs in chickens of all age groups tested. Viral RNA was detected in the blood and tissues during the first 5 days post-inoculation in 1-day and 4-day-old chicks inoculated with a high viral dose, but ZIKV was undetectable in 6-week-old birds at all timepoints. Minimal antibody responses were observed in 6-week-old birds, and while present in younger chicks, they waned by 28 days post-infection. Innate immune responses varied significantly between age groups. Robust type I interferon and inflammasome responses were measured in older chickens, while limited innate immune activation was observed in younger chicks. Signal transducer and activator of transcription 2 (STAT2) is a major driver of host restriction to ZIKV, and chicken STAT2 is distinct from human STAT2, potentially contributing to the observed resistance to ZIKV infection. The rapid clearance of the virus in older chickens coincided with an effective innate immune response, highlighting age-dependent susceptibility. Our study indicates that chickens are not susceptible to productive ZIKV infection and are unlikely to play a role in the ZIKV epidemiology. [ABSTRACT FROM AUTHOR]

Published

2024

4. Residue K28 of Zika Virus NS5 Protein Is Implicated in Virus Replication and Antagonism of STAT2.

Author

Peng, Nias Y. G., Sng, Julian D. J., Setoh, Yin Xiang, and Khromykh, Alexander A.

Subjects

FLAVIVIRUSES, ZIKA virus, WEST Nile virus, STAT proteins, VIRAL proteins, VIRAL replication, DENGUE viruses, REVERSE genetics

Abstract

The identification of four potential nonstructural 5 (NS5) residues—K28, K45, V335, and S749—that share the same amino acid preference in STAT2-interacting flaviviruses [Dengue virus (DENV) and Zika virus (ZIKV)], but not in STAT2-non-interacting flaviviruses [West Nile virus (WNV) and/or Yellow fever virus (YFV)] from an alignment of multiple flavivirus NS5 sequences, implied a possible association with the efficiency of ZIKV to antagonize the human signal transducer and activator of transcription factor 2 (STAT2). Through site-directed mutagenesis and reverse genetics, mutational impacts of these residues on ZIKV growth in vitro and STAT2 antagonism were assessed using virus growth kinetics assays and STAT2 immunoblotting. The results showed that mutations at the residue K28 significantly reduced the efficiency of ZIKV to antagonize STAT2. Further investigation involving residue K28 demonstrated its additional effects on the phenotypes of ZIKV-NS5 nuclear bodies. These findings demonstrate that K28, identified from sequence alignment, is an important determinant of replication and STAT2 antagonism by ZIKV. [ABSTRACT FROM AUTHOR]

Published

2024

5. Editorial: Exploring neuroinflammatory pathways that contribute to chronic pain, volume II

Author

Lisa A. Lione and Amy Fisher

Subjects

neuroinflammation, neuropathic pain, STAT2, PPAR γ, CX3CR1, progesterone, Therapeutics. Pharmacology, RM1-950

Published

2024

6. miR17-92 簇在痛风中的表达及临床意义.

Author

冯 丹, 姜蓉琼, 杨桂钊, 张 惠, 王 丹, 刘 静, 余成秀, and 袁国华

Abstract

Objective： To explore expression of each member of miR17-92 cluster in peripheral blood mononuclear cells (PBMCs) of patients with gout, to predict their possible targets and pathways of action, and to evaluate their possible mechanism and clinical significance in gout. Methods： A total 67 gouty arthritis (GA) patients were selected, including 22 patients with acute gout arthritis (AG) and 45 patients with intermittent gout (IG), and 35 normal health control (HC) were selected in Affiliated Hospital of North Sichuan Medical College. RT-qPCR measured expressions of miR17-92 cluster, IFN-γ, IL-10 and some members of JAK-STAT pathway, and relevant laboratory indicators were collected to analyze correlation between each other. Results： Relative expressions of miR17, miR18a, miR19a, miR20a and miR19b were significantly changed in AG, IG and HC (H=8.753,P<0.05；H=6.338,P< 0.05；H=6.523,P<0.05；H=9.061,P<0.05；H=9.729,P<0.01). JAK3 and STAT2 expressions were statistically different in AG, IG and HC groups (H=10.349,P<0.01；H=14.801,P<0.01). Expression of IFN- γ was statistically different among AG, IG and HC groups (H=8.734,P<0.05). In AG patients, miR18a expression was inversely correlated with IBIL, Crea, MO and HGB. miR19a ex⁃ pression was negatively associated and TC, UA and HGB. miR20a expression was negatively associated with Crea. miR19b expression was negatively associated with UA and HGB. In IG patients, miR17 expression was negatively associated with IBIL, WBC, LY and MO. miR18a expression was positively associated with ALP, miR19a expression was negatively associated with TC and UA, and miR20a expression was negatively associated with ADA and UA. Conclusion：miR17-92 cluster may regulate development and participate in clinical pathology of gout by targeting JAK-STAT pathway. [ABSTRACT FROM AUTHOR]

Published

2024

7. Signal Transducer and Activator of Transcription Proteins at the Nexus of Immunodeficiency, Autoimmunity and Cancer.

Author

Liongue, Clifford, Sobah, Mohamed Luban, and Ward, Alister C.

Subjects

STAT proteins, AUTOIMMUNE diseases, AUTOIMMUNITY, IMMUNODEFICIENCY, IMMUNE system

Abstract

The signal transducer and activator of transcription (STAT) family of proteins has been demonstrated to perform pivotal roles downstream of a myriad of cytokines, particularly those that control immune cell production and function. This is highlighted by both gain-of-function (GOF) and loss-of-function (LOF) mutations being implicated in various diseases impacting cells of the immune system. These mutations are typically inherited, although somatic GOF mutations are commonly observed in certain immune cell malignancies. This review details the growing appreciation of STAT proteins as a key node linking immunodeficiency, autoimmunity and cancer. [ABSTRACT FROM AUTHOR]

Published

2024

8. Integrative bioinformatics analysis reveals STAT2 as a novel biomarker of inflammation-related cardiac dysfunction in atrial fibrillation

Author

Li Cairong, Li Guanhua, Tu Sijia, Bai Xinghua, and Yuan Hong

Subjects

atrial fibrillation, covid-19, wgcna, scrna-seq, stat2, Medicine

Published

2023

9. STAT2 Controls Colorectal Tumorigenesis and Resistance to Anti-Cancer Drugs.

Author

Chiriac, Mircea T., Hracsko, Zsuzsanna, Becker, Christoph, and Neurath, Markus F.

Subjects

*THERAPEUTIC use of antineoplastic agents, *EXPERIMENTAL design, *DISEASE progression, *SEQUENCE analysis, *IN vivo studies, *CARCINOGENESIS, *ANIMAL experimentation, *STRUCTURAL models, *INFLAMMATION, *COLORECTAL cancer, *CELLULAR signal transduction, *CELL division, *RESEARCH funding, *TRANSCRIPTION factors, *BIOLOGICAL assay, *DRUG resistance in cancer cells, *CARRIER proteins, *MICE, *RNA probes

Abstract

Simple Summary: Despite recent improvements in survival rates, colorectal cancer is still responsible for millions of premature deaths worldwide. A better understanding of the steps that lead from chronic inflammation to cancer progression could offer new therapeutic options and save many lives. The present study aimed to investigate the role of the transcription factor signal transducer and activator of transcription 2 (STAT2) in colorectal cancer by taking advantage of experimental mouse models and three-dimensional tumoroids. Our results indicate that STAT2 promotes colorectal cancer by various mechanisms and that anti-cancer drugs could easily kill tumor cells lacking STAT2. It is conceivable that future therapeutic strategies for colorectal cancer might try to mitigate the actions of STAT2 to improve the treatment outcome in affected patients. Colorectal cancer (CRC) is a significant socioeconomic burden in modern society and is accountable for millions of premature deaths each year. The role of signal transducer and activator of transcription 2 (STAT2)-dependent signaling in this context is not yet fully understood, and no therapies targeting this pathway are currently being pursued. We investigated the role of STAT2 in CRC using experimental mouse models coupled with RNA-sequencing (RNA-Seq) data and functional assays with anti-cancer agents in three-dimensional tumoroids. Stat2−/− mice showed greater resistance to the development of CRC in both inflammation-driven and inflammation-independent experimental CRC models. In ex vivo studies, tumoroids derived from Stat2−/− mice with the multiple intestinal neoplasia (Min) mutant allele of the adenomatous polyposis coli (Apc) locus exhibited delayed growth, were overall smaller and more differentiated as compared with tumoroids from ApcMin/+ wildtype (WT) mice. Notably, tumoroids from ApcMin/+ Stat2−/− mice were more susceptible to anti-cancer agents inducing cell death by different mechanisms. Our findings clearly indicated that STAT2 promotes CRC and suggested that interventions targeting STAT2-dependent signals might become an attractive therapeutic option for patients with CRC. [ABSTRACT FROM AUTHOR]

Published

2023

10. The role of the interferon/JAK-STAT axis in driving islet HLA-I hyperexpression in type 1 diabetes.

Author

Russell, Mark A., Richardson, Sarah J., and Morgan, Noel G.

Subjects

TYPE 1 diabetes, INTERFERON receptors, INTERFERON gamma, HISTOCOMPATIBILITY class I antigens, INTERFERON regulatory factors, TYPE I interferons, ISLANDS of Langerhans

Abstract

The hyperexpression of human leukocyte antigen class I (HLA-I) molecules on pancreatic beta-cells is widely accepted as a hallmark feature of type 1 diabetes pathogenesis. This response is important clinically since it may increase the visibility of beta-cells to autoreactive CD8+ T-cells, thereby accelerating disease progression. In this review, key factors which drive HLA-I hyperexpression will be explored, and their clinical significance examined. It is established that the presence of residual beta-cells is essential for HLA-I hyperexpression by islet cells at all stages of the disease. We suggest that the most likely drivers of this process are interferons released from beta-cells (type I or III interferon; possibly in response to viral infection) or those elaborated from influent, autoreactive immune cells (type II interferon). In both cases, Janus Kinase/Signal Transducer and Activator of Transcription (JAK/STAT) pathways will be activated to induce the downstream expression of interferon stimulated genes. A variety of models have highlighted that HLA-I expression is enhanced in beta-cells in response to interferons, and that STAT1, STAT2 and interferon regulatory factor 9 (IRF9) play key roles in mediating these effects (depending on the species of interferon involved). Importantly, STAT1 expression is elevated in the beta-cells of donors with recent-onset type I diabetes, and this correlates with HLA-I hyperexpression on an islet-by-islet basis. These responses can be replicated in vitro, and we consider that chronically elevated STAT1 may have a role in maintaining HLA-I hyperexpression. However, other data have highlighted that STAT2-IRF9 may also be critical to this process. Thus, a better understanding of how these factors regulate HLA-I under chronically stimulated conditions needs to be gathered. Finally, JAK inhibitors can target interferon signaling pathways to diminish HLA-I expression in mouse models. It seems probable that these agents may also be effective in patients; diminishing HLA-I hyperexpression on islets, reducing the visibility of beta-cells to the immune system and ultimately slowing disease progression. The first clinical trials of selective JAK inhibitors are underway, and the outcomes should have important implications for type 1 diabetes clinical management. [ABSTRACT FROM AUTHOR]

Published

2023

11. Cytotoxic Effect of New (E)‐2‐Cyano‐N‐(tetrahydrobenzo[b]thiophen‐2‐yl)acrylamide Derivatives: Down‐Regulation of RBL2 and STAT2 and Triggering of DNA Damage in Breast Carcinoma.

