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Protection against Angiotensin II-induced endothelial dysfunction and hypertension via small molecule inhibitors of signal transducer and activator of transcription 3Johnson, Andrew William 01 May 2012 (has links)
Angiotensin II (Ang II) promotes vascular disease and hypertension in part by the formation of pro-inflammatory cytokines, oxidative stress and inflammation. Signal transducer and activator of transcription 3 (STAT3) is a transcription factor known to play key roles in cytokine signaling and growth in immune cells. We tested the hypothesis that STAT3 plays an essential role in Ang II-induced vascular dysfunction and hypertension. Responses of carotid arteries from C57BL6 mice were examined in vitro after 22-hour incubation with vehicle or Ang II (10 nM) in the presence or absence of a small molecule inhibitor of STAT3 activation, S3I-201. The endothelium-dependent agonist acetylcholine (Ach) produced relaxation in arteries treated with vehicle and the response was inhibited by ~50% by Ang II (P<0.01). S3I-201 (10 πM) co-incubation prevented the Ang II-induced dysfunction. Relaxation to nitroprusside, an endothelium-independent agonist, was not altered in any group. Ang II increased vascular superoxide more than 2-fold (P<0.05) measured by chemiluminescence. S3I-201 (10 πM) prevented the Ang II induced increase of superoxide. Similar findings were obtained with STATTIC, a second small molecule inhibitor of STAT3 activation. In contrast to these findings, lipopolysaccharide (0.5 πg/ml)-induced endothelial dysfunction was not altered by S3I-201. Blood pressure and responses of carotid arteries and small resistance arteries within the brain were examined in C57BL6 mice with either saline or Ang II (1000 ng/kg/min) infused for 14 days via osmotic minipump, which were also treated with dimethyl sulfoxide (vehicle) or S3I-201 (5 mg/kg, IP, every two days). Infusion with Ang II increased systolic blood pressure compared to saline-infused animals (155±2 and 112±2 mmHg, respectively; P<0.001). S3I-201 reduced pressure slightly in saline infused mice but protected against Ang II-induced increase in pressure at 14 days (102±2 and 114±3 mmHg, respectively). Following systemic treatment with Ang II, carotid artery relaxation responses to Ach were significantly impaired compared to vehicle infused mice (72±3% and 101±1%, respectively, P<0.05). S3I-201 treatment significantly prevented Ang II-induced impairment (94±4%, P<0.05). Ang II treated mice exhibited 55% impaired dilator responses to Ach in small resistance arteries within the brain studied in vitro and S3I-201 treatment prevented most of this impairment (P<0.05). Vasorelaxation to nitroprusside was not altered in any group. In summary, these findings provide the first evidence that STAT3 plays an essential role in Ang II-induced vascular dysfunction and hypertension. Targeting STAT3 with small molecule inhibitors or other approaches may have beneficial effects during hypertension and other disease states in which Ang II contributes to vascular dysfunction (e.g. diabetes and aging).
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Nardilysin promotes hepatocellular carcinoma through activation of signal transducer and activator of transcription 3 / ナルディライジンはSTAT3の活性化を介して肝細胞がんの進展に寄与するKasai, Yosuke 24 July 2017 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20607号 / 医博第4256号 / 新制||医||1023(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 山田 泰広, 教授 松田 道行, 教授 長船 健二 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
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Influence of hypoxia on tumour cell susceptibility to cytotoxic T lymphocyte mediated lysis / Influence de l’hypoxie sur la susceptibilité des cellules tumorales à la lyse induite par les lymphocytes T cytotoxiquesNoman, Muhammad zaeem 28 September 2012 (has links)
