Global ETD Search

11	Decline of miR-124 in Myeloid Cells Promotes Regulatory T-cell Development in Hepatitis C Virus Infection Ren, Jun P., Wang, Lin, Zhao, Juan, Wang, Ling, Ning, Shun B., El Gazzar, Mohamed, Moorman, Jonathan P., Yao, Zhi Q. 18 October 2016 (has links) Myeloid‐derived suppressor cells (MDSC s) and microRNA s (miRNA s) contribute to attenuating immune responses during chronic viral infection; however, the precise mechanisms underlying their suppressive activities remain incompletely understood. We have recently shown marked expansion of MDSC s that promote regulatory T (Treg) cell development in patients with chronic hepatitis C virus (HCV ) infection. Here we further investigated whether the HCV ‐induced expansion of MDSC s and Treg cells is regulated by an miRNA ‐mediated mechanism. The RNA array analysis revealed that six miRNA s were up‐regulated and six miRNA s were down‐regulated significantly in myeloid cells during HCV infection. Real‐time RT ‐PCR confirmed the down‐regulation of miR‐124 in MDSC s from HCV patients. Bioinformatic analysis suggested that miR‐124 may be involved in the regulation of signal transducer and activator of transcription 3 (STAT ‐3), which was overexpressed in MDSC s from HCV patients. Notably, silencing of STAT ‐3 significantly increased the miR‐124 expression, whereas reconstituting miR‐124 decreased the levels of STAT ‐3, as well as interleukin‐10 and transforming growth factor‐β , which were overexpressed in MDCS s, and reduced the frequencies of Foxp3+ Treg cells that were developed during chronic HCV infection. These results suggest that reciprocal regulation of miR‐124 and STAT ‐3 in MDSC s promotes Treg cell development, thus uncovering a novel mechanism for the expansion of MDSC and Treg cells during HCV infection. hepatitis C virus microRNA-124 myeloid-derived suppressorcells regulatory T cells Internal Medicine Internal Medicine
12	Expansion of Myeloid-Derived Suppressor Cells Promotes Differentiation of Regulatory T Cells in HIV-1+ Individuals Wang, Ling, Zhao, Juan, Ren, Junping P., Wu, Xiao Y., Morrison, Zheng D., El Gazzar, Mohamed A., Ning, Shunbin, Moorman, Jonathan P., Yao, Zhi Q. 19 June 2016 (has links) (PDF) Objective: Regulatory T cells (Tregs) contribute to HIV-1 disease progression by impairing antiviral immunity; however, the precise mechanisms responsible for the development of Tregs in the setting of HIV-1 infection are incompletely understood. Design: In this study, we provide evidence that HIV-induced expansion of monocytic myeloid-derived suppressor cells (M-MDSCs) promote the differentiation of Foxp3+ Tregs. Methods: We measured MDSC induction and cytokine expression by flow cytometry and analyzed their functions by coculturing experiments. Results: We observed a dramatic increase in M-MDSC frequencies in the peripheral blood of HIV-1 seropositive (HIV-1+) individuals, even in those on antiretroviral therapy with undetectable viremia, when compared with healthy participants. We also observed increases in M-MDSCs after incubating healthy peripheral mononuclear cells (PBMCs) with HIV-1 proteins (gp120 or Tat) or Toll-like receptor 4 ligand lipopolysaccharides in vitro, an effect that could be abrogated in the presence of the phosphorylated signal transducer and activator of transcription 3 inhibitor, STA-21. Functional analyses indicated that M-MDSCs from HIV-1+ individuals express higher levels of IL-10, tumor growth factor-β, IL-4 receptor α, p47phex, programmed death-ligand 1, and phosphorylated signal transducer and activator of transcription 3 – all of which are known mediators of myelopoiesis and immunosuppression. Importantly, incubation of healthy CD4+ T cells with MDSCs derived from HIV-1+ individuals significantly increased differentiation of Foxp3+ Tregs. In addition, depletion of MDSCs from PBMCs of HIV-1+ individuals led to a significant reduction of Foxp3+ Tregs and increase of IFNγ production by CD4+ T effector cells. Conclusions: These results suggest that HIV-induced MDSCs promote Treg cell development and inhibit T cell function – a hallmark of many chronic infectious diseases. gp120 HIV-1 myeloid-derived suppressor cells regulatory T cells Internal Medicine Internal Medicine
