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Percutaneous Treatment of Bone tissue Hydatid Cyst.
Concomitantly, the induced mRNA expression of UDP-glucuronosyltransferases (UGTs) by genistein was largely dependent on the SIRT1 expression and activity. Together, our results support the notion that the strong elevation of SIRT1 expression and activity may represent a potential mechanism of protection against APAP-induced liver injury by genistein.Objectives Static magnetic fields (SMF) have been proved to enhance osteogenic differentiation in mesenchymal stem cells (MSCs). However, the effect of SMF on mandibular condylar chondrocytes (MCCs) are less investigated, which contributes to the vertical formation of mandible. The purpose of the present study was to identify whether SMF accelerate the osteogenesis on mature condylar cartilage and explore the potential regulatory mechanism. Methods In this study, we presented a 280 mT SMF stimulation set-up to investigate the genomic effects of SMF exposure on MCCs differentiation and osteoblast-related factor secretion in vitro. Induced by Oricell™ for osteogenesis, MCCs from primary SD Rat were stimulated with or without SMF for cell culture. Cell proliferation was determined by CCK-8. The enhanced osteogenetic capacity of the SMF stimulated MCCs was identified by Alizarin red staining (ARS). Additionally, the effects of SMF on the expression of transmembrane protein marker (FLRT3), terminal differentiation markers (BMP2), and transcription factors (Smad1/5/8) were quantified by Western blot and immunofluorescence analysis. Results Compared with the control group, SMF decreased the proliferation of MCCs (p less then 0.05) after 14 days osteogenesis-specific induction. The mineral synthesis of MCCs was upregulated by SMF (p less then 0.0001). The expression of BMP2, Smad1/5/8 showed decrease trends while the protein level of FLRT3 acted in contrary manner (p less then 0.05). Conclusions Our findings emphasized the ability of osteogenesis positively respond to SMF stimulation by exhibiting enhanced differentiation via FLRT/BMP signaling.Oocyte meiotic maturation failure and unfaithful chromosome segregation are major causes for female infertility. Here, we showed that CENP-W, a relatively novel member of the kinetochore protein family, was expressed in mouse oocytes from the germinal vesicle (GV) to metaphase II (MII) stages. Confocal microscopy revealed that CENP-W was localized in the germinal vesicle in the GV stage, and then became concentrated on kinetochores during oocyte maturation. Knockdown of CENP-W by specific siRNA injection in vitro caused kinetochore-microtubule detachment, resulting in severely defective spindles and misaligned chromosomes, leading to metaphase I arrest and failure of first polar body (PB1) extrusion. Correspondingly, spindle assembly checkpoint (SAC) activation was observed in CENP-W knockdown oocytes even after 10h of culture. Our results suggest that CENP-W acts as a kinetochore protein, which takes part in kinetochore-microtubule attachment, thus mediating the progression of oocyte meiotic maturation.Hepatitis B virus (HBV) is a major risk factor for liver diseases, in which HBV covalently closed circular DNA (cccDNA), as the genomic form that templates viral transcription, plays crucial roles in sustaining viral persistence. Clinically, the excessive ethanol intake accelerates the progression of liver diseases with HBV infection. Here, we supposed that ethanol might trigger HBV cccDNA in the liver. learn more Interestingly, we observed that the ethanol remarkably elevated the levels of HBeAg, HBsAg, HBV DNA and cccDNA in HBV-expressing hepatoma cells. Mechanically, the ethanol increased the levels of HBx and MSL2 in vivo and in HBV-expressing HepG2 cells, but not in HBV-free HepG2 cells. Moreover, the down-regulation of MSL2 by small interference RNA could block the ethanol-promoted HBV cccDNA in HepG2.2.15 cells. As a commonly administered treatment for HBV, the effect of IFNα on ethanol-triggered HBV cccDNA remains poorly understood. Strikingly, we showed that the treatment with IFN-α2b inhibited the ethanol-promoted cccDNA through depressing MSL2 in the cells. Thus, we conclude that IFN-α2b inhibits the ethanol-enriched HBV cccDNA through blocking a positive feedback loop of HBx/MSL2/cccDNA/HBV/HBx. Our finding provides new insights into the mechanism by which IFN-α2b inhibits ethanol-enhanced HBV cccDNA. Therapeutically, IFNα may contribute to the cccDNA induced by ethanol in liver.Acid-sensing ion channels (ASICs) have been implicated in many physiological and patho-physiological processes like synaptic plasticity, inflammation, pain perception, stroke-induced brain damage and, drug-seeking behaviour. Although ASICs have been shown to be modulated by gasotransmitters like nitric oxide (NO), their regulation by hydrogen sulfide (H2S) is not known. Here, we present strong evidence that H2S potentiates ASICs-mediated currents. Low pH-induced current in Chinese hamster ovary (CHO) cells, expressing homomeric either ASIC1a, ASIC2a or ASIC3, increased significantly by an H2S donor NaHS. The effect was reversed by washing the cells with NaHS-free external solution of pH 7.4. MTSES, a membrane impermeable cysteine thiol-modifier failed to abrogate the effect of NaHS on ASIC1a, suggesting that the target cysteine residues are not in the extracellular region of the channel. The effect of NaHS is not mediated through NO, as the basal NO level in cells did not change following NaHS application. This previously unknown mechanism of ASICs-modulation by H2S adds a new dimension to the ASICs in health and disease.Autophagy is an intracellular process that can lead to the degradation of malfunctioned proteins and damaged organelles to maintain homeostasis during cellular stress. Here, we evaluated the change in hepatitis B virus (HBV) production by regulating hepatic autophagy in HBV-producing cells. We examined focusing on a relation with a positive autophagy regulator, sirtuin1 (SIRT1). Starvation and rapamycin treatment induced autophagy with increasing SIRT1 protein, HBc protein and pregenomic RNA (pgRNA) levels in HBV- producing cells. Knockdown of Atg7 or Atg13 suppressed hepatic autophagy, and it did not change SIRT1 protein, HBc protein or pgRNA levels in HBV- producing cells. Resveratrol, which increases SIRT1 expression and activity, promoted autophagy and increased HBc protein and pgRNA levels. siRNA-mediated knockdown of SIRT1 inhibited autophagy and decreased HBc protein and pgRNA levels. In SIRT1-knockdown cells, starvation promoted autophagy but did not increase HBc protein and pgRNA levels. In conclusion, HBc protein and pgRNA levels are upregulated not by the autophagic process itself but by the SIRT1 expression level.
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