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Browsing by Author "Fu, Xin-Yuan"
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Item Critical Roles of STAT3 in β-Adrenergic Functions in the Heart(American Heart Association, 2016-01-05) Zhang, Wenjun; Qu, Xiuxia; Chen, Biyi; Snyder, Marylynn; Wang, Meijing; Li, Baiyan; Tang, Yue; Chen, Hanying; Zhu, Wuqiang; Zhan, Li; Yin, Ni; Li, Deqiang; Li, Xie; Liu, Ying; Zhang, J. Jillian; Fu, Xin-Yuan; Rubart, Michael; Song, Long-Sheng; Huang, Xin-Yun; Shou, Weinian; Department of Pediatrics, IU School of MedicineBACKGROUND: β-Adrenergic receptors (βARs) play paradoxical roles in the heart. On one hand, βARs augment cardiac performance to fulfill the physiological demands, but on the other hand, prolonged activations of βARs exert deleterious effects that result in heart failure. The signal transducer and activator of transcription 3 (STAT3) plays a dynamic role in integrating multiple cytokine signaling pathways in a number of tissues. Altered activation of STAT3 has been observed in failing hearts in both human patients and animal models. Our objective is to determine the potential regulatory roles of STAT3 in cardiac βAR-mediated signaling and function. METHODS AND RESULTS: We observed that STAT3 can be directly activated in cardiomyocytes by β-adrenergic agonists. To follow up this finding, we analyzed βAR function in cardiomyocyte-restricted STAT3 knockouts and discovered that the conditional loss of STAT3 in cardiomyocytes markedly reduced the cardiac contractile response to acute βAR stimulation, and caused disengagement of calcium coupling and muscle contraction. Under chronic β-adrenergic stimulation, Stat3cKO hearts exhibited pronounced cardiomyocyte hypertrophy, cell death, and subsequent cardiac fibrosis. Biochemical and genetic data supported that Gαs and Src kinases are required for βAR-mediated activation of STAT3. Finally, we demonstrated that STAT3 transcriptionally regulates several key components of βAR pathway, including β1AR, protein kinase A, and T-type Ca(2+) channels. CONCLUSIONS: Our data demonstrate for the first time that STAT3 has a fundamental role in βAR signaling and functions in the heart. STAT3 serves as a critical transcriptional regulator for βAR-mediated cardiac stress adaption, pathological remodeling, and heart failure.Item Drugging the “Undruggable” DNA-binding Domain of STAT3 for Inhibition of Cancer Cell Migration and Invasion(Office of the Vice Chancellor for Research, 2013-04-05) Huang, Wei; Liu, Jing-Yuan; Dong, Zi-Zheng; Wang, Fang; He, Yan-Tao; Hangoc, Giao; Fu, Xin-Yuan; Broxmeyer, Hal; Zhang, Zhong-Yin; Zhang, Jian-TingSignal transducer and activator of transcription 3 (STAT3) is constitutively activated in malignant tumors, and its activation is associated with high histological grade and advanced cancer stage. STAT3 has been shown to play important roles in multiple aspects of cancer aggressiveness including migration, invasion, survival, self-renewal, angiogenesis, and tumor cell immune evasion by regulating the expression of multiple downstream target genes. Thus, inhibiting STAT3 promises an attracting strategy for treatment of advanced tumors with metastatic potential. Previously, we identified a STAT3 inhibitor, inS3-54, by targeting the “undruggable” DNA-binding site of STAT3 using an improved in-silico screening approach. To further develop this inhibitor, we identified 79 analogues of inS3-54 for the structure-activity relationship analysis. Further study of five effective analogues shows that four analogues (#1, 18, 26, and 69) inhibit STAT3-dependent colony formation of hematopoietic progenitor cells, indicating a higher selectivity for STAT3 than their parental compound, inS3-54 and another analogue #74. These compounds also (1) inhibit STAT3-specific DNA binding activity; (2) suppress proliferation of cancer cells that have constitutively activated STAT3; and (3) inhibit migration and invasion of cancer cells. In addition, analogue #26-conjugated Sepharose beads could also pull down STAT3, revealing a possible direct binding between STAT3 and the inhibitor. Taken together, we conclude that it is possible to inhibit STAT3 by targeting its DNA-binding domain for discovery of anticancer therapeutics and for treatment of metastatic cancers.Item hSef potentiates EGF-mediated MAPK signaling through affecting EGFR trafficking and degradation(Elsevier B.V., 2008-03) Ren, Yongming; Cheng, Long; Rong, Zhili; Li, Zhiyong; Li, Yinghua; Zhang, Xinjun; Xiong, Shiqin; Hu, Jim; Fu, Xin-Yuan; Chang, Zhijie; Department of Microbiology & Immunology, IU School of MedicineSef (similar expression to fgf genes) was identified as an effective antagonist of fibroblast growth factor (FGF) in vertebrates. Previous reports have demonstrated that Sef interacts with FGF receptors (FGFRs) and inhibits FGF signaling, however, its role in regulating epidermal