Author

Ibrahim, Nada S., Sroor, Farid M., Mahrous, Karima F., Abd Elaleem, Jassmin A., and Abdelhamid, Ismail A.

Subjects

*STAT proteins, *BREAST, *DNA damage, *ACRYLAMIDE

Abstract

A novel series of 2‐cyano‐N‐(tetrahydrobenzo[b]thiophen‐2‐yl)acrylamide derivatives were synthesized and their structures were confirmed using several spectral tools. All compounds were subjected to MTT assay to elucidate their cytotoxic effect against human hepatocellular carcinoma (HEPG2), human Caucasian breast adenocarcinoma (MCF7), human pancreatic cancer cell line (PACA2), human prostate cancer cell line (PC3), and normal skin fibroblast (BJ1). Among them, the acrylamide derivatives 5, 10 and 14 exerted potent activities against MCF7 with IC50 values of 61.2, 66.4, and 55.3 μg/ml respectively. A molecular docking was performed to study the possibility of the molecular binding of these three compounds with the active site of signal transducer and activator of transcription 1 protein (STAT1). Gene expression analysis demonstrated the significant down‐regulation of RBL2 (RB transcriptional corepressor like 2) and STAT2 (Signal transducer and activator of transcription 2) in treated MCF7 cells and also showed the significant effect in down‐regulating KRAS (Ki‐ras2 Kirsten rat sarcoma viral oncogene homolog) and SMAD (Sma and Mad proteins) genes in PC3 cells. Comet assay revealed the best effect of Ethyl 2‐(2‐cyano‐3‐(3,4‐dimethoxyphenyl)acrylamido)‐4,5,6,7‐tetrahydrobenzo[b]thiophene‐3‐carboxylate in damaging the DNA of MCF7 cells (18.75±1.50 %). Also, DNA fragmentation was studied electrophoretically, which confirmed the results of the comet assay. [ABSTRACT FROM AUTHOR]

Published

2023

12. The Susceptibility of Chickens to Zika Virus: A Comprehensive Study on Age-Dependent Infection Dynamics and Host Responses

Author

Ruth H. Nissly, Levina Lim, Margo R. Keller, Ian M. Bird, Gitanjali Bhushan, Sougat Misra, Shubhada K. Chothe, Miranda C. Sill, Nagaram Vinod Kumar, A. V. N. Sivakumar, B. Rambabu Naik, Bhushan M. Jayarao, and Suresh V. Kuchipudi

Subjects

Zika virus, chicken, innate immune response, STAT2, antibody, host restriction, Microbiology, QR1-502

Abstract

Zika virus (ZIKV) remains a public health concern, with epidemics in endemic regions and sporadic outbreaks in new areas posing significant threats. Several mosquito-borne flaviviruses that can cause human illness, including West Nile, Usutu, and St. Louis encephalitis, have associations with birds. However, the susceptibility of chickens to ZIKV and their role in viral epidemiology is not currently known. We investigated the susceptibility of chickens to experimental ZIKV infection using chickens ranging from 1-day-old chicks to 6-week-old birds. ZIKV caused no clinical signs in chickens of all age groups tested. Viral RNA was detected in the blood and tissues during the first 5 days post-inoculation in 1-day and 4-day-old chicks inoculated with a high viral dose, but ZIKV was undetectable in 6-week-old birds at all timepoints. Minimal antibody responses were observed in 6-week-old birds, and while present in younger chicks, they waned by 28 days post-infection. Innate immune responses varied significantly between age groups. Robust type I interferon and inflammasome responses were measured in older chickens, while limited innate immune activation was observed in younger chicks. Signal transducer and activator of transcription 2 (STAT2) is a major driver of host restriction to ZIKV, and chicken STAT2 is distinct from human STAT2, potentially contributing to the observed resistance to ZIKV infection. The rapid clearance of the virus in older chickens coincided with an effective innate immune response, highlighting age-dependent susceptibility. Our study indicates that chickens are not susceptible to productive ZIKV infection and are unlikely to play a role in the ZIKV epidemiology.

Published

2024

13. The role of the interferon/JAK-STAT axis in driving islet HLA-I hyperexpression in type 1 diabetes

Author

Mark A. Russell, Sarah J. Richardson, and Noel G. Morgan

Subjects

HLA-I, STAT1, STAT2, pancreatic islet, type 1 diabetes, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

The hyperexpression of human leukocyte antigen class I (HLA-I) molecules on pancreatic beta-cells is widely accepted as a hallmark feature of type 1 diabetes pathogenesis. This response is important clinically since it may increase the visibility of beta-cells to autoreactive CD8+ T-cells, thereby accelerating disease progression. In this review, key factors which drive HLA-I hyperexpression will be explored, and their clinical significance examined. It is established that the presence of residual beta-cells is essential for HLA-I hyperexpression by islet cells at all stages of the disease. We suggest that the most likely drivers of this process are interferons released from beta-cells (type I or III interferon; possibly in response to viral infection) or those elaborated from influent, autoreactive immune cells (type II interferon). In both cases, Janus Kinase/Signal Transducer and Activator of Transcription (JAK/STAT) pathways will be activated to induce the downstream expression of interferon stimulated genes. A variety of models have highlighted that HLA-I expression is enhanced in beta-cells in response to interferons, and that STAT1, STAT2 and interferon regulatory factor 9 (IRF9) play key roles in mediating these effects (depending on the species of interferon involved). Importantly, STAT1 expression is elevated in the beta-cells of donors with recent-onset type I diabetes, and this correlates with HLA-I hyperexpression on an islet-by-islet basis. These responses can be replicated in vitro, and we consider that chronically elevated STAT1 may have a role in maintaining HLA-I hyperexpression. However, other data have highlighted that STAT2-IRF9 may also be critical to this process. Thus, a better understanding of how these factors regulate HLA-I under chronically stimulated conditions needs to be gathered. Finally, JAK inhibitors can target interferon signaling pathways to diminish HLA-I expression in mouse models. It seems probable that these agents may also be effective in patients; diminishing HLA-I hyperexpression on islets, reducing the visibility of beta-cells to the immune system and ultimately slowing disease progression. The first clinical trials of selective JAK inhibitors are underway, and the outcomes should have important implications for type 1 diabetes clinical management.

Published

2023

14. Machine learning-based on cytotoxic T lymphocyte evasion gene develops a novel signature to predict prognosis and immunotherapy responses for kidney renal clear cell carcinoma patients.

Author

Mei Chen, Zhenyu Nie, Denggao Huang, Yuanhui Gao, Hui Cao, Linlin Zheng, and Shufang Zhang

Subjects

CYTOTOXIC T cells, RENAL cell carcinoma, MACHINE learning, IMMUNOTHERAPY, T cells, KIDNEYS

Abstract

Background: Immunotherapy resistance has become a difficult point in treating kidney renal clear cell carcinoma (KIRC) patients, mainly because of immune evasion. Currently, there is no effective signature to predict immunotherapy. Therefore, we use machine learning algorithms to construct a signature based on cytotoxic T lymphocyte evasion genes (CTLEGs) to predict the immunotherapy responses of patients, so as to screen patients effective for immunotherapy. Methods: In public data sets and our in-house cohort, we used 10 machine learning algorithms to screen the optimal model with 89 combinations under the cross-validation framework, and 101 published signatures were collected. The relationship between the CTLEG signature (CTLEGS) and clinical variables was analyzed. We analyzed the role of CTLES in other types of cancer by pan-cancer analysis. The immune cell infiltration and biological characteristics were evaluated. Moreover, the response to immunotherapy and drug sensitivity of different risk groups were investigated. The key gene closely related to the signature was identified by WGCNA. We also conducted cell functional experiments and clinical tissue validation of key gene. Results: In public data sets and our in-house cohort, the CTLEGS shows good prediction performance. The CTLEGS can be regard as an independent risk factor for KIRC. Compared with 101 published models, our signature shows considerable superiority. The high-risk group has abundant infiltration of immunosuppressive cells and high expression of T cell depletion markers, which are characterized by immunosuppressive phenotype, minimal benefit from immunotherapy, and resistance to sunitinib and sorafenib. The CTLEGS was also strongly correlated with immunity in pan-cancer. Immunohistochemistry verified that T cell depletion marker LAG3 is highly expressed in high-risk groups in the clinical in-house cohort. The key CTLEG STAT2 can promote the proliferation, migration and invasion of KIRC cell. Conclusions: CTLEGS can accurately predict the prognosis of patients and their response to immunotherapy. It can provide guidance for the precise treatment of KIRC and help clinicians identify patients who may benefit from immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2023

15. Redirecting the JAK‐STAT signal blocks the SARS‐CoV‐2 replication.

Author

Augustine, George, Sisila, Valappil, Indhu, Mohan, Gupta, Divya, Tandel, Dixit, Harshan, Krishnan Harinivas, Shanmugam, Ganesh, Padmapriya, Padmanabhan, Sivasubramanian, Srinivasan, Kaveri, Krishnaswamy, Ramudu, Kamini Numbi, and Ayyadurai, Niraikulam

Subjects

SARS-CoV-2, TYPE I interferons, GENETIC code

Abstract

The distinct disease progression patterns of severe acute respiratory syndrome coronavirus clade 2 (SARS‐CoV‐2) indicate diverse host immune responses. SARS‐CoV‐2 severely impairs type I interferon (IFN) cell signaling, resulting in uncontrolled late‐phase lung damage in patients. For better pharmacological properties, cytokine modifications may sometimes result in a loss of biological activity against the virus. Here, we employed the genetic code expansion and engineered IFN‐β, a phase II clinical cytokine with 3‐amino tyrosine (IFN‐β‐A) that reactivates STAT2 expression in virus‐infected human cells through JAK/STAT cell signaling without affecting signal activation and serum half‐life. This study identified that genetically encoded IFN‐β‐A might stabilize the protein‐receptor complex and trigger JAK‐STAT cell signaling, which is a promising modality for controlling SARS‐CoV‐2 infection. [ABSTRACT FROM AUTHOR]

Published

2023

16. STAT2/Caspase3 in the diagnosis and treatment of psoriasis.

Author

Fu, Zhibing, He, Yi, Gao, Lihua, Tong, Xiaoliang, Zhou, Lu, and Zeng, Jinrong

Subjects

*RECEIVER operating characteristic curves, *PSORIASIS, *STAT proteins, *CELLULAR signal transduction

Abstract

Background: Psoriasis is a classic chronic recurrent inflammatory skin disease characterized by skin inflammation and abnormal biological behaviour of keratinocytes. Although Signal Transducer And Activator Of Transcription 2 (STAT2) was found to play an important role in the Janus kinase (JAK)‐STAT signalling pathway and contribute to the pathogenesis of psoriasis, its exact role in psoriasis remains unclear. Methods: Using bioinformatics analysis, we identified the key pathways that significantly impacted psoriatic lesions. After identifying the critical molecule gene differentially expressed in multiple public databases using the Kyoto Encyclopaedia of Genes and Genomes (KEGG) enrichment analysis, clinical samples were collected to validate the gene's significance. Its functions and underlying mechanism were also investigated in vitro. Lastly, we evaluated the diagnostic and therapeutic power of the target gene using the receiver operating characteristic curve (ROC), and gene association was assessed using Spearman correlation. Results: A significant correlation was found between cysteine‐aspartic acid protease3 (Caspase3) and STAT2, and functional enrichment analysis revealed that they were both significantly up‐regulated in psoriatic skin lesions compared to non‐lesional tissues. Functional analysis revealed that Caspase3 functioned downstream of STAT2 in psoriasis. Lastly, we found that Caspase3 and STAT2 could be potential biomarkers for diagnosing and treating psoriasis. Conclusions: In summary, STAT2 overexpression contributes to psoriasis progression by regulating Capase3 phosphorylation to induce excessive apoptosis of keratinocytes. Meanwhile, STAT2 and Capase3 were identified as promising biomarkers for the diagnosis and treatment of psoriasis and could be used for individualized treatments. [ABSTRACT FROM AUTHOR]

Published

2023

17. A cellular screening platform, stably expressing DENV2 NS5, defines a novel anti-DENV mechanism of action of Apigenin based on STAT2 activation.

