Adenovirus sequesters phosphorylated STAT1 at viral replication centers and inhibits STAT dephosphorylation

Tyrosine phosphorylation and nuclear translocation of STAT1 indicate activation of interferon (IFN) signal transduction pathways. Here, we demonstrate that tyrosine-phosphorylated STAT1 is targeted by a unique mechanism in adenovirus (Ad)-infected cells. Ad is known to suppress IFN-inducible gene expression; however, we observed that Ad infection prolongs the tyrosine phosphorylation of STAT1 induced by alpha IFN in infected cells. To understand this paradoxical effect, we examined the subcellular localization of STAT1 following Ad infection and found that nuclear, tyrosine-phosphorylated STAT1 accumulates at viral replication centers. This form of STAT1 colocalized with newly synthesized viral DNA. Viral DNA replication, but not viral late gene expression, is required for the regulation of STAT1 phosphorylation. Our results indicate that Ad infection regulates STAT1 dephosphorylation rather than STAT1 phosphorylation. Consistent with this idea, we show that Ad infection disrupts the interaction between STAT1 and its cognate protein tyrosine phosphatase, TC45. Our findings indicate that Ad sequesters phosphorylated STAT1 at viral replication centers and inhibits STAT dephosphorylation. This report suggests a strategy employed by Ad to counteract an active form of STAT1 in the nucleus of infected cells.     

STAT3 but Not STAT1 Is Required for Astrocyte Differentiation

The JAK-STAT signaling pathway has been implicated in astrocyte differentiation. Both STAT1 and STAT3 are expressed in the central nervous system and are thought to be important for glial differentiation, as mainly demonstrated in vitro; however direct in vivo evidence is missing. We investigated whether STAT1 and STAT3 are essential for astrocyte development by testing the STAT responsiveness of astrocyte progenitors. STAT3 was absent in the ventricular zone where glial progenitors are born but begins to appear at the marginal zone at E16.5. At E18.5, both phospho-STAT1 and phospho-STAT3 were present in glial fibrillary acidic protein (GFAP)-expressing white matter astrocytes. Overexpression of STAT3 by electroporation of chicks in ovo induced increased numbers of astrocyte progenitors in the spinal cord. Likewise, elimination of STAT3 in Stat3 conditional knockout (cKO) mice resulted in depletion of white matter astrocytes. Interestingly, elimination of STAT1 in Stat1 null mice did not inhibit astrocyte differentiation and deletion of Stat1 failed to aggravate the glial defects in Stat3 cKO mice. Measuring the activity of STAT binding elements and the gfap promoter in the presence of various STAT mutants revealed that transactivation depended on the activity of STAT3 not STAT1. No synergistic interaction between STAT1 and STAT3 was observed. Cortical progenitors of Stat1 null; Stat3 cKO mice generated astrocytes when STAT3 or the splice variant Stat3β was supplied, but not when STAT1 was introduced. Together, our results suggest that STAT3 is necessary and sufficient for astrocyte differentiation whereas STAT1 is dispensable.     

Cutting edge: role of STAT1, STAT3, and STAT5 in IFN-alpha beta responses in T lymphocytes

Engagement of the IFN-alphabeta receptor initiates multiple signaling cascades, including activation of the STAT. In this study, we demonstrate that IFN-alphabeta, although antiproliferative in wild-type CD4(+) or CD8(+) T cells, act as strong mitogens on their STAT1(-/-) counterparts. Furthermore, IFN-alphabeta exert little effect on apoptosis in wild-type cells, but are potent survival factors in the absence of STAT1. The antiapoptotic response in the absence of STAT1 is predominantly mediated by STAT3, and to a lesser extent by STAT5A/B. In contrast, the mitogenic IFN-alphabeta response gained through the absence of STAT1 is only marginally affected when STAT5A/B expression is also abrogated, but is completely dependent on STAT3 activation. These findings provide the first evidence for a function of STAT3 and STAT5A/B in the IFN-alphabeta response, and support a model in which the IFN-alphabeta receptor initiates both pro- and antiapoptotic responses through STAT1, and STAT3 and STAT5A/B, respectively.     