13	The Effect of STAT5 on Inflammation-Related Gene Expression in Diabetic Mouse Kidneys Shaw, Samantha J. 12 June 2014 (has links) No description available. Animals Biomedical Research Biology Immunology Molecular Biology STAT diabetic nephropathy inflammation diabetes stat5 knockout mice mice
14	STAT3 Regulation of Mucosal Inflammation in Pediatric Crohn’s Disease and Murine Colitis Willson, Tara A. 20 April 2012 (has links) No description available. Cellular Biology Pediatric Crohn's Disease neutrophil recruitment CXCR2 Dextran Sodium Sulfate (DSS) Interleukin 17A
15	Mechanisms of Growth Hormone Regulation of Insulin-Like Growth Factor-I Gene Expression in Liver Eleswarapu, Satyanarayana 27 March 2009 (has links) The overall objective of this research was to understand the mechanims by which growth hormone (GH) regulates insulin-like growth factor-I (IGF-I) gene expression in liver. Previous studies have suggested that GH regulation of IGF-I gene expression in liver is mediated by binding of the transcription factor signal transducer and activator of transcription (STAT) 5 to four binding sites located distantly from the IGF-I promoter. The first specific objective of this research was to determine whether additional STAT5 binding sites were involved in GH stimulation of IGF-I gene expression in liver. Sequence analysis of 170 kb of mouse genomic DNA revealed nineteen consensus STAT5 binding sequences corresponding to fourteen ~200 bp chromosomal regions that were conserved in the corresponding human DNA sequence. Eight of these chromosomal regions were able to mediate STAT5 activation of reporter gene expression in cotransfection experiments. Two of these chromosomal regions corresponded to those previously identified. Gel-shift assays indicated that the eight new STAT5 binding sites and three of the four previously identified STAT5 binding sites could bind GH-activated STAT5 from mouse liver. Together, these results suggest that GH stimulation of IGF-I gene transcription in the mouse liver may be mediated by at least eleven STAT5 binding sites located distantly from the IGF-I promoter. In a previous study, I found that liver expression of liver-enriched transcription factor hepatocyte nuclear factor 3Î³ (HNF-3Î³) was increased by GH in cattle. Therefore, the second specific objective of this research was to determine how GH stimulates HNF-3Î³ gene expression and whether the increased HNF-3Î³ mediates GH stimulation of IGF-I gene expression in bovine liver. Sequence analysis of the bovine HNF-3Î³ promoter revealed the presence of two putative binding sites for STAT5. The proximal putative STAT5 binding site appears to be conserved in other mammals. Chromatin immunoprecipitation (ChIP) assays demonstrated that GH increased the binding of STAT5 to the HNF-3Î³ promoter in bovine liver and that this binding was associated with increased HNF-3Î³ expression. Gel-shift assays demonstrated that the proximal STAT5 binding site in the HNF-3Î³ promoter could bind GH-activated STAT5 from bovine liver. Cotransfection analyses showed that the proximal STAT5 binding site was necessary for the HNF-3Î³ promoter to be activated by GH. The promoter of the bovine IGF-I gene contains three putative HNF-3 binding sites that seem to be evolutionarily conserved. ChIP assays indicated that GH stimulated the binding of HNF-3Î³ to the IGF-I promoter in bovine liver. Gel-shift assays showed that one of the putative HNF-3 binding sites could bind HNF-3Î³ protein from bovine liver. Co-transfection analyses demonstrated that this HNF-3 binding site was necessary for HNF-3Î³ activation of reporter gene expression from the IGF-I promoter. In summary, the results of this dissertation research suggest that GH-activated STAT5 directly stimulates IGF-I gene transcription in liver by binding to at least eleven distantly located STAT5 binding sites in the IGF-I locus and indirectly stimulates IGF-I gene transcription by enhancing HNF-3Î³ gene expression in the liver. / Ph. D. Growth hormone Liver Insulin like growth factor-I Hepatocyte nuclear factor-3γ