Author

Acchioni, Chiara, Acchioni, Marta, Mancini, Flavia, Amendola, Antonello, Marsili, Giulia, Tirelli, Valentina, Gwee, Chin Piaw, Chan, Kitti Wing-Ki, Sandini, Silvia, Bisbocci, Monica, Mysara, Mohamed, ElHefnawi, Mahmoud, Sanchez, Massimo, Venturi, Giulietta, Barreca, Maria Letizia, Manfroni, Giuseppe, Bresciani, Alberto, Vasudevan, Subhash G., and Sgarbanti, Marco

Subjects

*STAT proteins, *APIGENIN, *INTERFERON regulatory factors, *RNA virus infections, *VIRAL proteins, *LUCIFERASES

Abstract

Type I interferon (IFN–I) evasion by Dengue virus (DENV) is key in DENV pathogenesis. The non-structural protein 5 (NS5) antagonizes IFN-I response through the degradation of the signal transducer and activator of transcription 2 (STAT2). We developed a K562 cell-based platform, for high throughput screening of compounds potentially counteracting the NS5-mediated antagonism of IFN-I signaling. Upon a screening with a library of 1220 approved drugs, 3 compounds previously linked to DENV inhibition (Apigenin, Chrysin, and Luteolin) were identified. Luteolin and Apigenin determined a significant inhibition of DENV2 replication in Huh7 cells and the restoration of STAT2 phosphorylation in both cell systems. Apigenin and Luteolin were able to stimulate STAT2 even in the absence of infection. Despite the "promiscuous" and "pan-assay-interfering" nature of Luteolin, Apigenin promotes STAT2 Tyr 689 phosphorylation and activation, highlighting the importance of screening for compounds able to interact with host factors, to counteract viral proteins capable of dampening innate immune responses. A) K562 cells were engineered by means of a double retroviral transduction followed by cell sorting to express the luciferase reporter gene under the control of a ISRE sequence-containing promoter, non targeting shRNA to mimic PRR stimulation elicited by a RNA virus infection and either GFP or GFP-NS5. After TPA-mediated megakaryocytes differentiation, compounds are administered before IFN-α stimulation. A day later, the luciferase assay is performed. Signals of different intensities are obtained in the luminescence assay, lower for cells containing the GFP-NS5 fusion protein compared to cells expressing GFP alone. The addition of a compound X to cells expressing GFP-NS5 fusion protein and potentially capable of inhibiting the anti-IFN function of the viral protein, should, at least partially, restore the signal obtained in control cells in response to IFN-α treatment. B) Schematic workflow of the 1220 compound library screening in a miniaturized format. At day 1, cells are seeded at a specific density, differetiated with TPA, and then seeded again in 384 cell plates. After 72 h of differentiation (day 4), cells were treated with the 1220 compound library and after 2 h (day 4 + 2 h) were stimulated with IFN-α for further 24 h. At day 5, cell were analyzed for light emission upon lysis, using a microplate luminometer, C) Possible mechanism of action of the identified anti-NS5 compound Apigenin as DENV NS5 inhibitor. Apigenin can determine the phosphorylation of STAT2 even in the absence of DENV infection or virus-induced IFN-I stimulation. Pre-activated STAT-2 may be more resistant to Dengue NS5 inhibition/degradation and, therefore, more prone to interact with activated STAT1 and interferon regulatory factor 9 (IRF-9) to promote interferon stimulated genes (ISGs) and therefore the antiviral state, All images of this graphical abstract were created with BioRender.com. [Display omitted] • We developed a luciferase-based K562 cell platform to identify inhibitors of anti–IFN–I activity of DENV NS5 protein. • Apigenin, Chrysin, and Luteolin were identified screening a library of approved drugs, with Luteolin behaving as PAINS. • Apigenin determines STAT2 Tyr 689 phosphorylation in Huh7 cells not infected and infected with DENV2. • The host factor STAT2 can be a valuable targets for therapeutic interventions aimed at inhibiting NS5 anti-IFN-I activity. • Our reporter K562 cellular platform, due to the successful miniaturization, can be exploited for future HTS campaigns. [ABSTRACT FROM AUTHOR]

Published

2023

18. circCAPRIN1 interacts with STAT2 to promote tumor progression and lipid synthesis via upregulating ACC1 expression in colorectal cancer

Author

Yufei Yang, Dakui Luo, Yang Shao, Zezhi Shan, Qi Liu, Junyong Weng, Weijing He, Ruoxin Zhang, Qingguo Li, Ziliang Wang, and Xinxiang Li

Subjects

circRNA, colorectal cancer, circCAPRIN1, lipid metabolism, STAT2, ACC1, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Circular RNAs (circRNAs) generated by back‐splicing of precursor mRNAs (pre‐mRNAs) are often aberrantly expressed in cancer cells. Accumulating evidence has revealed that circRNAs play a critical role in the progression of several cancers, including colorectal cancer (CRC). However, the current understandings of the emerging functions of circRNAs in CRC lipid metabolism and the underlying molecular mechanisms are still limited. Here, we aimed to explore the role of circCAPRIN1 in regulating CRC lipid metabolism and tumorigenesis. Methods circRNA microarray was performed with three pairs of tumor and non‐tumor tissues from CRC patients. The expression of circRNAs were determined by quantitative PCR (qPCR) and in situ hybridization (ISH). The endogenous levels of circRNAs in CRC cells were manipulated by transfection with lentiviruses overexpressing or silencing circRNAs. The regulatory roles of circRNAs in the occurrence of CRC were investigated both in vitro and in vivo using gene expression array, RNA pull‐down/mass spectrometry, RNA immunoprecipitation assay, luciferase reporter assay, chromatin immunoprecipitation analysis, and fluorescence in situ hybridization (FISH). Results Among circRNAs, circCAPRIN1 was most significantly upregulated in CRC tissue specimens. circCAPRIN1 expression was positively correlated with the clinical stage and unfavorable prognosis of CRC patients. Downregulation of circCAPRIN1 suppressed proliferation, migration, and epithelial‐mesenchymal transition of CRC cells, while circCAPRIN1 overexpression had opposite effects. RNA sequencing and gene ontology analysis indicated that circCAPRIN1 upregulated the expressions of genes involved in CRC lipid metabolism. Moreover, circCAPRIN1 promoted lipid synthesis by enhancing Acetyl‐CoA carboxylase 1 (ACC1) expression. Further mechanistic assays demonstrated that circCAPRIN1 directly bound signal transducer and activator of transcription 2 (STAT2) to activate ACC1 transcription, thus regulating lipid metabolism and facilitating CRC tumorigenesis. Conclusions These findings revealed the oncogenic role and mechanism of circCAPRIN1 in CRC. circCAPRIN1 interacted with STAT2 to promote CRC tumor progression and lipid synthesis by enhancing the expression of ACC1. circCAPRIN1 may be considered as a novel potential diagnostic and therapeutic target for CRC patients.

Published

2023

19. Type I Interferonopathy due to a Homozygous Loss-of-Inhibitory Function Mutation in STAT2.

Author

Zhu, Gaofeng, Badonyi, Mihaly, Franklin, Lina, Seabra, Luis, Rice, Gillian I., Anne-Boland-Auge, Deleuze, Jean-François, El-Chehadeh, Salima, Anheim, Mathieu, de Saint-Martin, Anne, Pellegrini, Sandra, Marsh, Joseph A., Crow, Yanick J., and El-Daher, Marie-Therese

Subjects

*STAT proteins, *DEUBIQUITINATING enzymes, *TYPE I interferons, *GENE expression, *POLYMERASE chain reaction

Abstract

Purpose: STAT2 is both an effector and negative regulator of type I interferon (IFN-I) signalling. We describe the characterization of a novel homozygous missense STAT2 substitution in a patient with a type I interferonopathy. Methods: Whole-genome sequencing (WGS) was used to identify the genetic basis of disease in a patient with features of enhanced IFN-I signalling. After stable lentiviral reconstitution of STAT2-null human fibrosarcoma U6A cells with STAT2 wild type or p.(A219V), we performed quantitative polymerase chain reaction, western blotting, immunofluorescence, and co-immunoprecipitation to functionally characterize the p.(A219V) variant. Results: WGS identified a rare homozygous single nucleotide transition in STAT2 (c.656C > T), resulting in a p.(A219V) substitution, in a patient displaying developmental delay, intracranial calcification, and up-regulation of interferon-stimulated gene (ISG) expression in blood. In vitro studies revealed that the STAT2 p.(A219V) variant retained the ability to transduce an IFN-I stimulus. Notably, STAT2 p.(A219V) failed to support receptor desensitization, resulting in sustained STAT2 phosphorylation and ISG up-regulation. Mechanistically, STAT2 p.(A219V) showed defective binding to ubiquitin specific protease 18 (USP18), providing a possible explanation for the chronic IFN-I pathway activation seen in the patient. Conclusion: Our data indicate an impaired negative regulatory role of STAT2 p.(A219V) in IFN-I signalling and that mutations in STAT2 resulting in a type I interferonopathy state are not limited to the previously reported R148 residue. Indeed, structural modelling highlights at least 3 further residues critical to mediating a STAT2-USP18 interaction, in which mutations might be expected to result in defective negative feedback regulation of IFN-I signalling. [ABSTRACT FROM AUTHOR]

Published

2023

20. STAT2 hinders STING intracellular trafficking and reshapes its activation in response to DNA damage.

Author

Chenyao Wang, Jing Nan, Holvey-Bates, Elise, Xing Chen, Wightman, Samantha, Latif, Muhammad-Bilal, Junjie Zhao, Xiaoxia Li, Sen, Ganes C., Stark, George R., and Yuxin Wang

Subjects

*DNA repair, *STAT proteins, *STIMULUS & response (Psychology), *TRANSCRIPTION factors, *DNA damage

Abstract

In cancer cells, endogenous or therapy-induced DNA damage leads to the abnormal presence of DNA in the cytoplasm, which triggers the activation of cGAS (cyclic GMP–AMP synthase) and STING (stimulator of interferon genes). STAT2 suppresses the cGAMP-induced expression of IRF3-dependent genes by binding to STING, blocking its intracellular trafficking, which is essential for the full response to STING activation. STAT2 reshapes STING signaling by inhibiting the induction of IRF3-dependent, but not NF-κB–dependent genes. This noncanonical activity of STAT2 is regulated independently of its tyrosine phosphorylation but does depend on the phosphorylation of threonine 404, which promotes the formation of a STAT2:STING complex that keeps STING bound to the endoplasmic reticulum (ER) and increases resistance to DNA damage. We conclude that STAT2 is a key negative intracellular regulator of STING, a function that is quite distinct from its function as a transcription factor. [ABSTRACT FROM AUTHOR]

Published

2023

21. African Swine Fever Virus Cysteine Protease pS273R Inhibits Type I Interferon Signaling by Mediating STAT2 Degradation.