L’hypoxie est une caractéristique commune des tumeurs solides et l’une des spécificités du micro environnement tumoral. L’hypoxie tumorale joue un rôle important dans l’angio génèse, la progression maligne, le développement de métastases, la chimio/radio-résistance et favorise l’échappement au système immunitaire du fait de l’émergence de variant tumoraux avec un potentiel de survie et de résistance à l’apoptose augmenté. Cependant, très peu de travaux ont étudié l’impact de l’hypoxie tumorale sur la régulation de la susceptibilité des tumeurs à la lyse induite par la réponse immune cytotoxique. Nous nous sommes donc demandé si l’hypoxie pouvait conférer aux tumeurs une résistance à la lyse induite par les lymphocytes T cytotoxiques (CTL). Nous avons démontré que l’exposition de cellules cibles tumorales à l’hypoxie possédait un effet inhibiteur sur la lyse de ces cellules tumorales par des CTL autologues. Cette inhibition n’est pas associée à des altérations de la réactivité de CTL ou de la reconnaissance des cellules cibles. Cependant, nous avons montré que l’induction hypoxique concomitante de la phosphorylation de STAT3 (pSTAT3) au niveau de la tyrosine 705 et du facteur HIF-1α (Hypoxia Inducible Factor-1 alpha) est liée fonctionnellement à l’altération de la susceptibilité de cellules tumorales bronchiques non à petites cellules (NSCLC) à la mort induite par les CTL. Nous avons aussi montré que la résistance de cellules tumorales bronchiques à la lyse CTL induite par l’hypoxie était associée à une induction d’autophagie dans les cellules cibles. En effet, l’inhibition de l’autophagie empêche la phosphorylation de STAT3 (via l’inhibition de la kinase Src) et restaure la susceptibilité des cellules tumorales hypoxiques à la lyse induite par les CTL. De plus, l’inhibition in vivo de l’autophagie par l’hydroxychloroquine (HCQ) dans le modèle murin portant la tumeur B16F10 and chez les souris vaccinée avec le peptide TRP2 augmente de façon drastique l’inhibition de la croissance tumorale. Collectivement, cette étude établit un nouveau lien fonctionnel entre l’autophagie induite par l’hypoxie et la régulation de la lyse induite par les cellules T spécifique d’antigènes et souligne le rôle majeur de l’autophagie dans le contrôle de la croissance tumorale in vivo.Finalement, étant donné que le la résistance tumorale à la lyse induite par les cellules tueuses est très probablement régulée par de multiples facteurs, nous avons aussi eu pour but d’identifier les micro-ARNs (miRs) régulés par l’hypoxie dans des modèles de NSCLC et de mélanome et leur implication putative dans la régulation de la susceptibilité tumorale à la lyse induite par les cellules T spécifique d’antigènes. Le micro-ARN 210 (miR-210) est ainsi significativement induit de manière dépendante de HIF-1α dans des cellules de NSCLC et de mélanome, et miR-210 est exprimé dans les zones hypoxiques de tissus issus de NSCLC. De plus, nous avons démontré que l’induction de miR-210 par l’hypoxie régule la susceptibilité tumorale à la lyse induite par les CTL en partie grâce à l’inhibition de l’expression de PTPN, HOXA1 et TP53I11, indiquant que miR-210 joue un rôle potentiel dans la régulation de la réponse immune antitumorale. / 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.
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Decline of miR-124 in Myeloid Cells Promotes Regulatory T-cell Development in Hepatitis C Virus InfectionRen, 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.
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Expansion of Myeloid-Derived Suppressor Cells Promotes Differentiation of Regulatory T Cells in HIV-1+ IndividualsWang, 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.
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STAT3 Regulation of Mucosal Inflammation in Pediatric Crohn’s Disease and Murine ColitisWillson, Tara A. 20 April 2012 (has links)
No description available.
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Influence of hypoxia on tumour cell susceptibility to cytotoxic T lymphocyte mediated lysisNoman, 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.
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Hepatitis C Virus-Induced Myeloid-Derived Suppressor Cells Regulate T-cell Differentiation and Function via the Signal Transducer and Activator of Transcription 3 PathwayRen, 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.
