Your search keyword '"Tlr4"' showing total 6 results

1. Deciphering the therapeutic potential of trimetazidine in rheumatoid arthritis via targeting mi-RNA128a, TLR4 signaling pathway, and adenosine-induced FADD-microvesicular shedding: In vivo and in silico study.

Author

Omran, Enas, Alzahrani, Abdullah R., Ezzat, Samar F., Ellithy, Ghada, Tarek, Marwa, Khairy, Eman, Ghit, Mohamed M., Elgeushy, Ahmed, Ibrahim Al-Hazani, Tahani Mohamed, Aziz Ibrahim, Ibrahim Abdel, Falemban, Alaa Hisham, Bamagous, Ghazi A., Elhawary, Nasser A., Jaremko, Mariusz, Saied, Essa M., and Mohamed, Doaa I.

Subjects

RHEUMATOID arthritis, GENE expression, TRIMETAZIDINE, CELLULAR signal transduction, ADENOSINES, LABORATORY rats

Abstract

Rheumatoid arthritis (RA) is a debilitating autoimmune condition characterized by chronic synovitis, joint damage, and inflammation, leading to impaired joint functionality. Existing RA treatments, although effective to some extent, are not without side effects, prompting a search for more potent therapies. Recent research has revealed the critical role of FAS-associated death domain protein (FADD) microvesicular shedding in RA pathogenesis, expanding its scope beyond apoptosis to include inflammatory and immune pathways. This study aimed to investigate the intricate relationship between mi-RNA 128a, autoimmune and inflammatory pathways, and adenosine levels in modulating FADD expression and microvesicular shedding in a Freund’s complete adjuvant (FCA) induced RA rat model and further explore the antirheumatoid potency of trimetazidine (TMZ). The FCA treated model exhibited significantly elevated levels of serum fibrogenic, inflammatory, immunological and rheumatological diagnostic markers, confirming successful RA induction. Our results revealed that the FCA-induced RA model showed a significant reduction in the expression of FADD in paw tissue and increased microvesicular FADD shedding in synovial fluid, which was attributed to the significant increase in the expression of the epigenetic miRNA 128a gene in addition to the downregulation of adenosine levels. These findings were further supported by the significant activation of the TLR4/ MYD88 pathway and its downstream inflammatory IkB/NFB markers. Interestingly, TMZ administration significantly improved, with a potency similar to methotrexate (MTX), the deterioration effect of FCA treatment, as evidenced by a significant attenuation of fibrogenic, inflammatory, immunological, and rheumatological markers. Our investigations indicated that TMZ uniquely acted by targeting epigenetic miRNA128a expression and elevating adenosine levels in paw tissue, leading to increased expression of FADD of paw tissue and mitigated FADD microvesicular shedding in synovial fluid. Furthermore, the group treated with TMZ showed significant downregulation of TLR4/MYD88 and their downstream TRAF6, IRAK and NF-kB. Together, our study unveils the significant potential of TMZ as an antirheumatoid candidate, offering anti-inflammatory effects through various mechanisms, including modulation of the FADD-epigenetic regulator mi-RNA 128a, adenosine levels, and the TLR4 signaling pathway in joint tissue, but also attenuation of FADD microvesicular shedding in synovial fluid. These findings further highlight the synergistic administration of TMZ and MTX as a potential approach to reduce adverse effects of MTX while improving therapeutic efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

2. Naïve Huntington's disease microglia mount a normal response to inflammatory stimuli but display a partially impaired development of innate immune tolerance that can be counteracted by ganglioside GM1.

Author

Steinberg, Noam, Galleguillos, Danny, Zaidi, Asifa, Horkey, Melanie, and Sipione, Simonetta

Subjects

*HUNTINGTON disease, *IMMUNOLOGICAL tolerance, *MICROGLIA, *INFLAMMATION, *INTERLEUKIN receptors, *NECROSIS