Author

Yu-Hui Li, Jiang-Ling Peng, Zhi-Sheng Xu, Mei-Guang Xiong, Huang-Ning Wu, Su-Yun Wang, Dan Li, Guo-Qiang Zhu, Yong Ran, and Yan-Yi Wang

Subjects

*AFRICAN swine fever virus, *TYPE I interferons, *STAT proteins, *AFRICAN swine fever, *CYSTEINE, *TRANSCRIPTION factors

Abstract

African swine fever virus (ASFV) is a large DNA virus that causes African swine fever (ASF), an acute and hemorrhagic disease in pigs with lethality rates of up to 100%. To date, how ASFV efficiently suppress the innate immune response remains enigmatic. In this study, we identified ASFV cysteine protease pS273R as an antagonist of type I interferon (IFN). Overexpression of pS273R inhibited JAK-STAT signaling triggered by type I IFNs. Mechanistically, pS273R interacted with STAT2 and recruited the E3 ubiquitin ligase DCST1, resulting in K48-linked polyubiquitination at K55 of STAT2 and subsequent proteasome-dependent degradation of STAT2. Furthermore, such a function of pS273R in JAK-STAT signaling is not dependent on its protease activity. These findings suggest that ASFV pS273R is important to evade host innate immunity. IMPORTANCE ASF is an acute disease in domestic pigs caused by infection with ASFV. ASF has become a global threat with devastating economic and ecological consequences. To date, there are no commercially available, safe, and efficacious vaccines to prevent ASFV infection. ASFV has evolved a series of strategies to evade host immune responses, facilitating its replication and transmission. Therefore, understanding the immune evasion mechanism of ASFV is helpful for the development of prevention and control measures for ASF. Here, we identified ASFV cysteine protease pS273R as an antagonist of type I IFNs. ASFV pS273R interacted with STAT2 and mediated degradation of STAT2, a transcription factor downstream of type I IFNs that is responsible for induction of various IFN-stimulated genes. pS273R recruited the E3 ubiquitin ligase DCST1 to enhance K48-linked polyubiquitination of STAT2 at K55 in a manner independent of its protease activity. These findings suggest that pS273R is important for ASFV to escape host innate immunity, which sheds new light on the mechanisms of ASFV immune evasion. [ABSTRACT FROM AUTHOR]

Published

2023

22. Signal Transducer and Activator of Transcription Proteins at the Nexus of Immunodeficiency, Autoimmunity and Cancer

Author

Clifford Liongue, Mohamed Luban Sobah, and Alister C. Ward

Subjects

cancer, cytokine, immunity, inflammation, STAT1, STAT2, Biology (General), QH301-705.5

Abstract

The signal transducer and activator of transcription (STAT) family of proteins has been demonstrated to perform pivotal roles downstream of a myriad of cytokines, particularly those that control immune cell production and function. This is highlighted by both gain-of-function (GOF) and loss-of-function (LOF) mutations being implicated in various diseases impacting cells of the immune system. These mutations are typically inherited, although somatic GOF mutations are commonly observed in certain immune cell malignancies. This review details the growing appreciation of STAT proteins as a key node linking immunodeficiency, autoimmunity and cancer.

Published

2023

23. Host-Specific NS5 Ubiquitination Determines Yellow Fever Virus Tropism.

Author

Miorin, Lisa, Laurent-Rolle, Maudry, Pisanelli, Giuseppe, Co, Pierre Hendrick, Albrecht, Randy A, García-Sastre, Adolfo, and Morrison, Juliet

Subjects

Infectious Diseases, Vaccine Related, Prevention, Biodefense, Biotechnology, Rare Diseases, Emerging Infectious Diseases, Vector-Borne Diseases, Immunization, Aetiology, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Animals, HEK293 Cells, Humans, Interferon-alpha, Interferon-beta, Mice, Mice, Knockout, STAT2 Transcription Factor, Ubiquitination, Viral Nonstructural Proteins, Viral Tropism, Yellow fever virus, Zika Virus, NS5, STAT2, flavivirus, host tropism, interferon, interferon antagonism, yellow fever virus, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology

Abstract

The recent yellow fever virus (YFV) epidemic in Brazil in 2017 and Zika virus (ZIKV) epidemic in 2015 serve to remind us of the importance of flaviviruses as emerging human pathogens. With the current global flavivirus threat, there is an urgent need for antivirals and vaccines to curb the spread of these viruses. However, the lack of suitable animal models limits the research questions that can be answered. A common trait of all flaviviruses studied thus far is their ability to antagonize interferon (IFN) signaling so as to enhance viral replication and dissemination. Previously, we reported that YFV NS5 requires the presence of type I IFN (IFN-α/β) for its engagement with human signal transducer and activator of transcription 2 (hSTAT2). In this manuscript, we report that like the NS5 proteins of ZIKV and dengue virus (DENV), YFV NS5 protein is able to bind hSTAT2 but not murine STAT2 (mSTAT2). Contrary to what has been demonstrated with ZIKV NS5 and DENV NS5, replacing mSTAT2 with hSTAT2 cannot rescue the YFV NS5-STAT2 interaction, as YFV NS5 is also unable to interact with hSTAT2 in murine cells. We show that the IFN-α/β-dependent ubiquitination of YFV NS5 that is required for STAT2 binding in human cells is absent in murine cells. In addition, we demonstrate that mSTAT2 restricts YFV replication in vivo These data serve as further impetus for the development of an immunocompetent mouse model that can serve as a disease model for multiple flaviviruses.IMPORTANCE Flaviviruses such as yellow fever virus (YFV), Zika virus (ZIKV), and dengue virus (DENV) are important human pathogens. A common flavivirus trait is the antagonism of interferon (IFN) signaling to enhance viral replication and spread. We report that like ZIKV NS5 and DENV NS5, YFV NS5 binds human STAT2 (hSTAT2) but not mouse STAT2 (mSTAT2), a type I IFN (IFN-α/β) pathway component. Additionally, we show that contrary to what has been demonstrated with ZIKV NS5 and DENV NS5, YFV NS5 is unable to interact with hSTAT2 in murine cells. We demonstrate that mSTAT2 restricts YFV replication in mice and that this correlates with a lack of IFN-α/β-induced YFV NS5 ubiquitination in murine cells. The lack of suitable animal models limits flavivirus pathogenesis, vaccine, and drug research. These data serve as further impetus for the development of an immunocompetent mouse model that can serve as a disease model for multiple flaviviruses.

Published

2019

24. Editorial: Exploring neuroinflammatory pathways that contribute to chronic pain, volume II.

Author

Lione, Lisa A. and Fisher, Amy

Subjects

CHRONIC pain, NEURAL stimulation, CYTOKINE receptors

Abstract

This document is an editorial published in the journal Frontiers in Pharmacology. It discusses the topic of neuroinflammatory pathways that contribute to chronic pain, specifically focusing on volume II of a research topic on this subject. The editorial highlights four original research articles included in volume II, which explore neuroinflammatory pathways in rodent models of neuropathic pain. The articles discuss the role of microglia, astrocytes, and non-coding RNAs in modulating neuroinflammation and provide insights into potential therapeutic strategies for chronic pain. The document emphasizes the need for new effective therapies for chronic pain conditions and the complexity of the pathophysiological mechanisms involved. [Extracted from the article]

Published

2024

25. Nipah Virus Impairs Autocrine IFN Signaling by Sequestering STAT1 and STAT2 into Inclusion Bodies.

Author

Becker, Nico and Maisner, Andrea

Subjects

*NIPAH virus, *CELLULAR inclusions, *STAT proteins, *GENE expression, *NONINVASIVE ventilation

Abstract

Nipah virus (NiV) is an emerging zoonotic paramyxovirus that causes fatal infections in humans. As with most disease-causing viruses, the pathogenic potential of NiV is linked to its ability to block antiviral responses, e.g., by antagonizing IFN signaling through blocking STAT proteins. One of the STAT1/2-binding proteins of NiV is the phosphoprotein (P), but its functional role in IFN antagonism in a full viral context is not well defined. As NiV P is required for genome replication and specifically accumulates in cytosolic inclusion bodies (IBs) of infected cells, we hypothesized that this compartmentalization might play a role in P-mediated IFN antagonism. Supporting this notion, we show here that NiV can inhibit IFN-dependent antiviral signaling via a NiV P-dependent sequestration of STAT1 and STAT2 into viral IBs. Consequently, the phosphorylation/activation and nuclear translocation of STAT proteins in response to IFN is limited, as indicated by the lack of nuclear pSTAT in NiV-infected cells. Blocking autocrine IFN signaling by sequestering STAT proteins in IBs is a not yet described mechanism by which NiV could block antiviral gene expression and provides the first evidence that cytosolic NiV IBs may play a functional role in IFN antagonism. [ABSTRACT FROM AUTHOR]

Published

2023

26. Downregulation of nuclear STAT2 protein in the spinal dorsal horn is involved in neuropathic pain following chronic constriction injury of the rat sciatic nerve.

Author

Zhifeng Huang, Zijing Ding, Yangting Xu, Caiyun Xi, Liqiong He, Hui Luo, Qulian Guo, and Changsheng Huang

Subjects

SCIATIC nerve injuries, NUCLEAR proteins, NEURALGIA, MAJOR histocompatibility complex, STAT proteins, MICROSATELLITE repeats

Abstract

Regulation of gene transcription in the spinal dorsal horn (SDH) plays a critical role in the pathophysiology of neuropathic pain. In this study, we investigated whether the transcription factor STAT2 affects neuropathic pain and evaluated its possible mechanisms. A proteomic analysis showed that the nuclear fraction of STAT2 protein in the SDH was downregulated after chronic constriction injury of the rat sciatic nerve, which was associated with the development of neuropathic pain. Similarly, siRNA-induced downregulation of STAT2 in the SDH of naïve rats also resulted in pain hypersensitivity. Using RNA-sequencing analysis, we showed that reduction of nuclear STAT2 after chronic constriction injury was associated with increased expression of microglial activation markers, including the class II transactivator and major histocompatibility complex class II proteins. In addition, siRNA-induced downregulation of STAT2 promoted microglial activation and proinflammatory cytokine expression in the SDH. Taken together, these results showed that chronic constriction injury caused downregulation of nuclear STAT2 in the SDH, which may result in microglial activation and development of neuropathic pain. Our findings indicate that restoration of nuclear expression of STAT2 could be a potential pathway for the treatment of neuropathic pain. [ABSTRACT FROM AUTHOR]

Published

2023

27. African swine fever virus ubiquitin-conjugating enzyme pI215L inhibits IFN-I signaling pathway through STAT2 degradation.

