STING (stimulator of interferon genes) has recently been found to play an important role in host defenses against virus and intracellular bacteria via the regulation of type-I IFN signaling and innate immunity. Chronic infection with Helicobacter pylori is identified as the strongest risk factor for gastric cancer. Thus, we aim to explore the function of STING signaling in the development of gastric cancer. Immunohistochemistry was used to detect STING expression in 217 gastric cancer patients who underwent surgical resection. STING protein expression was remarkably decreased in tumor tissues compared to non-tumor tissues, and low STING staining intensity was positively correlated with tumor size, tumor invasion depth, lymph mode metastasis, TNM stage, and reduced patients’ survival. Multivariate analysis identified STING as an independent prognostic factor, which could improve the predictive accuracy for overall survival when incorporated into TNM staging system. In vitro studies revealed that knock-down of STING promoted colony formation, viability, migration and invasion of gastric cancer cells, and also led to a defect in cytosolic DNA sensing. Besides, chronic H. pylori infection up-regulated STING expression and activated STING signaling in mice. In conclusion, STING was proposed as a novel independent prognostic factor and potential immunotherapeutic target for gastric cancer.
Coordinated translation initiation is coupled with cell cycle progression and cell growth, whereas excessive ribosome biogenesis and translation initiation often lead to tumor transformation and survival. Hepatocellular carcinoma (HCC) is among the most common and aggressive cancers worldwide and generally displays inherently high resistance to chemotherapeutic drugs. We found that RACK1, the receptor for activated C-kinase 1, was highly expressed in normal liver and frequently upregulated in HCC. Aberrant expression of RACK1 contributed to in vitro chemoresistance as well as in vivo tumor growth of HCC. These effects depended on ribosome localization of RACK1. Ribosomal RACK1 coupled with PKCβII to promote the phosphorylation of eukaryotic initiation factor 4E (eIF4E), which led to preferential translation of the potent factors involved in growth and survival. Inhibition of PKCβII or depletion of eIF4E abolished RACK1-mediated chemotherapy resistance of HCC in vitro. Our results imply that RACK1 may function as an internal factor involved in the growth and survival of HCC and suggest that targeting RACK1 may be an efficacious strategy for HCC treatment.
Our data suggest that peritoneal and ovarian tumors of low malignant potential arise independently.
A cDNA encoding a human ortholog of mouse DNA helicase B, which may play a role in DNA replication, has been cloned and expressed as a recombinant protein. The predicted human DNA helicase B (HDHB) protein contains conserved helicase motifs (superfamily 1) that are strikingly similar to those of bacterial recD and T4 dda proteins. The HDHB gene is expressed at low levels in liver, spleen, kidney, and brain and at higher levels in testis and thymus. Purified recombinant HDHB hydrolyzed ATP and dATP in the presence of singlestranded DNA, displayed robust 5-3 DNA helicase activity, and interacted physically and functionally with DNA polymerase ␣-primase. HDHB proteins with mutations in the Walker A or B motif lacked ATPase and helicase activity but retained the ability to interact with DNA polymerase ␣-primase, suggesting that the mutants might be dominant over endogenous HDHB in human cells. When purified HDHB protein was microinjected into the nucleus of cells in early G 1 , the mutant proteins inhibited DNA synthesis, whereas the wild type protein had no effect. Injection of wild type or mutant protein into cells at G 1 /S did not prevent DNA synthesis. The results suggest that HDHB function is required for S phase entry.DNA helicases are an abundant class of DNA metabolic enzymes, surpassing even the DNA polymerases in number and complexity, as well as in their resistance to experimental efforts to elucidate their functions. Although prokaryotic and viral DNA helicases are comparatively well studied, eukaryotic DNA helicases remain poorly understood. The 134 helicaserelated genes encoded by Saccharomyces cerevisiae constitute more than 2% of the genome, but physiological functions of few of them are known (1). A better understanding of DNA replication, repair, and recombination pathways and the interplay among them in eukaryotic cells will depend on elucidation of the DNA helicases involved and their roles in each pathway.SV40 T antigen, a multifunctional viral protein, has served as a paradigm for a replicative helicase in eukaryotes (2, 3). It assembles on the viral origin of DNA replication, unwinds the parental strands, and directs the assembly of the cellular DNA polymerase ␣-primase (pol-prim) 1 (4) and replication protein A (RPA) (5) on the DNA, mediating the synthesis of the first RNA primers. A cellular DNA helicase, mouse DNA helicase B, was reported to share with T antigen the capacity to load pol-prim on RPA-coated single-stranded DNA and activate RNA primer synthesis (6, 7). Moreover, in a mutant derivative of FM3A mouse mammary carcinoma cells that express a thermolabile mutant of murine DNA helicase B, the onset of DNA replication was blocked at the non-permissive temperature (8), consistent with a possible role of the helicase in initiation of DNA replication. A cDNA encoding mouse DNA helicase B was recently cloned and characterized as a member of helicase superfamily 1 (9), which includes several well studied prokaryotic helicases, e.g. Escherichia coli uvrD/Helicase II, rep, recB(CD), and Bac...