Abstract

Chronic activation and dysfunction of microglia have been implicated in the pathogenesis and progression of many neurodegenerative disorders, including Huntington's disease (HD). HD is a genetic condition caused by a mutation that affects the folding and function of huntingtin (HTT). Signs of microglia activation have been observed in HD patients even before the onset of symptoms. It is unclear, however, whether pro-inflammatory microglia activation in HD results from cell-autonomous expression of mutant HTT, is the response of microglia to a diseased brain environment, or both. In this study, we used primary microglia isolated from HD knock-in (Q140) and wild-type (Q7) mice to investigate their response to inflammatory conditions in vitro in the absence of confounding effects arising from brain pathology. We show that naïve Q140 microglia do not undergo spontaneous pro-inflammatory activation and respond to inflammatory triggers, including stimulation of TLR4 and TLR2 and exposure to necrotic cells, with similar kinetics of pro-inflammatory gene expression as wild-type microglia. Upon termination of the inflammatory insult, the transcription of pro-inflammatory cytokines is tapered off in Q140 and wild-type microglia with similar kinetics. However, the ability of Q140 microglia to develop tolerance in response to repeated inflammatory stimulations is partially impaired in vitro and in vivo, potentially contributing to the establishment of chronic neuroinflammation in HD. We further show that ganglioside GM1, a glycosphingolipid with anti-inflammatory effects on wild-type microglia, not only decreases the production of pro-inflammatory cytokines and nitric oxide in activated Q140 microglia, but also dramatically dampen microglia response to re-stimulation with LPS in an experimental model of tolerance. These effects are independent from the expression of interleukin 1 receptor associated kinase 3 (Irak-3), a strong modulator of LPS signaling involved in the development of innate immune tolerance and previously shown to be upregulated by immune cell treatment with gangliosides. Altogether, our data suggest that external triggers are required for HD microglia activation, but a cell-autonomous dysfunction that affects the ability of HD microglia to acquire tolerance might contribute to the establishment of neuroinflammation in HD. Administration of GM1 might be beneficial to attenuate chronic microglia activation and neuroinflammation. [ABSTRACT FROM AUTHOR]

Published

2023

3. Immunological And Genotyping Study of Toxoplasma Gondi and Its Relationship with Toll Like Receptor 4 "TLR4" Polymorphism in Aborted Women.

Author

Alkardhi, Ihsan K. A., Masmoudi, Hatem, Muhammed, Hayder A., and Sellami, Hayet

Subjects

*TOLL-like receptors, *PATTERN perception receptors, *TOXOPLASMA, *MISCARRIAGE, *DISTRIBUTION (Probability theory)

Abstract

Background: Toxoplasma gondii (T. gondii) causes toxoplasmosis, a dangerous and prevalent disease. Toll-like receptors (TLRs) are the best-studied pattern recognition receptors in mammals. Objective: The current study was conducted at Al-Diwaniya Maternity and Children Teaching Hospital, Diwaniyah city, Iraq, from December 2020 to August 2021. Methods: Blood samples and placenta tissue pieces were collected prospectively from 30 patients newly diagnosed with toxoplasmosis and 64 healthy controls. Women in both groups underwent a spontaneous abortion. A human Toll-Like Receptor 4 (TLR4) ELISA kit was used to measure TLR4 levels and blood DNA extraction. ARMS-PCR was adopted to analyze the polymorphism for TLR4 Asp299Gly, and SAG3 marker was used to analyze the genotype of Toxoplasma strains. Results: The frequency distribution of the A allele and G allele was statistically non-significant between the patients and the control group. The polymorphism analysis of the Asp299Gly SNP in the TLR4 gene showed abortion had no significant association with toxoplasma infection (P> 0.05). Genotype II was more prevalent in aborted Iraqi women (22/30) than in control. The obtained result revealed that the concentration of TLR4 in serum women infected with type I Toxoplasma was significantly higher (P< 0.05) in the AA genotype of TLR4 Asp299Gly (mean 1328 pg/ml, SD: 266.1pg/ml), compared to AG genotype (mean; 923.6 pg/ml, SD: 27.2 pg/ml). Discussion: These findings highlighted the significance of TLR molecules in Toxoplasma gondii infection and the need for close collaboration between practitioners and to lessen the illness burden of toxoplasmosis. [ABSTRACT FROM AUTHOR]

Published

2023

4. Recombinant Ricin Toxin Binding Subunit B (RTB) Stimulates Production of TNF-α by Mouse Macrophages Through Activation of TLR4 Signaling Pathway.

Author

Xu, Na, Yu, Kaikai, Yu, Haotian, Zhang, Jianxu, Yang, Yang, Dong, Mingxin, Wang, Yan, Chang, Ying, Sun, Yucheng, Hou, Yanguang, Sun, Chengbiao, Wan, Jiayu, and Liu, Wensen

Subjects

RICIN, MACROPHAGE activation, CASTOR oil plant, CASTOR beans, TOXINS, IMMUNE response

Abstract

Ricin toxin binding subunit B (RTB) is a galactose-binding lectin protein derived from the beans of the castor oil plant (Ricinus communis). Our previous studies have reported a direct immunomodulatory effect of recombinant RTB, which stimulates RAW264.7 cells to produce cytokines including TNF-α. However, the role of RTB in innate immune response and its specific mechanism have not been reported in detail. In this work, the results showed that RTB treatment of macrophages significantly increased TLR4 protein levels. RTB also activated TLR4 downstream events, including MyD88, IRAK, and TRAF6, resulting in macrophage activation and TNF-α production. This process is reflected in the increase of IκB phosphorylation. TLR4 knockdown macrophages treated with RTB exhibited greatly reduced IκB phosphorylation and TNF-α secretion. Moreover, treatment with MyD88 inhibitor also suppressed TNF-α production. The docking of RT and TLR4 was simulated by computer, and the contact residues were concentrated on RTB. Our results suggest that recombinant RTB can activate mouse macrophages to secrete TNF-α through activation of NF-κB via the TLR4 signaling pathways. [ABSTRACT FROM AUTHOR]

Published

2020

5. Association of TLR4 Polymorphisms with Susceptibility to Urinary Tract Infection Caused by Gram Positive Bacteria in Pregnant Women.