Author

Riera, Elena, García-Belmonte, Raquel, Madrid, Ricardo, Pérez-Núñez, Daniel, and Revilla, Yolanda

Subjects

AFRICAN swine fever, AFRICAN swine fever virus, UBIQUITIN-conjugating enzymes, STAT proteins, VIRUS-induced enzymes, CELLULAR signal transduction

Abstract

African swine fever virus (ASFV) is the causative agent of one of the most lethal diseases affecting domestic pig and wild boar, which is endangering the swine industry due to its rapid expansion. ASFV has developed different mechanisms to evade the host immune response, including inhibition of type I IFN (IFN-I) production and signaling, since IFN-I is a key element in the cellular antiviral response. Here, we report a novel mechanism of evasion of the IFN-I signaling pathway carried out by the ASFV ubiquitin-conjugating enzyme pI215L. Our data showed that pI215L inhibited IFN-stimulated response element (ISRE) activity and the consecutive mRNA induction of the IFN-stimulated genes ISG15 and IFIT1 through the ubiquitination and proteasomal degradation of STAT2. Additionally, by immunofluorescence, co-immunoprecipitation and nucleus-cytoplasm fractionation approaches, we have confirmed the interaction and colocalization of STAT2 and pI215L, in ectopic experiments and during ASFV infection. Moreover, expression of the catalytic mutant (I215L-C85A) did not inhibit the induction of ISG15 and IFIT1, nor the activity of ISRE. Furthermore, we confirmed that STAT2 degradation by pI215L is dependent on its catalytic activity, since expression of the pI215L-C85A mutant did not affect STAT2 levels, compared to the wild-type protein. Yet, our data reveal that the interaction of pI215L with STAT2 does not require the integrity of its catalytic domain since the pI215L-C85A mutant co-immunoprecipitates with STAT2. All these findings reveal, for the first time, the involvement of E2-ubiquitin-conjugating enzyme activity of pI215L in the immune response modulation. [ABSTRACT FROM AUTHOR]

Published

2023

28. Integrative bioinformatics analysis reveals STAT2 as a novel biomarker of inflammation-related cardiac dysfunction in atrial fibrillation.

Author

Cairong Li, Guanhua Li, Sijia Tu, Xinghua Bai, and Hong Yuan

Abstract

Atrial fibrillation (AF) is a common critical cause of stroke and cardiac dysfunction worldwide with lifetime risks. Viral infection and inflammatory response with myocardial involvement may lead to an increase in AF-related mortality. To dissect the potential sequelae of viral infection in AF patients, especially the coronavirus disease 2019 (COVID-19), based on AF and COVID-19 databases from Gene Expression Omnibus, weighted gene co-expression network analysis was used to identify key genes in heart tissues and peripheral blood mononuclear cells. Here, HSCT, PSMB9, STAT2, and TNFSF13B were identified as common risk genes of AF and COVID-19 patients. Correlation analysis of these genes with AF and COVID-19 showed a positive disease relevance. silencing of STAT2 by small interfering RNA significantly rescued SARS-CoV-2 XBB1.5 pseudovirus-induced cardiac cell contraction dysfunction in vitro. In conclusion, we identified STAT2 may be a novel biomarker of inflammation-related cardiac dysfunction in AF. [ABSTRACT FROM AUTHOR]

Published

2023

29. Molecular cloning, expression and functional analysis of STAT2 in orange-spotted grouper, Epinephelus coioides.

Author

Qin, Yinghui, Liu, Haixiang, Zhang, Peipei, Deng, Si, Qiu, Reng, and Yao, Lunguang

Subjects

*MOLECULAR cloning, *CORAL trout, *STAT proteins, *GROUPERS, *EPINEPHELUS, *TYPE I interferons, *ORANGES

Abstract

Signal transducer and activator of transcription 2 (STAT2) is an important molecule involved in the type I interferon signaling pathway. To better understand the functions of STAT2 in fish immune response, a STAT2 gene from orange-spotted grouper (Epinephelus coioides) (EcSTAT2) was cloned and characterized in this study. EcSTAT2 encoded a 802-amino acid peptide which shared 99.5% and 91.5% identity with giant grouper (Epinephelus lanceolatus) and leopard coral grouper (Plectropomus leopardus), respectively. Amino acid alignment analysis showed that EcSTAT2 contained five conserved domains, including N-terminal protein interaction domain, coiled coil domain (CCD), DNA binding domain (DBD), Src-homology 2 (SH2) domain, and C-terminal transactivation domain (TAD). Phylogenetic analysis indicated that EcSTAT2 clustered into fish STAT2 group and showed the nearest relationship to giant grouper STAT2. In healthy grouper, EcSTAT2 was distributed in all tissues tested, and the expression of EcSTAT2 was predominantly detected in spleen, kidney and gill. In vitro, EcSTAT2 expression was significantly increased in response to polyinosinic:polycytidylic acid [poly (I:C)] stimulation and red-spotted grouper nervous necrosis virus (RGNNV) infection. Subcellular localization showed that EcSTAT2 was located in the cytoplasm in a punctate manner. EcSTAT2 overexpression significantly inhibited RGNNV replication, as evidenced by the decreased severity of cytopathic effect (CPE) and the reduced expression levels of viral genes and protein. Consistently, knockdown of EcSTAT2 using small interfering RNA (siRNA) promoted RGNNV replication. Furthermore, EcSTAT2 overexpression increased both interferon (IFN) and interferon stimulated genes (ISGs) expression. In addition, EcSTAT2 knockdown decreased the transcription levels of IFN and ISGs. Together, our data demonstrated that EcSTAT2 exerted antiviral activity against RGNNV through up-regulation of host interferon response. • Identification of a STAT2 (EcSTAT2) homolog from orange-spotted grouper. • Subcellular localization and tissue distribution of EcSTAT2. • Expression pattern of EcSTAT2 in response to poly (I:C) and RGNNV. • EcSTAT2 inhibits RGNNV replication. • EcSTAT2 upregulates IFN and ISGs expression. [ABSTRACT FROM AUTHOR]

Published

2022

30. Different activation of STAT1 and STAT2 phosphorylation by IFNc, IFNd, and IFNh in tilapia.

Author

Wen, Qingqing, Tang, Shaoshuai, Mo, Jingyi, Zhang, Meiling, Long, Meng, Lu, Yishan, and Gan, Zhen

Subjects

*NILE tilapia, *STAT proteins, *IDENTIFICATION of fishes, *MOLECULAR cloning, *TILAPIA

Abstract

Type I IFNs are a subset of cytokines exerting their antiviral effects mainly through the JAK-STAT signalling. Immunogenetic studies have shown that fish possess key components of IFN-JAK-STAT cascade, but the information about the distinct responses of STAT1 and STAT2 to different IFNs is rather limited in fish. Here, we identified and cloned STAT1 and STAT2 genes (named as On-STAT1 and On-STAT2) from tilapia, Oreochromis niloticus. On-STAT1 and On-STAT2 genes were detected in all orangs/tissues examined, and were rapidly induced in spleen, head kidney, and liver following the stimulation of poly(I:C). In addition, the stimulation of poly(I:C), poly(A:T), and different subgroups of recombinant IFNs could induce the expression of On-STAT1 and On-STAT2 in TA-02 cells with distinct induction levels. Importantly, On-STAT2 was rapidly phosphorylated by all three subgroups of IFNs, but the phosphorylation of On-STAT1 was only observed in IFNc- and IFNh-treated TA-02 cells, reflecting the distinct activation of STAT by different subgroups of fish IFNs. The present results thus contribute to better understanding of the JAK-STAT signalling mediated by different subgroups of IFNs in fish. • STAT1 and STAT2 genes were identified and characterized in tilapia. • STAT1 and STAT2 genes were ubiquitously expressed in all tested tissues and up-regulated after poly(I:C) stimulation in vivo. • Poly(I:C) and poly(A:T) differently induced the expression of STAT1 and STAT2 in TA-02 cells. • Recombinant IFNc, IFNd, and IFNh markedly induced the expression of STAT1 and STAT2 in TA-02 cells. • Recombinant IFNc, IFNd, and IFNh differently induced the tyrosine phosphorylation of STAT1 and STAT2 in TA-02 cells. [ABSTRACT FROM AUTHOR]

Published

2024

31. African swine fever virus ubiquitin-conjugating enzyme pI215L inhibits IFN-I signaling pathway through STAT2 degradation

Author

Elena Riera, Raquel García-Belmonte, Ricardo Madrid, Daniel Pérez-Núñez, and Yolanda Revilla

Subjects

ASFV, pI215L, ubiquitin-conjugating enzyme, IFN-I, STAT2, proteasomal degradation, Microbiology, QR1-502

Abstract

African swine fever virus (ASFV) is the causative agent of one of the most lethal diseases affecting domestic pig and wild boar, which is endangering the swine industry due to its rapid expansion. ASFV has developed different mechanisms to evade the host immune response, including inhibition of type I IFN (IFN-I) production and signaling, since IFN-I is a key element in the cellular antiviral response. Here, we report a novel mechanism of evasion of the IFN-I signaling pathway carried out by the ASFV ubiquitin-conjugating enzyme pI215L. Our data showed that pI215L inhibited IFN-stimulated response element (ISRE) activity and the consecutive mRNA induction of the IFN-stimulated genes ISG15 and IFIT1 through the ubiquitination and proteasomal degradation of STAT2. Additionally, by immunofluorescence, co-immunoprecipitation and nucleus-cytoplasm fractionation approaches, we have confirmed the interaction and colocalization of STAT2 and pI215L, in ectopic experiments and during ASFV infection. Moreover, expression of the catalytic mutant (I215L-C85A) did not inhibit the induction of ISG15 and IFIT1, nor the activity of ISRE. Furthermore, we confirmed that STAT2 degradation by pI215L is dependent on its catalytic activity, since expression of the pI215L-C85A mutant did not affect STAT2 levels, compared to the wild-type protein. Yet, our data reveal that the interaction of pI215L with STAT2 does not require the integrity of its catalytic domain since the pI215L-C85A mutant co-immunoprecipitates with STAT2. All these findings reveal, for the first time, the involvement of E2-ubiquitin-conjugating enzyme activity of pI215L in the immune response modulation.

