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1.
MiR‐122 modification enhances the therapeutic efficacy of adipose tissue‐derived mesenchymal stem cells against liver fibrosis 下载免费PDF全文
Guohua Lou Ying Yang Feifei Liu Bingjue Ye Zhi Chen Min Zheng Yanning Liu 《Journal of cellular and molecular medicine》2017,21(11):2963-2973
Mesenchymal stem cell (MSC) transplantation alone may be insufficient for treatment of liver fibrosis because of complicated histopathological changes in the liver. Given that miR‐122 plays an essential role in liver fibrosis by negatively regulating the proliferation and transactivation of hepatic stellate cells (HSCs), this study investigated whether miR‐122 modification can improve the therapeutic efficacy of adipose tissue‐derived MSCs in treating liver fibrosis. MiR‐122‐modified AMSCs (AMSC‐122) were constructed through lentivirus‐mediated transfer of pre‐miR‐122. MiR‐122‐modified AMSCs expressed high level of miR‐122, while they retained their phenotype and differentiation potential as naïve AMSCs. AMSC‐122 more effectively suppressed the proliferation of and collagen maturation in HSCs than scramble miRNA‐modified AMSCs. In addition, AMSC‐derived exosomes mediated the miR‐122 communication between AMSCs and HSCs, further affecting the expression levels of miR‐122 target genes, such as insulin‐like growth factor receptor 1 (IGF1R), Cyclin G(1) (CCNG1) and prolyl‐4‐hydroxylase α1 (P4HA1), which are involved in proliferation of and collagen maturation in HSCs. Moreover, miR‐122 modification enhanced the therapeutic efficacy of AMSCs in the treatment of carbon tetrachloride (CCl4)‐induced liver fibrosis by suppressing the activation of HSCs and alleviating collagen deposition. Results demonstrate that miR‐122 modification improves the therapeutic efficacy of AMSCs through exosome‐mediated miR‐122 communication; thus, miR‐122 modification is a new potential strategy for treatment of liver fibrosis. 相似文献
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There have been numerous reports in the literature describing the diversity of microbial flora isolated from woodwind and brass instruments, with potential infection risks for players, especially when such instruments are shared. Steam disinfection has become established as a trusted method of decontamination; however, there have been no reports on the employment of this technology to disinfect parts of musical instruments, hence it was the aim of this study to examine the fate of bacterial and yeast pathogens on artificially contaminated trumpet mouthpieces and to evaluate whether such disinfection is an effective method of disinfection for such instrument parts. Trumpet mouthpieces were artificially contaminated with 18 microbial strains (17 bacteria from four genera (Enterococcus, Escherichia, Staphylococcus and Streptococcus) and one yeast (Candida)), each at an inoculum density of approximately 1·5 × 107 colony forming units and subjected to a disinfection cycle. The experiment was repeated including 50% (v/v) sterile sputum as soil. No bacteria or yeast organisms were recovered post disinfection, including following recovery and with nonselective cultural enrichment techniques. 相似文献
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Cystic fibrosis (CF), a multiorgan genetic disease, is caused by loss of function of CFTR, a cAMP-regulated anion channel. In CF airway epithelia, defective Cl− and bicarbonate secretion impairs mucociliary clearance and other innate defense mechanisms, favoring the colonization of the lungs by highly virulent bacteria. The airway epithelium expresses TMEM16A, a second type of Cl− channel that is activated by cytosolic Ca2+. TMEM16A is particularly expressed in goblet cells. This specific localization could be important in the release and hydration of mucins. Activation of TMEM16A with pharmacological agents could circumvent the primary defect in CF. This strategy needs to be carefully designed and tested to avoid possible undesired effects due to the expression of TMEM16A in other cell types such as bronchial smooth muscle cells.This article is part of a Directed Issue entitled: Cystic Fibrosis: From o-mics to cell biology, physiology, and therapeutic advances. 相似文献