Gastric cancer remains the third leading cause of cancerrelated mortality worldwide, and invasion and metastasis of gastric cancer represent the major reason for its poor prognosis. In this study, we found that loss of the receptor for activated C-kinase 1 (RACK1) promoted the metastasis of gastric cancer by enhancing the autocrine of IL8 in vitro and in vivo. microRNA (miRNA; miR) array identified that RACK1 modulated the expression of a series of miRNAs, including the miR-302 cluster, and RACK1 modulated the IL8 expression and tumor invasion through miRNA-302c. Moreover, upregulation of IL8 in turn decreased the level of miRNA-302c and induced IL8 expression in a feedback manner. Tissue microarray also indicated that RACK1 was correlated with invasion/ metastasis phenotype, IL8 expression, as well as 5-year survival in clinical cases of gastric cancer. Together, our results imply that loss of RACK1 in gastric cancer links epigenetics to inflammatory cytokines to promote tumor metastasis. Cancer Res; 75(18); 3832-41. Ó2015 AACR.
Mammalian myosin filaments are helically ordered only at higher temperatures (>20 degrees C) and become progressively more disordered as the temperature is decreased. It had previously been suggested that this was a consequence of the dependence of the hydrolytic step of myosin ATPase on temperature and the requirement that hydrolysis products (e.g., ADP.P(i)) be bound at the active site. An alternative hypothesis is that temperature directly affects the conformation of the myosin heads and that they need to be in a particular conformation for helical order in the filament. To discriminate between these two hypotheses, we have studied the effect of temperature on the helical order of myosin heads in rabbit psoas muscle in the presence of nonhydrolyzable ligands. The muscle fibers were overstretched to nonoverlap such that myosin affinity for nucleotides was not influenced by the interaction of myosin with the thin filament. We show that with bound ADP.vanadate, which mimics the transition state between ATP and hydrolysis products, or with the ATP analogues AMP-PNP or ADP.BeF(x)() the myosin filaments are substantially ordered at higher temperatures but are reversibly disordered by cooling. These results reinforce recent studies in solution showing that temperature as well as ligand influence the equilibrium between multiple myosin conformations [Málnási-Csizmadia, A., Pearson, D. S., Kovács, M., Woolley, R. J., Geeves, M. A., and Bagshaw, C. R. (2001) Biochemistry 40, 12727-12737; Málnási-Csizmadia, A., Woolley, R. J., and Bagshaw, C. R. (2000) Biochemistry 39, 16135-16146; Urbanke, C., and Wray, J. (2001) Biochem. J. 358, 165-173] and indicate that helical order requires the myosin heads to be in the closed conformation. Our results suggest that most of the heads in the closed conformation are ordered, and that order is not produced in a separate step. Hence, helical order can be used as a signature of the closed conformation in relaxed muscle. Analysis of the dependence on temperature of helical order and myosin conformation shows that in the presence of these analogues one ordered (closed) conformation and two disordered conformations with distinct thermodynamic properties coexist. Low temperatures favor one disordered conformation, while high temperatures favor the ordered (closed) conformation together with a second disordered conformation.
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