Published

2023

32. Zika virus NS2A inhibits interferon signaling by degradation of STAT1 and STAT2

Author

Elisa Fanunza, Fabrizio Carletti, Marina Quartu, Nicole Grandi, Laura Ermellino, Jessica Milia, Angela Corona, Maria Rosaria Capobianchi, Giuseppe Ippolito, and Enzo Tramontano

Subjects

zika virus, ns2a, interferon, ifn signaling, ifn evasion, stat1, stat2, degradation, phosphorylation, Infectious and parasitic diseases, RC109-216

Abstract

The Interferon (IFN) response is crucial to restrain pathogenic infections. Investigations into flavivirus-host interactions reported that the high virulence is linked to innate immune evasion. Zika Virus (ZIKV) has developed diversified strategies to evade the innate immune system. We report that the viral protein NS2A counteracts the IFN response by strongly suppressing the IFN signaling. NS2A targets transcription factors STAT1 and STAT2, to impede their nuclear localization, thereby suppressing the transcription of ISRE promoter and IFN-stimulated genes. We found that NS2A promotes degradation of STAT1 and STAT2. Treatment of NS2A transfected cells with MG132 restores the levels of both transcription factors, suggesting the involvement of the proteasome system. Given the impact that the IFN antagonism has on flavivirus virulence, the knowledge gained by characterizing the mechanism through which ZIKV evades the IFN response paves the ground for new strategies to attenuate the pathogenesis and to develop countermeasures against effective pharmacological targets.

Published

2021

33. Initial activation of STAT2 induced by IAV infection is critical for innate antiviral immunity.

Author

Xinxin Li, Siya Liu, Rai, Kul Raj, Wenzhuo Zhou, Song Wang, Xiaojuan Chi, Guijie Guo, Ji-Long Chen, and Shasha Liu

Subjects

STAT proteins, JANUS kinases, NATURAL immunity, VIRUS diseases, INFLUENZA A virus, KINASES

Abstract

STAT2 is an important transcription factor activated by interferons (IFNs) upon viral infection and plays a key role in antiviral responses. Interestingly, here we found that phosphorylation of STAT2 could be induced by several viruses at early infection stage, including influenza A virus (IAV), and such initial activation of STAT2 was independent of type I IFNs and JAK kinases. Furthermore, it was observed that the early activation of STAT2 during viral infection was mainly regulated by the RIG-I/MAVS-dependent pathway. Disruption of STAT2 phosphorylation at Tyr690 restrained antiviral response, as silencing STAT2 or blocking STAT2 Y690 phosphorylation suppressed the expression of several interferon-stimulated genes (ISGs), thereby facilitating viral replication. In vitro experiments using overexpression system or kinase inhibitors showed that several kinases including MAPK12 and Syk were involved in regulation of the early phosphorylation of STAT2 triggered by IAV infection. Moreover, when MAPK12 kinase was inhibited, expression of several ISGs was clearly decreased in cells infected with IAV at the early infection stage. Accordingly, inhibition of MAPK12 accelerated the replication of influenza virus in host. These results provide a better understanding of how initial activation of STAT2 and the early antiviral responses are induced by the viral infection. [ABSTRACT FROM AUTHOR]

Published

2022

34. LGR6 protects against myocardial ischemia-reperfusion injury via suppressing necroptosis.

Author

Zhao M, Zheng Z, Liu J, Xu Y, Zhang J, Peng S, Qin JJ, Wan J, and Wang M

Abstract

Regulated necrosis (necroptosis) and apoptosis are important biological features of ischemia-reperfusion (I/R) injury. However, the molecular mechanisms underlying myocardial necroptosis remain elusive. Leucine rich repeat containing G protein-coupled receptor 6 (LGR6) has been reported to play important roles in various cardiovascular disease. In this study, we aimed to determine whether LGR6 suppresses I/R-induced myocardial necroptosis and the underlying molecular mechanisms. We generated LGR6 knockout mice and used ligation of left anterior descending coronary artery to produce an in vivo I/R model. The effects of LGR6 and its downstream molecules were subsequently identified using RNA sequencing and CHIP assays. We observed significantly downregulated LGR6 expression in hearts post myocardial I/R and cardiomyocytes post hypoxia and reoxygenation (HR). LGR6 deficiency promoted and LGR6 overexpression inhibited necroptosis and acute myocardial injury after I/R. Mechanistically, in vivo and in vitro experiments suggest that LGR6 regulates the expression of STAT2 and ZBP1 by activating the Wnt signaling pathway, thereby inhibiting cardiomyocyte necroptosis after HR. Inhibiting STAT2 and ZBP1 effectively alleviated the aggravating effect of LGR6 deficiency on myocardial necroptosis after I/R. Furthermore, activating LGR6 with RSPO3 also effectively protected mice from acute myocardial I/R injury. Our findings reveal that RSPO3-LGR6 axis downregulates the expression of STAT2 and ZBP1 through the Wnt signaling pathway, thereby inhibiting I/R-induced myocardial injury and necroptosis. Targeting the RSPO3-LGR6 axis may be a potential therapeutic strategy to treat myocardial I/R injury., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

35. Implementation of a combined bioinformatics and experimental approach to address lncRNA mechanism of action: The example of NRIR

Author

Barbara Mariotti, Costanza Di Blas, and Flavia Bazzoni

Subjects

NRIR, ISG, STAT1, STAT2, lncRNA structure, monocytes, Biology (General), QH301-705.5

Abstract

In this study, we demonstrate the benefit of applying combined strategies to analyze lncRNA action based on bioinformatics and experimental information. This strategy was developed to identify the molecular function of negative regulator of interferon response (NRIR), a type I interferon-stimulated gene (ISG), that we have previously demonstrated to be involved in the upregulation of a subset of ISGs in LPS-stimulated human monocytes. In this study, we provide experimental evidence that NRIR is localized in cellular nuclei, enriched on the chromatin fraction, and upregulates ISGs acting at the transcriptional level. In silico analysis of secondary structures identified distinct NRIR structural domains, comprising putative DNA- and protein-binding regions. In parallel, the presence of a putative DNA-binding domain in NRIR and the five putative NRIR-binding sites in the promoter of NRIR-target genes support the function of NRIR as a transcriptional regulator of its target genes. By use of integrated experimental/bioinformatics approaches, comprising database and literature mining together with in silico analysis of putative NRIR-binding proteins, we identified a list of eight transcription factors (TFs) shared by the majority of NRIR-target genes and simultaneously able to bind TF binding sites enriched in the NRIR-target gene promoters. Among these TFs, the predicted NRIR:STAT interactions were experimentally validated by RIP assay.

Published

2022

36. Cross-Species Analysis of Innate Immune Antagonism by Cytomegalovirus IE1 Protein.

Author

Rothemund, Franziska, Scherer, Myriam, Schilling, Eva-Maria, Schweininger, Johannes, Muller, Yves A., and Stamminger, Thomas

Subjects

*HUMAN cytomegalovirus, *VIRAL proteins, *CYTOMEGALOVIRUSES, *PROTEINS, *DNA replication, *STAT proteins, *PROTEIN-protein interactions

Abstract

The human cytomegalovirus (CMV) immediate early 1 (IE1) protein has evolved as a multifunctional antagonist of intrinsic and innate immune mechanisms. In addition, this protein serves as a transactivator and potential genome maintenance protein. Recently, the crystal structures of the human and rat CMV IE1 (hIE1, rIE1) core domain were solved. Despite low sequence identity, the respective structures display a highly similar, all alpha-helical fold with distinct variations. To elucidate which activities of IE1 are either species-specific or conserved, this study aimed at a comparative analysis of hIE1 and rIE1 functions. To facilitate the quantitative evaluation of interactions between IE1 and cellular proteins, a sensitive NanoBRET assay was established. This confirmed the species-specific interaction of IE1 with the cellular restriction factor promyelocytic leukemia protein (PML) and with the DNA replication factor flap endonuclease 1 (FEN1). To characterize the respective binding surfaces, helix exchange mutants were generated by swapping hIE1 helices with the corresponding rIE1 helices. Interestingly, while all mutants were defective for PML binding, loss of FEN1 interaction was confined to the exchange of helices 1 and 2, suggesting that FEN1 binds to the stalk region of IE1. Furthermore, our data reveal that both hIE1 and rIE1 antagonize human STAT2; however, distinct regions of the respective viral proteins mediated the interaction. Finally, while PML, FEN1, and STAT2 binding were conserved between primate and rodent proteins, we detected that rIE1 lacks a chromatin tethering function suggesting that this activity is dispensable for rat CMV. In conclusion, our study revealed conserved and distinct functions of primate and rodent IE1 proteins, further supporting the concept that IE1 proteins underwent a narrow co-evolution with their respective hosts to maximize their efficacy in antagonizing innate immune mechanisms and supporting viral replication. [ABSTRACT FROM AUTHOR]

Published

2022

37. Multi-omics analysis for potential inflammation-related genes involved in tumour immune evasion via extended application of epigenetic data

Author

Chenshen Huang, Ning Wang, Na Zhang, Zhizhong Chen, Zhizhan Ni, Xiaohong Liu, Hao Xiong, Huahao Xie, Boxu Lin, Bujun Ge, Qi Huang, and Bing Du

Subjects

STAT2, PD-L1, immune evasion, ATAC-seq, immune checkpoint therapy, epigenetics, Biology (General), QH301-705.5

Abstract

Accumulating evidence suggests that inflammation-related genes may play key roles in tumour immune evasion. Programmed cell death ligand 1 (PD-L1) is an important immune checkpoint involved in mediating anti-tumour immunity. We performed multi-omics analysis to explore key inflammation-related genes affecting the transcriptional regulation of PD-L1 expression. The open chromatin region of the PD-L1 promoter was mapped using the assay for transposase-accessible chromatin using sequencing (ATAC-seq) profiles. Correlation analysis of epigenetic data (ATAC-seq) and transcriptome data (RNA-seq) were performed to identify inflammation-related transcription factors (TFs) whose expression levels were correlated with the chromatin accessibility of the PD-L1 promoter. Chromatin immunoprecipitation sequencing (ChIP-seq) profiles were used to confirm the physical binding of the TF STAT2 and the predicted binding regions. We also confirmed the results of the bioinformatics analysis with cell experiments. We identified chr9 : 5449463–5449962 and chr9 : 5450250–5450749 as reproducible open chromatin regions in the PD-L1 promoter. Moreover, we observed a correlation between STAT2 expression and the accessibility of the aforementioned regions. Furthermore, we confirmed its physical binding through ChIP-seq profiles and demonstrated the regulation of PD-L1 by STAT2 overexpression in vitro. Multiple databases were also used for the validation of the results. Our study identified STAT2 as a direct upstream TF regulating PD-L1 expression. The interaction of STAT2 and PD-L1 might be associated with tumour immune evasion in cancers, suggesting the potential value for tumour treatment.