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目的研究甲磺酸伊马替尼(STI571)改善单侧输尿管梗阻(UUO)小鼠肾间质纤维化的作用及机制。方法48只小鼠随机分为4组:假手术组,模型组,小剂量治疗组(80mg/kg/d),大剂量治疗组(160mg/kg/d)。采用左侧输尿管双结扎的方法建立UUO模型,治疗组每天以STI57180、160mg/Kg灌胃。分别于术后第8,11d分别处死各组小鼠6只。光镜下观察肾脏病理改变。用免疫组化技术检测肾组织TGF-β1、PAI-1、α-SMA和PCNA的表达。结果治疗组的肾间质纤维化定量显著低于模型组(P〈0.05),且不同剂量组之间存在显著差异(P〈0.05)。模型组和治疗组左肾TGF-β1、PAI-1、α-SMA和PCNA的表达均随梗阻时间延长而逐渐增加,治疗组α-SMA和PCNA的表达较模型组明显减低(P〈0.05)。结论甲磺酸伊马替尼可显著减轻UUO小鼠梗阻侧肾脏间质纤维化,下调α-SMA和PCNA的表达,减少肾间质细胞外基质的沉积,对UUO小鼠肾间质纤维化有一定防治作用。 相似文献
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Yu Peng Zedong Li Sheng Chen Jun Zhou 《Journal of cellular and molecular medicine》2021,25(21):10049-10060
Liver fibrogenesis is a dynamic cellular and tissue process which has the potential to progress into cirrhosis of even liver cancer and liver failure. The activation of hepatic stellate cells (HSCs) is the central event underlying liver fibrosis. Besides, hepatic macrophages have been proposed as potential targets in combatting fibrosis. As for the relationship between HSCs and hepatic macrophages in liver fibrosis, it is generally considered that macrophages promoted liver fibrosis via activating HSCs. However, whether activated HSCs could in turn affect macrophage polarization has rarely been studied. In this study, mRNAs with significant differences were explored using exosomal RNA-sequencing of activated Lx-2 cells and normal RNA-sequencing of DHFR loss-of-function Lx-2 cell models. Cell functional experiments in both Lx-2 cells and macrophages animal model experiments were performed. The results basically confirmed exosomes secreted from activated HSCs could promote M1 polarization of macrophages further. Exosome harbouring DHFR played an important role in this process. DHFR silence in HSCs could decrease Lx-2 activation and M1 polarization of M0 macrophages and then alleviate the development of liver fibrosis both in vitro and vivo. Our work brought a new insight that exosomal DHFR derived from HSCs had a crucial role in crosstalk between HSCs activation and macrophage polarization, which may be a potential therapeutic target in liver fibrosis. 相似文献
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Collagen is a macromolecule that has versatile roles in physiology, ranging from structural support to mediating cell signaling. Formation of mature collagen fibrils out of procollagen α-chains requires a variety of enzymes and chaperones in a complex process spanning both intracellular and extracellular post-translational modifications. These processes include modifications of amino acids, folding of procollagen α-chains into a triple-helical configuration and subsequent stabilization, facilitation of transportation out of the cell, cleavage of propeptides, aggregation, cross-link formation, and finally the formation of mature fibrils. Disruption of any of the proteins involved in these biosynthesis steps potentially result in a variety of connective tissue diseases because of a destabilized extracellular matrix. In this review, we give a revised overview of the enzymes and chaperones currently known to be relevant to the conversion of lysine and proline into hydroxyproline and hydroxylysine, respectively, and the O-glycosylation of hydroxylysine and give insights into the consequences when these steps are disrupted. 相似文献
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Valentina Izzo Federico Pietrocola Valentina Sica Sylvère Durand Sylvie Lachkar David Enot 《Cell cycle (Georgetown, Tex.)》2017,16(3):271-279
Phase II clinical trials indicate that the combination of cysteamine plus epigallocatechin gallate (EGCG) is effective against cystic fibrosis in patients bearing the most frequent etiological mutation (CFTRΔF508). Here, we investigated the interaction between both agents on cultured respiratory epithelia cells from normal and CFTRΔF508-mutated donors. We observed that the combination of both agents affected metabolic circuits (and in particular the tricarboxylic acid cycle) in a unique way and that cysteamine plus EGCG reduced cytoplasmic protein acetylation more than each of the 2 components alone. In a cell-free system, protein cross-linking activity of EGCG was suppressed by cysteamine. Finally, EGCG was able to enhance the conversion of cysteamine into taurine in metabolic flux experiments. Altogether, these results indicate that multiple pharmacological interactions occur between cysteamine and EGCG, suggesting that they contribute to the unique synergy of both agents in restoring the function of mutated CFTRΔF508. 相似文献
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