Author

Al-Saadi, Mohammed A. K., Al-Hilli, Nadia M. S., and Sheriff, Nazar A.

Subjects

BABYLON (Extinct city), URINARY tract infections, PREGNANT women, UREAPLASMA, WOMEN'S hospitals, HETEROZYGOSITY, GENE amplification, TEACHING hospitals

Abstract

Urinary tract infection (UTI) is the most common disorder caused by bacterial agents in pregnancy. This study aimed to investigate the association of TLR4 gene polymorphisms with susceptibility to urinary tract infection caused by Gram positive bacteria in pregnant women a total of 39 clinically confirmed UTI pregnant women and 35 healthy control were enrolled in this study. Urine and blood samples were collected in Babylon teaching hospital for gynecology and pediatrics in Babylon province, Iraq during the period from January 2018 to February 2019. Urinary sample isolates were identified by traditional method. DNA was extracted using blood samples. TLR4 gene amplification and SNP genotyping was done using PCRRFLP. Cytokine profile was assessed using ELISA technique. The present study showed 22 (56.4%) isolates was Staphylococcus species and; 17 (43.6%) was streptococcus species. the results showed the presence of homozygous variant in 16 patient from the study group at site 299 (A/G). twentyhomozygous variant and 9 heterozygous variant at site 399 (C/T). Serum IL17 results showed a significant difference (p value=0.016) between patients and controls. Serum TNF-α results showed a significant difference (p value=0.021) between patients and controls. [ABSTRACT FROM AUTHOR]

Published

2020

6. Extracellular HSP90α Induces MyD88-IRAK Complex-Associated IKKα/β−NF-κB/IRF3 and JAK2/TYK2−STAT-3 Signaling in Macrophages for Tumor-Promoting M2-Polarization.

Author

Fan, Chi-Shuan, Chen, Chia-Chi, Chen, Li-Li, Chua, Kee Voon, Hung, Hui-Chen, Hsu, John T. -A., and Huang, Tze-Sing

Subjects

*FIBROBLASTS, *MYELOID differentiation factor 88, *VASCULAR endothelial growth factors, *MACROPHAGES, *PERITONEAL macrophages, *TRANSCRIPTION factors, *CANCER cells, *PHAGOCYTOSIS

Abstract

M2-polarization and the tumoricidal to tumor-promoting transition are commonly observed with tumor-infiltrating macrophages after interplay with cancer cells or/and other stroma cells. Our previous study indicated that macrophage M2-polarization can be induced by extracellular HSP90α (eHSP90α) secreted from endothelial-to-mesenchymal transition-derived cancer-associated fibroblasts. To extend the finding, we herein validated that eHSP90α-induced M2-polarized macrophages exhibited a tumor-promoting activity and the promoted tumor tissues had significant increases in microvascular density but decreases in CD4+ T-cell level. We further investigated the signaling pathways occurring in eHSP90α-stimulated macrophages. When macrophages were exposed to eHSP90α, CD91 and toll-like receptor 4 (TLR4) functioned as the receptor/co-receptor for eHSP90α binding to recruit interleukin (IL)-1 receptor-associated kinases (IRAKs) and myeloid differentiation factor 88 (MyD88), and next elicited a canonical CD91/MyD88–IRAK1/4–IκB kinase α/β (IKKα/β)–nuclear factor-κB (NF-κB)/interferon regulatory factor 3 (IRF3) signaling pathway. Despite TLR4-MyD88 complex-associated activations of IKKα/β, NF-κB and IRF3 being well-known as involved in macrophage M1-activation, our results demonstrated that the CD91-TLR4-MyD88 complex-associated IRAK1/4−IKKα/β−NF-κB/IRF3 pathway was not only directly involved in M2-associated CD163, CD204, and IL-10 gene expressions but also required for downregulation of M1 inflammatory cytokines. Additionally, Janus kinase 2 (JAK2) and tyrosine kinase 2 (TYK2) were recruited onto MyD88 to induce the phosphorylation and activation of the transcription factor signal transducer and activator of transcription-3 (STAT-3). The JAK2/TYK2−STAT-3 signaling is known to associate with tumor promotion. In this study, the MyD88−JAK2/TYK2−STAT-3 pathway was demonstrated to contribute to eHSP90α-induced macrophage M2-polarization by regulating the expressions of M1- and M2-related genes, proangiogenic protein vascular endothelial growth factor, and phagocytosis-interfering factor Sec22b. [ABSTRACT FROM AUTHOR]

Published

2022