脂多糖对人支气管上皮细胞STAT1、STAT3、STAT4、STAT6表达的影响

目的观察脂多糖对人支气管上皮细胞16HBESTAT1、STAT3、STAT4、STAT6表达的影响。方法采用普通RT—PCR检测16HBE细胞STAT1、STAT3、STAT4、STAT6的mRNA表达;Western印迹检测16HBE细胞STAT1、STAT4、STAT6的蛋白表达。分别采用不同浓度的脂多糖在不同的时间点处理16HBE细胞,采用Real—timePCR的方法检测16HBE细胞STAT1、STAT3、STAT4、STAT6的mRNA表达。结果1μg／m1的LPS处理16HBE细胞1h组、0．25μg／m1的LPS处理16HBE细胞4h组、1μg／ml的LPS处理16HBE细胞4h组STAT1、STAT4的mRNA表达较正常对照组显著增高（P〈0．01）;0．25μg／ml的LPS处理16HBE细胞2h组、1μg／ml的LPS处理16HBE细胞2h组、10μg／ml的LPS处理16HBE细胞2h组STAT1、STAT4的mRNA表达较正常对照组有所增高（P〈0．05）;1μg/ml的LPS处理16HBE细胞1h组STAT6的mRNA表达较正常对照组显著增高（P〈0．01）。所有LPS处理16HBE细胞组STAT3的mRNA表达均较正常对照组减低。结论人支气管上皮细胞表达STAT1、STAT3、STAT4、STAT6的mRNA和STAT1、STAT4、STAT6的蛋白,一定剂量的脂多糖在某些时间点分别刺激了人支气管上皮细胞STAT1、sTAT4、STAT6的mRNA表达。     

JAK2/STAT2/STAT3 are required for myogenic differentiation

Skeletal muscle satellite cell-derived myoblasts are mainly responsible for postnatal muscle growth and injury-induced regeneration. However, the cellular signaling pathways that control proliferation and differentiation of myoblasts remain poorly defined. Recently, we found that JAK1/STAT1/STAT3 not only participate in myoblast proliferation but also actively prevent them from premature differentiation. Unexpectedly, we found that a related pathway consisting of JAK2, STAT2, and STAT3 is required for early myogenic differentiation. Interference of this pathway by either a small molecule inhibitor or small interfering RNA inhibits myogenic differentiation. Consistently, all three molecules are activated upon differentiation. The pro-differentiation effect of JAK2/STAT2/STAT3 is partially mediated by MyoD and MEF2. Interestingly, the expression of the IGF2 gene and the HGF gene is also regulated by JAK2/STAT2/STAT3, suggesting that this pathway could also promote differentiation by regulating signaling molecules known to be involved in myogenic differentiation. In summary, our current study reveals a novel role for the JAK2/STAT2/STAT3 pathway in myogenic differentiation.     

Implication of STAT1 and STAT3 transcription factors in the response to superantigens

The activation of STAT1 and STAT3 in response to SEB was analyzed in spleen of Balb/c mice. The intraperitoneal injection of the superantigen SEB activated STAT1 and STAT3 in spleen. Activated STAT1 almost completely disappeared in 24 h even though activated STAT3 was present for more than 48 h after SEB injection. Cyclosporine A was able to block the initial STAT1 activation, but STAT3 activation was only partially affected. SEB also increased the mRNA levels for STAT1, STAT3 and SOCS1. When a second injection with SEB was given 72 h after the first stimulus, STAT1 activation was much lower than that observed after the first stimulation with SEB and no increase in the STAT1 mRNA level was observed. Nevertheless, after this second injection, STAT3 was again activated without any significant interference from the first stimulus and the STAT3 and SOCS1 mRNA levels again increased. These data indicate that a first stimulation with superantigen re-programs cells so that they respond to a second stimulation in a different way. Understanding the mechanisms implicated in this re-programming is basic for designing therapeutic strategies in processes such as septic shock.     

Distinct roles for STAT1, STAT3, and STAT5 in differentiation gene induction and apoptosis inhibition by interleukin-9.

Interleukin-9 (IL-9) activates three distinct STAT proteins: STAT1, STAT3, and STAT5. This process depends on one tyrosine of the IL-9 receptor, which is necessary for proliferation, gene induction, and inhibition of apoptosis induced by glucocorticoids. By introduction of point mutations in amino acids surrounding this tyrosine, we obtained receptors that activated either STAT5 alone or both STAT1 and STAT3, thus providing us with the possibility to study the respective roles of these factors in the biological activities of IL-9. Both mutant receptors were able to prevent apoptosis, but only the mutant that activated STAT1 and STAT3 was able to support induction of granzyme A and L-selectin. In line with these results, constitutively activated STAT5 blocked glucocorticoid-induced apoptosis. In Ba/F3 cells, significant proliferation and pim-1 induction were observed with both STAT-restricted mutants, though proliferation was lower than with the wild-type receptor. These results suggest that survival and cell growth are redundantly controlled by multiple STAT factors, whereas differentiation gene induction is more specifically correlated with individual STAT activation by IL-9.