16	Influence of hypoxia on tumour cell susceptibility to cytotoxic T lymphocyte mediated lysis Noman, Muhammad Zaeem 28 September 2012 (has links) (PDF) Hypoxia is a common feature of solid tumors and one of the hallmarks of tumor microenvironment. Tumor hypoxia plays an important role in angiogenesis, malignant progression, metastatic development, chemo-radio resistance and favours immune evasion by the emergence of tumor variants with increased survival and anti-apoptotic potential. There is very little work done on the impact of tumor hypoxia on the regulation of tumor susceptibility to the lysis induced by cytotoxic antitumor response. Therefore, we asked whether hypoxia confers tumor resistance to cytotoxic T lymphocyte (CTL)-mediated killing. We demonstrated that exposure of target cells to hypoxia has an inhibitory effect on the CTL-mediated autologous target cell lysis. Such inhibition was not associated with an alteration of CTL reactivity and tumor target recognition. We also showed that the concomitant hypoxic induction of Signal transducer and activator of transcription 3 (STAT3) phosphorylation on tyrosine 705 residue (pSTAT3) and hypoxia inducible factor 1 alpha (HIF-1α) is functionally linked to the alteration of Non small cell lung carcinoma (NSCLC) target susceptibility to CTL-mediated killing. We also showed that hypoxia-induced resistance of lung tumor to CTL-mediated lysis was associated with autophagy induction in target cells. Inhibition of autophagy resulted in impairment of pSTAT3 (via inhibition Src kinase) and restoration of hypoxic tumor cell susceptibility to CTL-mediated lysis. Moreover, in vivo inhibition of autophagy by hydroxychloroquine (HCQ) in B16F10 tumor bearing mice and mice vaccinated with TRP2 peptide dramatically increased tumor growth inhibition. Collectively, the current study establishes a novel functional link between hypoxia-induced autophagy and the regulation of antigen specific T cell lysis and points to a major role of autophagy in the control of in vivo tumor growth.Finally, as resistance of tumor targets to killer cells is likely to be regulated by multiple factors, we further aimed to identify the microRNA's regulated by hypoxia in NSCLC and melanoma and their putative involvement in the regulation of tumor susceptibility to antigen-specific CTL-mediated killing. MicroRNA-210 (miR-210) was significantly induced in a HIF-1α dependent manner in NSCLC and melanoma cells and miR-210 was expressed in hypoxic zones of human NSCLC tissues. Moreover, we demonstrated that hypoxia-induced miR-210 regulates tumor cell susceptibility to CTL-mediated lysis in part by suppressing PTPN, HOXA1 and TP53I11 expression indicating that miR-210 plays a potential role in the regulation of anti-tumor immune response. [SDV:CAN] Life Sciences/Cancer [SDV:CAN] Sciences du Vivant/Cancer Hypoxia Cytotoxic T lymphocytes Autophagy MicroRNA-210 Hypoxia Inducible Factor 1 alpha Tumor cell susceptibility
