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Interestingly, post insult treatment with apocynin also suppressed LPS/D-Gal-induced oxidative stress, hepatocyte apoptosis, liver damage but improved the survival rate. Mechanistically, posttreatment with apocynin prohibited LPS/D-Gal-induced activation of the late stage pro-apoptotic AMP-activated protein kinase (AMPK)/c-Jun N-terminal kinase (JNK) pathway. Post-insult treatment with the antioxidant N-acetylcysteine also resulted in suppressed activation of AMPK/JNK, mitigated apoptosis and alleviated liver injury. These data suggest that NOX-derived ROS might be a crucial late stage detrimental factor in LPS/D-Gal-induced acute liver injury via promoting the activation of the pro-apoptotic AMPK/JNK pathway, and the NOX inhibitor might have important value in the pharmacological intervention of inflammation-base liver damage. Ganoderma lucidum has salutary effects on tumor treatment, including pancreatic cancer and hepatocellular carcinoma. However, the molecular mechanisms underlying Ganoderma lucidum therapy is obscure. In this study, the Hepa1-6-bearing C57 BL/6 mouse model was utilized to explore the therapeutic efficacy of Ganoderma lucidum extract (GLE), documenting that it could effectively inhibit tumor growth. The microRNA (miRNA) profiles of GLE-treated and untreated mice were detected, and 25 differentially expressed (DE) miRNAs were determined, including 24 up-expressed and one down-expressed miRNAs. Using the ClusterOne algorithm, 8 hub miRNAs were isolated from the established miRNA-target network. The qRT-PCR assay demonstrated that these 8 miRNAs were up-expressed in the GLE treated tumor mice. Furthermore, the mRNA profiles showed that there are 76 DE mRNAs between GLE treated and model groups. The protein-protein interaction (PPI) network shows that Cntn1, Irs1, Nfkbia, Rybp and Ywhaz playing important roles, and qRT-PCR further revealed they were down-expressed in GLE treated Hepa1-6-bearing C57 BL/6 mice. The rebuilt miRNA-target network was shown that these 5 mRNAs were regulated by mmu-mir-23a-5p, -3102-3p, -337-3p, and -467a-3p, respectively. This study suggested that these 4 interesting miRNAs were potential biomarkers for evaluation of GLE efficacy, which may down-regulate the expression of Cntn1, Irs1, Nfkbia, Rybp and Ywhaz, and mediate many signaling pathways occurring in tumor treatment. Chemoresistance is still a major obstacle for lung cancer treatment. Increasing studies have demonstrated that microRNAs (miRNAs) are essential meditators of chemoresistance during cancer progression. MiR-451a is reported to be a tumor suppressor during cancer development. However, its effects on lung cancer and drug resistance in lung cancer are still unclear. In the study, the results showed that miR-451a exhibited a significant role in suppressing the drug resistance in lung cancer cells when treated with doxorubicin (DOX) through alleviating epithelialmesenchymal transition (EMT), as evidenced by the markedly reduced expression of N-cadherin and Vimentin, while the enhanced expression of E-cadherin. In addition, miR-451a over-expression markedly promoted the sensitivity of lung cancer cells to DOX treatments, and also disrupted the EMT of lung cancer cells. Mechanistically, miR-451a was found to directly target c-Myc to affect the EMT and drug resistance in lung cancer cells in response to DOX incubation. Furthermore, c-Myc knockdown markedly elevated the sensitivity of lung cancer cells to DOX, whereas over-expressing c-Myc markedly reversed the anti-tumor role of DOX, which was slightly diminished by miR-451a mimic. The in vivo experiments confirmed that miR-451a promoted the sensitivity of lung cancer cells-derived tumors to DOX treatment by reducing c-Myc. Therefore, our results revealed a new insight into DOX resistance of lung cancer cells and miR-451a could be considered as a potential therapeutic target to overcome drug resistance in lung cancer. The transcription factor nuclear factor erythroid-2 related factor 2 (Nrf2) is a dominant manager to inhibit oxidative and inflammatory damage. Fenretinide (Fen) is a novel agent, showing significant role in regulating oxidative stress and inflammatory response. However, its effects on lipopolysaccharide (LPS)-induced brain injury are still unclear. In the present study, we explored the regulatory role of Fen in LPS-triggered neuroinflammation, and the underlying molecular mechanisms. Results here indicated that Fen treatment markedly improved Nrf2 expression and nuclear translocation in mouse brain endothelial cell line bEnd.3 cells, and promoted Nrf2-antioxidant responsive element (ARE) transcription activity, as well as its down-streaming signals, which was Nrf2-dependent. Fen also exhibited cytoprotective role in LPS-stimulated bEnd.3 cells through improving anti-oxidant capacity and inhibiting inflammation by the blockage of nuclear factor-kappa B (NF-κB) signaling. Mouse model with brain injury induced by LPS, Fen administration markedly attenuated the behavior impairments, blood-brain-barrier (BBB) and the histological changes in hippocampus samples. Additionally, Fen attenuated oxidative stress and blunted inflammation in hippocampus of LPS-challenged mice. Therefore, results in the study highlighted the protective role of Fen against LPS-elicited brain injury. Smilax glabra Roxb. (SG) is a well-known traditional Chinese medicine that has been extensively used as both food and folk medicine in many countries. Although many beneficial health effects of SG and its primary components have been reported, their action on adipocyte function remains unknown. In the present study, we investigated the effects of the total flavonoids from Smilax glabra Roxb. (SGF) on lipid accumulation in mouse 3T3-L1 adipocytes and further elucidated its potential mechanism using RNA-Seq transcriptome technique. Our results showed that SGF exposure significantly decreased the lipid droplet size and the levels of cellular free fatty acids, while triglyceride