Published

2022

38. Angiotensin-Converting Enzyme 2 Potentiates SARS-CoV-2 Infection by Antagonizing Type I Interferon Induction and Its Down-Stream Signaling Pathway

Author

Jian Chen, Jian Liu, Zhilu Chen, Haoran Peng, Cuisong Zhu, Daobin Feng, Shuye Zhang, Ping Zhao, Xiaoyan Zhang, and Jianqing Xu

Subjects

ACE2, SARS-CoV-2, IRF3, STAT2, Interferon signaling, Microbiology, QR1-502

Abstract

ABSTRACT The innate interferon (IFN) response constitutes the first line of host defense against viral infections. It has been shown that IFN-I/III treatment could effectively contain severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) replication in vitro. However, how SARS-CoV-2 survives through the innate antiviral mechanism remains to be explored. Our study uncovered that human angiotensin-converting enzyme 2 (ACE2), identified as a primary receptor for SARS-CoV-2 entry, can disturb the IFN-I signaling pathway during SARS-CoV-2 infection in human lung cells. We identified that ACE2 was significantly upregulated by SARS-CoV-2 and Sendai virus (SeV) infection, and exogenous expression of ACE2 suppressed IFN-I production in a dose-dependent manner. Mechanistically, ACE2 disrupted poly (I:C)-mediated inhibition of SARS-CoV2 replication by antagonizing IFN-I production by blocking IRF3 phosphorylation and nuclear translocation. Moreover, ACE2 quenched the IFN-mediated antiviral immune response by degrading endogenous STAT2 protein, inhibiting STAT2 phosphorylation and nuclear translocation. Interestingly, IFN-inducible short ACE2 (dACE2 or MIRb-ACE2) can also be induced by virus infection and inhibits the IFN signaling. Thus, our findings provide mechanistic insight into the distinctive role of ACE2 in promoting SARS-CoV-2 infection and enlighten us that the development of interventional strategies might be further optimized to interrupt ACE2-mediated suppression of IFN-I and its signaling pathway. IMPORTANCE Efficient antiviral immune responses against SARS-CoV-2 infection play a key role in controlling the coronavirus diseases 2019 (COVID-19) caused by this virus. Although SARS-CoV-2 has developed strategies to counteract the IFN-I signaling through the virus-derived proteins, our knowledge of how SARS-CoV-2 survives through the innate antiviral mechanism remains poor. We herein discovered the distinctive role of ACE2 as a restraining factor of the IFN-I signaling in facilitating SARS-CoV-2 infection in human lung cells. Both full-length ACE2 and truncated dACE2 can antagonize IFN-mediated antiviral response. These findings are key to understanding the counteraction between SARS-CoV-2 pathogenicity and the host antiviral defenses.

Published

2022

39. Interaction of ZIKV NS5 and STAT2 Explored by Molecular Modeling, Docking, and Simulations Studies

Author

Armijos-Capa, Gerardo, Pozo-Guerrón, Paúl, Torres, F. Javier, Méndez, Miguel M., Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Pandu Rangan, C., Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Rojas, Ignacio, editor, Valenzuela, Olga, editor, Rojas, Fernando, editor, and Ortuño, Francisco, editor

Published

2019

40. STAT2-dependent restriction of Zika virus by human macrophages but not dendritic cells

Author

Dong Yang, Hin Chu, Gang Lu, Huiping Shuai, Yixin Wang, Yuxin Hou, Xi Zhang, Xiner Huang, Bingjie Hu, Yue Chai, Terrence Tsz-Tai Yuen, Xiaoyu Zhao, Andrew Chak-Yiu Lee, Ziwei Ye, Cun Li, Kenn Ka-Heng Chik, Anna Jinxia Zhang, Jie Zhou, Shuofeng Yuan, and Jasper Fuk-Woo Chan

Subjects

Dendritic cells, flavivirus, macrophages, interferon signaling, STAT1, STAT2, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Zika virus (ZIKV) is an emerging mosquito-borne flavivirus that poses significant threats to global public health. Macrophages and dendritic cells are both key sentinel cells in the host immune response and play critical roles in the pathogenesis of flavivirus infections. Recent studies showed that ZIKV could productively infect monocyte-derived dendritic cells (moDCs), but the role of macrophages in ZIKV infection remains incompletely understood. In this study, we first compared ZIKV infection in monocyte-derived macrophages (MDMs) and moDCs derived from the same donors. We demonstrated that while both MDMs and moDCs were susceptible to epidemic (Puerto Rico) and pre-epidemic (Uganda) strains of ZIKV, virus replication was largely restricted in MDMs but not in moDCs. ZIKV induced significant apoptosis in moDCs but not MDMs. The restricted virus replication in MDMs was not due to inefficient virus entry but was related to post-entry events in the viral replication cycle. In stark contrast with moDCs, ZIKV failed to inhibit STAT1 and STAT2 phosphorylation in MDMs. This resulted in the lack of efficient antagonism of the host type I interferon-mediated antiviral responses. Importantly, depletion of STAT2 but not STAT1 in MDMs significantly rescued the replication of ZIKV and the prototype flavivirus yellow fever virus. Overall, our findings revealed a differential interplay between macrophages and dendritic cells with ZIKV. While dendritic cells may be exploited by ZIKV to facilitate virus replication, macrophages restricted ZIKV infection.

Published

2021

41. NS5-independent Ablation of STAT2 by Zika virus to antagonize interferon signalling

Author

Jun Shu, Xiao Ma, Yang Zhang, Jingyi Zou, Zhenghong Yuan, and Zhigang Yi

Subjects

Flavivirus, Zika virus (ZIKV), interferon, interferon antagonize, STAT2, de novo protein synthesis, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Flavivirus genus includes numerous arthropod-borne human pathogens that are clinically important. Flaviviruses are notorious for their ability to antagonize host interferon (IFN) induced anti-viral signalling. It has been documented that NS5s of flaviviruses mediate proteasome degradation of STAT2 to evade IFN signalling. Deciphering the molecular mechanism of the IFN antagonism by the viruses and reversing this antagonism may dictate anti-viral responses and provide novel antiviral approaches. In this report, by using Zika virus (ZIKV) as a model, we first demonstrated that ZIKV antagonized interferon signalling in an infectious dose-dependent manner; in other words, the virus antagonized interferon signalling at a high multiple of infection (MOI) and was sensitive to interferon signalling at a low MOI. Mechanistically, we found that ZIKV infection triggered degradation of ubiquitinated STAT2 and host short-lived proteins while didn't affect the proteasome activity per se. ZIKV infection resulted in suppression of host de novo protein synthesis. Overexpression of NS5 alone only marginally reduced STAT2 and had no effect on the host de novo protein synthesis. Ectopically expressed murine STAT2 that was resistant to NS5- and ZIKV-induced ablation exaggerated the IFN-induced anti-viral signalling. These data favour a new model of the innate immune evasion of ZIKV in which the viral infection triggers suppression of host de novo protein synthesis to accelerate the degradation of short-lived, ubiquitinated STAT2. As flaviviruses share a very conserved replication strategy, the mechanisms of IFN antagonism elucidated here might also be employed by other flaviviruses.

Published

2021

42. La Piedad Michoacán Mexico Virus V protein antagonizes type I interferon response by binding STAT2 protein and preventing STATs nuclear translocation

Author

Pisanelli, Giuseppe, Laurent-Rolle, Maudry, Manicassamy, Balaji, Belicha-Villanueva, Alan, Morrison, Juliet, Lozano-Dubernard, Bernardo, Castro-Peralta, Felipa, Iovane, Giuseppe, and García-Sastre., Adolfo

Subjects

Biochemistry and Cell Biology, Biological Sciences, Vaccine Related, Prevention, Infectious Diseases, Biodefense, Animals, Cell Line, Humans, Interferon Type I, Protein Binding, Protein Transport, Rubulavirus, STAT2 Transcription Factor, Swine, Viral Proteins, (LPMV) La Piedad Michoacan Mexico Virus, LPMV-V, STAT2, Interferon-signaling antagonist, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

La Piedad Michoacán Mexico Virus (LPMV) is a member of the Rubulavirus genus within the Paramyxoviridae family. LPMV is the etiologic agent of "blue eye disease", causing a significant disease burden in swine in Mexico with long-term implications for the agricultural industry. This virus mainly affects piglets and is characterized by meningoencephalitis and respiratory distress. It also affects adult pigs, causing reduced fertility and abortions in females, and orchitis and epididymitis in males. Viruses of the Paramyxoviridae family evade the innate immune response by targeting components of the interferon (IFN) signaling pathway. The V protein, expressed by most paramyxoviruses, is a well-characterized IFN signaling antagonist. Until now, there were no reports on the role of the LPMV-V protein in inhibiting the IFN response. In this study we demonstrate that LPMV-V protein antagonizes type I but not type II IFN signaling by binding STAT2, a component of the type I IFN cascade. Our results indicate that the last 18 amino acids of LPMV-V protein are required for binding to STAT2 in human and swine cells. While LPMV-V protein does not affect the protein levels of STAT1 or STAT2, it does prevent the IFN-induced phosphorylation and nuclear translocation of STAT1 and STAT2 thereby inhibiting cellular responses to IFN α/β.

Published

2016

43. The Human STAT2 Coiled-Coil Domain Contains a Degron for Zika Virus Interferon Evasion.

Author

Parisien, Jean-Patrick, Lenoir, Jessica J., Alvarado, Gloria, and Horvath, Curt M.

Subjects

*ZIKA virus, *STAT proteins, *ZIKA virus infections, *TYPE I interferons, *VIRAL proteins, *PROTEASOMES

Abstract

The ability of viruses to evade the host antiviral immune system determines their level of replication fitness, species specificity, and pathogenic potential. Flaviviruses rely on the subversion of innate immune barriers, including the type I and type III interferon (IFN) antiviral systems. Zika virus infection induces the degradation of STAT2, an essential component of the IFN-stimulated gene transcription factor ISGF3. The mechanisms that lead to STAT2 degradation by Zika virus are poorly understood, but it is known to be mediated by the viral NS5 protein that binds to STAT2 and targets it for proteasome-mediated destruction. To better understand how NS5 engages and degrades STAT2, functional analysis of the protein interactions that lead to Zika virus and NS5-dependent STAT2 proteolysis were investigated. Data implicate the STAT2 coiled-coil domain as necessary and sufficient for NS5 interaction and proteasome degradation after Zika virus infection. Molecular dissection reveals that the first two a-helices of the STAT2 coiled-coil domain contain a specific targeting region for IFN antagonism. These functional interactions provide a more complete understanding of the essential protein-protein interactions needed for Zika virus evasion of the host antiviral response and identify new targets for antiviral therapeutic approaches. [ABSTRACT FROM AUTHOR]

Published

2022

44. LncRNA DLX6-AS1 Promotes the Progression of Neuroblastoma by Activating STAT2 via Targeting miR-506-3p

Author

Hu Y, Sun H, Hu J, and Zhang X

Subjects

dlx6-as1, mir-506-3p, stat2, neuroblastoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Yanping Hu, Huifang Sun, Jiting Hu, Xiaomin Zhang Department of Pediatrics, Luoyang Central Hospital Affiliated to Zhengzhou University, Luoyang, Henan 471009, People’s Republic of ChinaCorrespondence: Yanping HuDepartment of Pediatrics, Luoyang Central Hospital Affiliated to Zhengzhou University, No. 288 Zhongzhou Middle Road, Luoyang, Henan 471009, People’s Republic of ChinaTel +86-379-63892018 Email qmm4ijn@163.comBackground: Neuroblastoma (NB) is a common malignant tumor of the sympathetic nervous system, mainly disturbing children. Long non-coding RNAs (lncRNAs) serving as promising cancer biomarkers have been well recognized. Our study intends to explore the functions of lncRNA X–inactive specific transcript (DLX6-AS1) in NB and provide a potential action mechanism.Methods: The expression of DLX6-AS1, miR-506-3p and signal transducer and activator of transcription 2 (STAT2) was measured by quantitative real-time polymerase chain reaction (qRT-PCR). Cell proliferation was assessed using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay and colony formation assay. Cell cycle distribution was determined by flow cytometry assay. The protein level of cell cycle-related markers and STAT2 was detected by Western blot. Glycolysis progress was evaluated according to glucose consumption, lactate production and ATP level. The target genes were predicted by the online database Starbase3.0 and verified by dual-luciferase reporter assay.Results: DLX6-AS1 expression was highly elevated in NB tissues and cells. DLX6-AS1 deficiency inhibited NB cell proliferation, cell cycle and glycolysis in vitro. MiR-506-3p was a target of DLX6-AS1, and miR-506-3p absence partly reversed the effects of DLX6-AS1 deficiency. Besides, STAT2 was targeted by miR-506-3p, and its expression was regulated by DLX6-AS1 through miR-506-3p. MiR-506-3p restoration also inhibited NB cell malignant behaviors, and STAT2 overexpression partially abolished the role of miR-506-3p restoration. Moreover, DLX6-AS1 deficiency weakened tumor growth in vivo.Conclusion: DLX6-AS1 regulated cell proliferation, cell cycle and glycolysis in vitro and tumor growth in vivo to promote the development of NB by upregulating STAT2 via targeting miR-506-3p.Keywords: DLX6-AS1, miR-506-3p, STAT2, neuroblastoma