17	The role of human cytomegalovirus encoded viral G protein-coupled receptors in onco-modulatory signalling Subramoney, Preya 22 June 2011 (has links) Human cytomegalovirus (HCMV) is a ubiquitous virus of the herpes type that infects a high percentage of some populations. One of the most researched genes expressed by HCMV with close homology to human chemokine receptors is the US28 G protein-coupled receptor. Study design: This study was initiated to elucidate the intracellular signalling pathways of an inflammatory factor (IL-6) and an angiogenic factor (STAT3) triggered by the viral US28 oncogene and the presence of US28 in the HCMV viral particle. These pathways were observed by introducing the US28 gene into two human cell lines by infection with a HCMV strain that expresses the US28 gene (wild type), and two HCMV strains where the US28 gene was deleted (ÄUS28 and ÄUS28/UL33). Special attention was directed at the expression of IL-6 after promotion of the US28 gene and subsequent phosphorolation of STAT3. A new US28 antibody was validated and a method developed in an attempt to determine US28 on the viral particle. The following techniques were applied: Cell culture work, two mammalian cell lines were used, HFF’s and U373 MG. Virus stock titre determination to determine the multiplicity of infection. Protein quantitation to determine very small quantities of protein for Western blot analysis. ELISA for the quantitative determination of IL-6. Western blotting for phospho- STAT3 determination and validation of the US28 antibody. Immunocytochemistry was used for back titrations of virally infected cells. Immunofluorescence assay and use of confocal microscopic techniques was used for the location of the US28 gene in the virion and for tSTAT3 translocation to the nucleus. Conclusion: A clear increase in IL-6 secretion (495% ± 1%) was seen, and this was after only an hour in HCMV WT infected cells. From the increase in IL-6 secretion a subsequent increase in STAT3 phosphorylation was detected in the same samples. A clear link has been established between IL-6 and STAT3. A method to determine whether US28 was present in the HCMV viral particle was designed and preliminary results obtained. The results were inclusive. / Dissertation (MSc)--University of Pretoria, 2011. / Pharmacology / unrestricted Us28 Antibody Tumour Cytokine Interleukin 6 il-6 Signal transducer Activator of transcription stat3 Oncogene Ligand G protein-coupled receptors gpcr Human cytomegalovirus hcmv UCTD
18	MicroRNA-155 Regulates Interferon-γ Production in Natural Killer Cells via Tim-3 Signalling in Chronic Hepatitis C Virus Infection Cheng, Yong Q., Ren, Jun P., Zhao, Juan, Wang, Jia M., Zhou, Yun, Li, Guang Y., Moorman, Jonathan P., Yao, Zhi Q. 01 August 2015 (has links) Host immune responses must be tightly regulated by an intricate balance between positive and negative signals while fighting pathogens; persistent pathogens may usurp these regulatory mechanisms to dampen host immunity to facilitate survival in vivo. Here we report that Tim-3, a negative signalling molecule expressed on monocytes and T cells, is up-regulated on natural killer (NK) cells in individuals chronically infected with hepatitis C virus (HCV). Additionally, the transcription factor T-bet was also found to be up-regulated and associated with Tim-3 expression in NK cells during chronic HCV infection. MicroRNA-155 (miR-155), an miRNA that inhibits signalling proteins involved in immune responses, was down-regulated in NK cells by HCV infection. This Tim-3/T-bet over-expression and miR-155 inhibition were recapitulated in vitro by incubating primary NK cells or NK92 cell line with Huh-7 hepatocytes expressing HCV. Reconstitution of miR-155 in NK cells from HCV-infected patients led to a decrease in T-bet/Tim-3 expression and an increase in interferon-γ production. Blocking Tim-3 signalling also enhanced interferon-γ production in NK cells by improving signal transducer and activator of transcription-5 phosphorylation. These data indicate that HCV-induced, miR-155-regulated Tim-3 expression regulates NK cell function, suggesting a novel mechanism for balancing immune clearance and immune injury during chronic viral infection. hepatitis C virus interferon-γ microRNA-155 natural killer cells Internal Medicine