accumulation was not affected by SGF. Transcriptome analysis revealed that SGF induced the expression of genes involved in triglyceride storage, fatty acid β-oxidation and mitochondrial biogenesis. Furthermore, we also observed an increased cellular ATP level and mitochondrial mass after SGF exposure, indicating that SGF enhanced mitochondrial function. The other relevant transcriptional changes appeared to be involved in AMPK/PGC-1α signaling, inflammatory response, as well as PI3K/AKT and calcium signaling pathways, which might contribute to the beneficial metabolic effects of SGF on adipocyte function. The results of Western blotting confirmed that SGF could increase the phosphorylation of AMPK while decrease the phosphorylation of AKT in adipocytes. Altogether, our results provided novel information about the molecular mechanism responsible for the effects of SGF on fat storage in adipocytes and highlights the potential metabolic benefits of SGF on human obesity and its related chronic diseases. Acute myeloid leukemia (AML) is a complicated disease of hematopoietic stem cell disorders. However, its pathogenesis mechanisms and therapeutic treatments still remain vague. Asperuloside (ASP) is an iridoid glycoside found in Herba Paederiae, and is a component from traditional Chinese herbal medicine. ASP has been suggested to have various pharmacological activities, such as anti-tumor and anti-inflammation. In this study, we explored the effects of ASP on apoptosis and endoplasmic reticulum (ER) stress in human leukemia cells and in human primary leukemia blasts. ASP treatments selectively reduced the cell viability of human leukemia cells and primary leukemia blasts in a dose-dependent manner. We also found that ASP induced cell death via promoting the cleavage of Caspase-9, -3 and poly (ADP-ribose) polymerase (PARP), which was along with the loss of mitochondrial membrane potential and Cyto-c release from the mitochondria. In addition, we found that ASP significantly induced ER stress in leukemia cells vated red blood cells. Together, our present results showed that ASP exerted anti-leukemic effects at least partially via inducing apoptosis regulated by ER stress, and suggested that ASP might be a novel and effective therapeutic strategy for treating human leukemia. Hepatocellular carcinoma (HCC) is worldwide accepted most common malignancies, as well as the second major cause of death among Chinese with cancer. There is an increasing evidence that could prove the potential effect of long non-coding RNAs (lncRNAs) to the biological performance of HCC. In present study, with high expression level in The Cancer Genome Atlas (TCGA) HCC samples, lncRNA MFI2 Antisense RNA 1 (MFI2-AS1) was closely related to poor prognosis and advanced stage among patients with HCC. In addition, up-regulation of MFI2-AS1 was further comfirmed in HCC tissues and HCC cell line. Ectopic expression of MFI2-AS1 stimulated the proliferation and metastasis of HCC cells, but knockdown MFI2-AS1 suppressed HCC cell proliferation and metastasis, indicating that MFI2-AS1 exerted oncogenic functions in the tumorigenesis of HCC. Simultaneously, compared with the negative control group, xenograft tumors in MFI2-AS1 group were characterized with poor growth, smaller volumes and less liver metastases. The post-transcriptional regulation of FOXM1 by MFI2-AS1 occured mechanistically, playing a role of competing with endogenous RNA (ceRNA) in HCC to sponge miR-134. Over-expression of MFI2-AS1 increased FOXM1 expression both at mRNA and protein level, whereas it was reducd by miR-134. Meanwhile, knockdown of miR-134 abolished the repression of shMFI2-AS1 on FOXM1 expression. Furthermore, we demonstrated that miR-134 reverses the impact of MFI2-AS1 on HCC proliferation and metastasis through regulation on FOXM1. Collectively, we determined that MFI2-AS1 crucially acted in HCC progression via functioning as miR-134 sponge to upregulating FOXM1 expression, and was conducive to the promotion of better understanding the direct diagnostics and iatreusiology of lncRNA in HCC. Listeria monocytogenes (LM) is a facultative intracellular bacterium that causes septicemia-associated acute hepatic injury. However, the pathogenesis of this process is still unclear, and there is still a lack of effective therapeutic strategy for the treatment of LM-induced liver injury. In this study, we attempted to explore the effects of necroptosis on bacterial-septicemia-associated hepatic disease and to explore the contribution of JQ1, a selective BRD4 inhibitor, to the suppression of necroptosis and inhibition of LM-triggered hepatic injury. The results indicated that hepatic BRD4 was primarily stimulated by LM both in vitro and in vivo, along with significantly up-regulated expression of receptor-interacting protein kinase (RIPK)-1, RIPK3, and p-mixed lineage kinase-like (MLKL), showing the elevated necroptosis. However, JQ1 treatment and RIPK1 knockout were found to significantly alleviate LM-induced acute liver injury. Histological alterations and cell death in hepatic samples in LM-infected mice were also alleviated by JQ1 administration or RIPK1 deletion. However, JQ1-improved hepatic injury by LM was abrogated by RIPK1 over-expression, suggesting that the protective effects of JQ1 took place mainly in an RIPK1-dependent manner. In addition, LM-evoked inflammatory response in liver tissues were also alleviated by JQ1, which was similar to the findings observed in mice lacking RIPK1. The anti-inflammatory effects of JQ1 were diminished by RIPK1 over-expression in LM-infected mice. Finally, both in vivo and in vitro experiments suggested that JQ1 dramatically improved hepatic mitochondrial dysfunction in LM-injected mice, but this effect was abolished by RIPK1 over-expression. In conclusion, these results indicated that suppressing BRD4 by JQ1 could ameliorate LM-associated liver injury by suppressing necroptosis, inflammation, and mitochondrial dysfunction by inhibiting RIPK1.

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