Published

2020

45. TRIM66 promotes malignant progression of prostate carcinoma through the JAK/STAT pathway

Author

Hongwen Cao, Renjie Gao, Lei Chen, and Yigeng Feng

Subjects

IL‐2, prostate cancer, STAT2, TRIM66, Biology (General), QH301-705.5

Abstract

Prostate cancer is the fifth leading cause of cancer‐related deaths in males globally. Tripartite Motif Containing 66 (TRIM66) functions as transcriptional repressor and exerts its effect at least partially through promotion of deacetylase. TRIM66 has been previously reported to play an oncogenic role in a number of human cancers. Here, we investigated the potential oncogenic properties of TRIM66 in prostate cancer. We report that shRNA‐mediated knockdown of TRIM66 significantly suppressed viability and proliferation of both PC‐3 and DU145 prostate cancer cell lines. Furthermore, TRIM66 deficiency inhibited migration and invasion of prostate cancer cells. Mechanistically, TRIM66 positively regulated signal transducer and activator of transcription 2 (STAT2) and interleukin‐2 (IL‐2) expression. The predominance of STAT2–IL‐2 in mediating the oncogenic properties of TRIM66 was determined using a rescue assay, wherein overexpression of either STAT2 or IL‐2 almost completely abolished the inhibitory effects on cell proliferation, migration and invasion elicited by TRIM66 deficiency in prostate cancer cells. Our study highlights the importance of the TRIM66–STAT2–IL‐2 signaling axis in the tumor biology of prostate cancer.

Published

2020

46. Tick-borne encephalitis virus NS4A ubiquitination antagonizes type I interferon-stimulated STAT1/2 signalling pathway

Author

Qi Yang, Jia You, Yuan Zhou, Yun Wang, Rongjuan Pei, Xinwen Chen, Min Yang, and Jizheng Chen

Subjects

Tick-borne encephalitis virus (TBEV), NS4A, ubiquitination, STAT1, STAT2, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

ABSTRACTTick-borne encephalitis virus (TBEV) accounts for approximately 10,000 annual cases of severe encephalitis in Europe and Asia and causes encephalitis in humans. In this study, we demonstrate TBEV appears to activate the interferon (IFN)-β dependent on RIG-I/MDA5. Both the IFN-β accumulation and the IFN stimulated genes (ISGs) transcription greatly delay. Further studies reveal that TBEV NS4A could block the phosphorylation and dimerization of STAT1/STAT2 to affect type I and II IFN-mediated STAT signalling. Additional data indicate that the residue at K132 of TBEV NS4A could be modified by ubiquitination and this modification is necessary for the interaction of NS4A with STAT1. Dynamic ubiquitination of the NS4 protein during TBEV infection might account for delayed activation of the ISGs. These results define the TBEV NS4A as an antagonist of the IFN response, by demonstrating a correlation between the association and STAT interference. Our findings provide a foundation for further understanding how TBEV evade innate immunity and a potential viral target for intervention.

Published

2020

47. Histone deacetylase 3 contributes to the antiviral innate immunity of macrophages by interacting with FOXK1 to regulate STAT1/2 transcription

Author

Liping Yang, Shengchuan Chen, Qun Zhao, Chaohu Pan, Linan Peng, Yu Han, Lili Li, Jiayin Ruan, Jingyan Xia, Heng Yang, Feng Xu, and Genhong Cheng

Subjects

HDAC3, type I interferon, STAT1, STAT2, FOXK1, transcription regulation, Biology (General), QH301-705.5

Abstract

Summary: It is well known that interferon (IFN)-α/-β activates the JAK/STAT signaling pathway and suppresses viral replication through the induction of IFN stimulated genes (ISGs). Here, we report that knockout of HDAC3 from macrophages results in the decreased expression of STAT1 and STAT2, leading to defective antiviral immunity in cells and mice. Further studies show that HDAC3 interacts with a conserved transcription factor Forkhead Box K1 (FOXK1), co-localizes with FOXK1 at the promoter of STAT1 and STAT2, and is required for protecting FOXK1 from lysosomal system-mediated degradation. FOXK1-deficient macrophages also show low STAT1 and STAT2 expression with defective responses to viruses. Thus, our studies uncover the biological importance of HDAC3 in regulating the antiviral immunity of macrophages through interacting with FOXK1 to regulate the expression of STAT1 and STAT2.

Published

2022

48. Nipah Virus Impairs Autocrine IFN Signaling by Sequestering STAT1 and STAT2 into Inclusion Bodies

Author

Nico Becker and Andrea Maisner

Subjects

Nipah virus, phosphoprotein, inclusions, STAT1, STAT2, IFN, Microbiology, QR1-502

Abstract

Nipah virus (NiV) is an emerging zoonotic paramyxovirus that causes fatal infections in humans. As with most disease-causing viruses, the pathogenic potential of NiV is linked to its ability to block antiviral responses, e.g., by antagonizing IFN signaling through blocking STAT proteins. One of the STAT1/2-binding proteins of NiV is the phosphoprotein (P), but its functional role in IFN antagonism in a full viral context is not well defined. As NiV P is required for genome replication and specifically accumulates in cytosolic inclusion bodies (IBs) of infected cells, we hypothesized that this compartmentalization might play a role in P-mediated IFN antagonism. Supporting this notion, we show here that NiV can inhibit IFN-dependent antiviral signaling via a NiV P-dependent sequestration of STAT1 and STAT2 into viral IBs. Consequently, the phosphorylation/activation and nuclear translocation of STAT proteins in response to IFN is limited, as indicated by the lack of nuclear pSTAT in NiV-infected cells. Blocking autocrine IFN signaling by sequestering STAT proteins in IBs is a not yet described mechanism by which NiV could block antiviral gene expression and provides the first evidence that cytosolic NiV IBs may play a functional role in IFN antagonism.

Published

2023

49. Zika virus NS5 protein inhibits type I interferon signaling via CRL3 E3 ubiquitin ligase-mediated degradation of STAT2.

Author

Ren W, Fu C, Zhang Y, Ju X, Jiang X, Song J, Gong M, Li Z, Fan W, Yao J, and Ding Q

Subjects

Humans, A549 Cells, HEK293 Cells, CRISPR-Cas Systems, STAT2 Transcription Factor metabolism, Zika Virus immunology, Zika Virus physiology, Zika Virus metabolism, Viral Nonstructural Proteins metabolism, Viral Nonstructural Proteins genetics, Interferon Type I metabolism, Ubiquitin-Protein Ligases metabolism, Ubiquitin-Protein Ligases genetics, Zika Virus Infection metabolism, Zika Virus Infection immunology, Zika Virus Infection virology, Signal Transduction, Ubiquitination, Cullin Proteins metabolism, Proteolysis

Abstract

The ZIKA virus (ZIKV) evades the host immune response by degrading STAT2 through its NS5 protein, thereby inhibiting type I interferon (IFN)-mediated antiviral immunity. However, the molecular mechanism underlying this process has remained elusive. In this study, we performed a genome-wide CRISPR/Cas9 screen, revealing that ZSWIM8 as the substrate receptor of Cullin3-RING E3 ligase is required for NS5-mediated STAT2 degradation. Genetic depletion of ZSWIM8 and CUL3 substantially impeded NS5-mediated STAT2 degradation. Biochemical analysis illuminated that NS5 enhances the interaction between STAT2 and the ZSWIM8-CUL3 E3 ligase complex, thereby facilitating STAT2 ubiquitination. Moreover, ZSWIM8 knockout endowed A549 and Huh7 cells with partial resistance to ZIKV infection and protected cells from the cytopathic effects induced by ZIKV, which was attributed to the restoration of STAT2 levels and the activation of IFN signaling. Subsequent studies in a physiologically relevant model, utilizing human neural progenitor cells, demonstrated that ZSWIM8 depletion reduced ZIKV infection, resulting from enhanced IFN signaling attributed to the sustained levels of STAT2. Our findings shed light on the role of ZIKV NS5, serving as the scaffold protein, reprograms the ZSWIM8-CUL3 E3 ligase complex to orchestrate STAT2 proteasome-dependent degradation, thereby facilitating evasion of IFN antiviral signaling. Our study provides unique insights into ZIKV-host interactions and holds promise for the development of antivirals and prophylactic vaccines., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

50. The closed loop of the circCLIP2/miR-361-3p/STAT2 signaling axis regulates the progression of cervical cancer.

Author

Zhang Q and Cai W

Abstract

Background: Circular RNAs (circRNAs) are involved in tumorigenesis and the progression of cancer through various pathways. However, the detailed regulatory mechanisms of circRNAs in cervical cancer are not fully understood. The present study was designed to explore the biological functions and potential mechanisms of circCLIP2 (has&#95;circ&#95;0001717) in cervical cancer., Methods: The expression profiles of circRNAs in cancerous and adjacent normal tissues of cervical cancer patients were examined using RNA sequencing. Gain- and loss-of-function experiments were carried out to determine the biological functions of circCLIP2 in the proliferation, invasion, migration and apoptosis of cervical cancer cells. qRT-PCR was also used to evaluate the expression of circCLIP2, miR-361-3p and STAT2 in cervical cancer cells. The protein levels of STAT2 were determined by western blotting., Results: CircCLIP2 was identified as the most down-regulated molecule in the cancerous tissues of cervical cancer patients compared to the adjacent normal tissues. Moreover, the levels of circCLIP2 was decreased in cervical cancer patients with metastasis and advanced tumour stage, and patients with high-circCLIP2-expression exhibited poorer survival rate. In addition, over-expression of circCLIP2 suppressed the proliferation, invasion and migration of cervical cancer cells, whereas cell apoptosis was enhanced. Moreover, down-regulated circCLIP2 functioned as the sponge of miR-361-3p, which reduced the expression of STAT2. Furthermore, knockdown of STAT2 inhibited the expression of circCLIP2 at the transcriptional level., Conclusion: The circCLIP2/miR-361-3p/STAT2 signalling could mediate the progression of cervical cancer. CircCLIP2 may become a novel target for the diagnosis and treatment of cervical cancer., Competing Interests: Declaration of competing interests The authors have no competing interests., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024