19	Hepatitis C Virus-Induced Myeloid-Derived Suppressor Cells Regulate T-cell Differentiation and Function via the Signal Transducer and Activator of Transcription 3 Pathway Ren, Jun P., Zhao, Juan, Dai, Jun, Griffin, Jeddidiah W. D., Wang, Ling, Wu, Xiao Y., Morrison, Zheng D., Li, Guang Y., El Gazzar, Mohamed, Ning, Shun B., Moorman, Jonathan P. 05 May 2016 (has links) T cells play a pivotal role in controlling viral infection; however, the precise mechanisms responsible for regulating T‐cell differentiation and function during infections are incompletely understood. In this study, we demonstrated an expansion of myeloid‐derived suppressor cells (MDSC s), in particular the monocytic MDSC s (M‐MDSC s; CD 14+ CD 33+ CD 11b+ HLA ‐DR −/low), in patients with chronic hepatitis C virus (HCV ) infection. Notably, HCV ‐induced M‐MDSC s express high levels of phosphorylated signal transducer and activator of transcription 3 (pSTAT 3) and interleukin‐10 (IL ‐10) compared with healthy subjects. Blocking STAT 3 signalling reduced HCV ‐mediated M‐MDSC expansion and decreased IL ‐10 expression. Importantly, we observed a significant increase in the numbers of CD 4+ CD 25+ Foxp3+ regulatory T (Treg) cells following incubation of healthy peripheral blood mononuclear cells (PBMC s) with MDSC s derived from HCV ‐infected patients or treated with HCV core protein. In addition, depletion of MDSC s from PBMC s led to a significant reduction of Foxp3+ Treg cells developed during chronic HCV infection. Moreover, depletion of MDSC s from PBMC s significantly increased interferon‐γ production by CD 4+ T effector (Teff) cells derived from HCV patients. These results suggest that HCV ‐induced MDSC s promote Treg cell development and inhibit Teff cell function, suggesting a novel mechanism for T‐cell regulation and a new strategy for immunotherapy against human viral diseases. hepatitis C virus interleukin-10 myeloid-derived suppressor cells regulatory T cells signal transducer and activator of transcription 3 Internal Medicine Internal Medicine
20	Phosphorylation of Janus kinase 1 (JAK1) by AMP-activated protein kinase (AMPK) links energy sensing to anti-inflammatory signaling Rutherford, C., Speirs, C., Williams, Jamie J.L., Ewart, M-A., Mancini, S.J., Hawley, S.A., Delles, C., Viollet, B., Costa-Pereira, A.P., Baillie, G.S., Salt, I.P., Palmer, Timothy M. 2016 October 1921 (has links) Yes / AMP-activated protein kinase (AMPK) is a pivotal regulator of metabolism at the cellular and organismal levels. AMPK also suppresses inflammation. We found that pharmacological activation of AMPK rapidly inhibited the Janus kinase (JAK)–signal transducer and activator of transcription (STAT) pathway in various cells. In vitro kinase assays revealed that AMPK directly phosphorylated two residues (Ser515 and Ser518) within the SH2 domain of JAK1. Activation of AMPK enhanced the interaction between JAK1 and 14-3-3 proteins in cultured vascular endothelial cells and fibroblasts, an effect which required the presence of Ser515 and Ser518 and was abolished in cells lacking AMPK catalytic subunits. Mutation of Ser515 and Ser518 abolished AMPKmediated inhibition of JAK-STAT signaling stimulated either by the sIL-6Rα/IL-6 complex or by expression of a constitutively active V658F-mutant JAK1 in human fibrosarcoma cells. Clinically used AMPK activators metformin and salicylate enhanced the inhibitory phosphorylation of endogenous JAK1 and inhibited STAT3 phosphorylation in primary vascular endothelial cells. Therefore our findings reveal a mechanism by which JAK1 function and inflammatory signaling may be suppressed in response to metabolic stress and provide a mechanistic rationale for the investigation of AMPK activators in a range of diseases associated with enhanced activation of the JAK-STAT pathway. AMP-activated protein kinase (AMPK) Janus kinase 1 (JAK1) JAK-STAT pathway Energy sensing Anti-inflammatory signaling

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