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Targeting breast cancer with natural forms of vitamin E and simvastatinGopalan, Archana 13 July 2012 (has links)
Breast cancer is the second leading cause of death due to cancer in women. A number of effective therapeutic strategies have been implemented in clinics to cope with the disease yet recurrent disease and toxicity reduce their effectiveness. Hence, there is a need to identify and develop more effective therapies with reduced toxic side effects to improve overall survival rates. This dissertation investigates the mechanisms of action of two natural forms of vitamin E and a cholesterol lowering drug, simvastatin, as a therapeutic strategy in human breast cancer cells. Vitamin E in nature consists of eight distinct forms which are fat soluble small lipids. Until recently, vitamin E was known as a potent antioxidant but emerging work suggests they may be resourceful agents in managing a number of chronic diseases including cancer. Anticancer properties of vitamin E have been identified to be limited to the γ- and δ- forms of both tocopherols and tocotrienols. Gamma-tocopherol ([gamma]T) and gamma-tocotrienol ([gamma]T3) have both already been identified to induce death receptor 5 (DR5) mediated apoptosis in breast cancer cells. Studies here show that similar to [gamma]T3, [gamma]T induced DR5 activation is mediated by c-Jun N-terminal kinase/C/EBP homologous protein (JNK/CHOP) proapoptotic axis which in part contributed to [gamma]T mediated dowregulation of c-FLIP, Bcl-2 and Survivin. Also, both agents activate de novo ceramide synthesis pathway which induces JNK/CHOP/DR5 proapoptotic axis and downregulates antiapoptotic factors FLICE inhibitory protein (c-FLIP), B-cell lymphoma 2 (Bcl-2) and Survivin leading to apoptosis. Simvastatin (SVA) has been identified to display pleiotropic effects including anticancer effects but mechanisms responsible for these actions have yet to be fully understood. In this dissertation, it was observed that simvastatin induced apoptosis in human breast cancer cells via activation of JNK/CHOP/DR5 proapoptotic axis and down regulation of antiapoptotic factors c-FLIP and Survivin which are in part dependent on JNK/CHOP/DR5 axis. The anticancer effects mediated by simvastatin can be reversed by exogenously added mevalonate and geranylgeranyl pyrophosphate (GGPP), implicating the blockage of mevalonate as a key event. Furthermore, work has been done to understand the factors responsible for drug resistance and identify therapeutic strategies to counteract the same. It was observed that development of drug resistance was associated with an increase in the percentage of tumor initiating cells (TICs) in both tamoxifen and Adriamycin resistant cells compared to their parental counterparts which was accompanied by an increase in phosphorylated form of Signal transducer and activator of transcription 3 (Stat3) proteins as well as its downstream mediators c-Myc, cyclin D1, Bcl-xL and Survivin. Inhibition of Stat3 demonstrated that Stat3 and its downstream mediators play an important role in regulation of TICs in drug resistant breast cancer. Moreover, SVA, [gamma]T3 and combination of SVA+[gamma]T3 has been observed to target TICs in drug resistant human breast cancer cells and downregulate Stat3 as well as its downstream mediators making it an attractive agent to overcome drug resistance. From the data presented here, the mechanisms responsible for the anticancer actions of [gamma]T, [gamma]T3 and SVA have been better understood, providing the necessary rationale to test these agents by themselves or in combination in pre-clinical models. / text
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The essential role of Stat3 in bone homeostasis and mechanotransductionZhou, Hongkang January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Signal Transducer and Activator of Transcription 3 (Stat3) is a transcription factor expressed in bone and joint cells that include osteoblasts, osteocytes, osteoclasts, and chondrocytes. Stat3 is activated by a variety of cytokines and growth factors, including IL-6/gp130 family cytokines. These cytokines not only regulate the differentiation of osteoblasts and osteoclasts, but also regulate proliferation of chondrocytes through Stat3 activation. In 2007, mutations of Stat3 have been confirmed to cause a rare human immunodeficiency disease – Job syndrome which presents skeletal abnormalities like: reduced bone density (osteopenia), scoliosis, hyperextensibility of joints, and recurrent pathological bone fractures. Changes in the Stat3 gene alter the structure and function of the Stat3 proteins, impairing its ability to control the activity of other genes. However, little is known about the effects of Stat3 mutations on bone cells and tissues.
To investigate the in vivo physiological role of Stat3 in bone homeostasis, osteoblast/osteocyte-specific Stat3 knockout (KO) mice were generated via the Cre-LoxP recombination system. The osteoblast/osteocyte-specific Stat3 KO mice showed bone abnormalities and an osteoporotic phenotype because of a reduced bone formation rate.
Furthermore, inactivation of Stat3 decreased load-driven bone formation, and the disruption of Stat3 in osteoblasts suppressed load-driven mitochondrial activity, which led to an elevated level of reactive oxygen species (ROS) in cultured primary osteoblasts.
Stat3 has been found to be responsive to mechanical stimulation, and might play an important role in mechanical signal transduction in osteocytes. To investigate the role Stat3 plays in mechanical signaling transduction, osteocyte-specific Stat3 knockout (KO) mice were created. Inactivation of Stat3 in osteocytes presented a significantly reduced load-driven bone formation. Decreased osteoblast activity indicated by reduced osteoid surface was also found in osteocyte-specific Stat3 KO mice. Moreover, sclerostin (SOST) protein which is a critical osteocyte-specific inhibitor of bone formation, its encoded gene SOST expression has been found to be enhanced in osteocyte-specific Stat3 KO mice.
Thus, these results clearly demonstrated that Stat3 plays an important role in bone homeostasis and mechanotransduction, and Stat3 is not only involved in bone-formation-important genes regulation in the nucleus but also in mediation of ROS and oxidative stress in mitochondria.
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