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The apoptotic bodies were stained by cytokeratin 18. The trichrome stain revealed portal to portal bridging fibrosis. In one family, there was a three-fold increase in relative numbers of perisinusoidal macrophages in the older sister with NASH compared to livers of the younger siblings. The special finding in livers of patients with NASH was accumulation of groups of perisinusoidal macrophages, which was not associated with focal necrosis. CONCLUSION Perisinusoidal macrophages appear to accumulate in NASH. It is possible that collections of macrophages are a response to chronic portal endotoxemia or lipotoxic activation of immuno-mediators. The persistent activation of these macrophages could lead to the chronic release of pro-inflammatory cytokines and contribute to chronic inflammation, fibrosis and cirrhosis leading to HCC. Non-small-cell lung cancer (NSCLC) is one of the common malignant tumors, and multidrug resistance (MDR) and tumor metastasis limit the anticancer effect of NSCLC. Therefore, it is necessary to develop new anticancer drug that can inhibit MDR and metastasis of NSCLC. In the present study, we found that 5-(2-chlorophenyl)-4-(4-(3,5-dimethoxyphenyl)piperazine-1-carbonyl)-2H-1,2,3- triazole (MAY) displayed strong cytotoxic effect on A549 and taxol-resistant A549 cells (A549/Taxol cells). We further discovered that MAY led to G2/M phase arrest by inhibiting microtubule polymerization in both cells. Then MAY caused apoptosis by the mitochondrial pathway in A549 cells and through the extrinsic pathway in A549/Taxol cells. Interestingly, MAY was not a substrate for P-glycoprotein (P-gp), which was highly expressed in A549/Taxol cells, and MAY inhibited the expression and efflux function of P-gp. Furthermore, MAY inhibited epithelial-mesenchymal transition (EMT) by targeting Twist1 in A549/Taxol cells. In summary, our results suggest that MAY induces apoptosis in A549 and A549/Taxol cells and inhibits EMT in A549/Taxol cells. These findings suggest that MAY could provide a promising method for the treatment of NSCLC, especially for the treatment of resistant NSCLC. The largest and best studied group of regulatory small RNAs (sRNAs) in bacteria act by modulating translation or turnover of messenger RNAs (mRNAs) through base-pairing interactions that typically take place near the 5' end of the mRNA. This allows the sRNA to bind the complementary target sequence while the remainder of the mRNA is still being made, creating conditions whereby the action of the sRNA can extend to transcriptional steps, most notably transcription termination. Increasing evidence corroborates the existence of a functional interplay between sRNAs and termination factor Rho. Two general mechanisms have emerged. One mechanism operates in translated regions subjected to sRNA repression. By inhibiting ribosome binding co-transcriptionally, the sRNA uncouples translation from transcription, allowing Rho to bind the nascent RNA and promote termination. SHP099 chemical structure In the second mechanism, which functions in 5' untranslated regions, the sRNA antagonizes termination directly by interfering with Rho binding to the RNA or the subsequent translocation along the RNA. Here, we review the above literature in the context of other mechanisms that underlie the participation of Rho-dependent transcription termination in gene regulation. This article is part of a Special Issue entitled RNA and gene control in bacteria edited by Dr. M. Guillier and F. Repoila. V.Liver metastases remain a major cause of death from gastrointestinal tract cancers and other malignancies, such as breast and lung carcinomas. Understanding the underlying biology is essential for the design of effective therapies. We previously identified the chemokine CCL7 and its receptor CCR3 as critical mediators of invasion and metastasis in lung and colon carcinoma cells. Here we show that the CCL7/CCR3 axis regulates a late stage in invadopodia genesis namely, the targeting of MMP-9 to the invadopodia complex, thereby promoting invadopodia maturation and collagen degradation. We show that this process could be blocked by overexpression of a dominant negative RhoA in highly invasive cells, while a constitutively active RhoA upregulated invadopodia maturation in CCL7-silenced and poorly invasive and metastatic cells and also enhanced their metastatic potential in vivo, collectively, implicating RhoA activation in signaling downstream of CCL7. Blockade of the ERK or PI3K pathways by chemical inhibitors also inhibited invadopodia formation, but affected the initiation stage of invadopodia genesis. Our data implicate CCL7/CCR3 signaling in invadopodia maturation and suggest that chemokine signaling acts in concert with extracellular matrix-initiated signals to promote invasion and liver metastasis. The retinoblastoma protein Rb is a prototype tumor suppressor inactivated in a variety of cancers. In addition to deregulated cell proliferation, Rb inactivation also causes genome instability that contributes to tumorigenesis. Although the genome instability effects of Rb inactivation was shown to be mediated mainly by E2F-independent mechanisms, little is known about whether the constitutive free activating E2F proteins released by Rb-inactivation affects genome stability. In this manuscript, we take advantage of the dE2F1su89 mutant, which contains a point mutation in the conserved Rb-binding domain that disrupts its interaction with the Rb family proteins, to characterize the effect of constitutive free activating E2F on genome stability in the presence of WT Rb. We showed that dE2F1su89 promoted genome stability in the mwh genome stability assay. We found that the genome stability effects of dE2F1su89 was sensitive to the levels of activating E2F activity and to the levels of E2F targets involved in DNA replication and repair but not to the level of E2F cell cycle target Cyclin E. Importantly, we showed that dE2F1su89 promoted DNA double-strand break (DSB) repair by homologous recombination and decreased DSB repair by Non-homologous end joining (NHEJ). These results show that the constitutive free activating E2F promotes genome stability, which potentially contributes the observed tumor development in E2F1 knockout mice and the reported NHEJ defects in Rb mutant cells. These results also explain why constitutive free activating E2F alone was not sufficient for tumor development. V.
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