growth factor receptor (EGFR) signaling remains unclear. In this report, we found that hSef localizes to the plasma membrane (PM) and is subjected to rapid internalization and well localizes in early/recycling endosomes while poorly in late endosomes/lysosomes. We observed that hSef interacts and functionally colocalizes with EGFR in early endosomes in response to EGF stimulation. Importantly, we demonstrated that overexpression of hSef attenuates EGFR degradation and potentiates EGF-mediated mitogen-activated protein kinase (MAPK) signaling by interfering EGFR trafficking. Finally, our data showed that, with overexpression of hSef, elevated levels of Erk phosphorylation and differentiation of rat pheochromocytoma (PC12) cells occur in response to EGF stimulation. Taken together, these data suggest that hSef plays a positive role in the EGFR-mediated MAPK signaling pathway. This report, for the first time, reveals opposite roles for Sef in EGF and FGF signalings.Item STAT3- and STAT5-dependent pathways competitively regulate the pan-differentiation of CD34pos cells into tumor-competent dendritic cells(ASH, 2008-09-01) Cohen, Peter A.; Koski, Gary K.; Czernieck, Brian J.; Bunting, Kevin D.; Fu, Xin-Yuan; Wang, Zhengqi; Zhang, Wen-Jun; Carter, Charles S.; Awad, Mohamed; Distel, Christopher A.; Nagem, Hassan; Paustian, Christopher C.; Johnson, Terrence D.; Tisdale, John F.; Shu, Suyu; Microbiology and Immunology, School of MedicineThe clinical outcomes of dendritic cell (DC)–based immunotherapy remain disappointing, with DCs often displaying a tenuous capacity to complete maturation and DC1 polarization in the tumor host. Surprisingly, we observed that the capacity for successful DC1 polarization, including robust IL12p70 production, could be regulated by STAT-dependent events even prior to DC differentiation. Exposure of CD34pos cells to single-agent granulocyte-macrophage colony-stimulating factor (GMCSF) induced multilineage, STAT5-dependent differentiation, including DCs that failed to mature in the absence of further exogenous signals. In contrast, Flt3L induced nearly global differentiation of CD34pos cells into spontaneously maturing DCs. IL-6 synergized with Flt3L to produce explosive, STAT3-dependent proliferation of phenotypically undifferentiated cells that nevertheless functioned as committed DC1 precursors. Such precursors not only resisted many tumor-associated immunosuppressants, but also responded to tumor contact or TGFβ with facilitated DC maturation and IL12p70 production, and displayed a superior capacity to reverse tumor-induced T-cell tolerance. GMCSF preempted Flt3L or Flt3L plus IL-6 licensing by blocking STAT3 activation and promoting STAT5-dependent differentiation. Paradoxically, following overt DC differentiation, STAT5 enhanced whereas STAT3 inhibited DC1 polarization. Therefore, nonoverlapping, sequential activation of STAT3 and STAT5, achievable by sequenced exposure to Flt3L plus IL-6, then GMCSF, selects for multilog expansion, programming, and DC1 polarization of tumor-competent DCs from CD34pos cells.Item STAT5 programs a distinct subset of GM-CSF-producing T helper cells that is essential for autoimmune neuroinflammation(Nature Publishing Group, 2014-12) Sheng, Wanqiang; Yang, Fan; Zhou, Yi; Yang, Henry; Low, Pey Yng; Kemeny, David Michael; Tan, Patrick; Moh, Akira; Kaplan, Mark H.; Zhang, Yongliang; Fu, Xin-Yuan; Department of Pediatrics, IU School of MedicineT helper (TH)-cell subsets, such as TH1 and TH17, mediate inflammation in both peripheral tissues and central nervous system. Here we show that STAT5 is required for T helper-cell pathogenicity in autoimmune neuroinflammation but not in experimental colitis. Although STAT5 promotes regulatory T cell generation and immune suppression, loss of STAT5 in CD4+ T cells resulted in diminished development of experimental autoimmune encephalomyelitis (EAE), a mouse model of multiple sclerosis. Our results showed that loss of encephalitogenic activity of STAT5-deficient autoreactive CD4+ T cells was independent of IFN-γ or interleukin 17 (IL-17) production, but was due to the impaired expression of granulocyte-macrophage colony-stimulating factor (GM-CSF), a crucial mediator of T-cell pathogenicity. We further showed that IL-7-activated STAT5 promotes the generation of GM-CSF-producing CD4+ T cells, which were preferentially able to induce more severe EAE than TH17 or TH1 cells. Consistent with GM-CSF-producing cells being a distinct subset of TH cells, the differentiation program of these cells was distinct from that of TH17 or TH1 cells. We further found that IL-3 was secreted in a similar pattern as GM-CSF in this subset of TH cells. In conclusion, the IL-7-STAT5 axis promotes the generation of GM-CSF/IL-3-producing TH cells. These cells display a distinct transcriptional profile and may represent a novel subset of T helper cells which we designate as TH-GM.