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Wen Shing Leong Haiyang Yu Shu Cheng Wu Chwee Teck Lim 《Biochemical and biophysical research communications》2010,401(2):287-292
Mechanically compliant substrate provides crucial biomechanical cues for multipotent stem cells to regulate cellular fates such as differentiation, proliferation and maintenance of their phenotype. Effective modulus of which cells sense is not only determined by intrinsic mechanical properties of the substrate, but also the thickness of substrate. From our study, it was found that interference from underlying rigid support at hundreds of microns away could induce significant cellular response. Human mesenchymal stem cells (hMSCs) were cultured on compliant biological gel, collagen type I, of different thickness but identical ECM composition and local stiffness. The cells sensed the thin gel (130 μm) as having a higher effective modulus than the thick gel (1440 μm) and this was reflected in their changes in morphology, actin fibers structure, proliferation and tissue specific gene expression. Commitment into neuronal lineage was observed on the thin gel only. Conversely, the thick gel (1440 μm) was found to act like a substrate with lower effective modulus that inhibited actin fiber polymerization. Stem cells on the thick substrate did not express tissue specific genes and remained at their quiescent state. This study highlighted the need to consider not only the local modulus but also the thickness of biopolymer gel coating during modulation of cellular responses. 相似文献
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M. C. Gómez-Puerto L. P. Verhagen A. K. Braat E. W.-F. Lam P. J. Coffer 《Autophagy》2016,12(10):1804-1816
Bone remodeling is a continuous physiological process that requires constant generation of new osteoblasts from mesenchymal stem cells (MSCs). Differentiation of MSCs to osteoblast requires a metabolic switch from glycolysis to increased mitochondrial respiration to ensure the sufficient energy supply to complete this process. As a consequence of this increased mitochondrial metabolism, the levels of endogenous reactive oxygen species (ROS) rise. In the current study we analyzed the role of forkhead box O3 (FOXO3) in the control of ROS levels in human MSCs (hMSCs) during osteogenic differentiation. Treatment of hMSCs with H2O2 induced FOXO3 phosphorylation at Ser294 and nuclear translocation. This ROS-mediated activation of FOXO3 was dependent on mitogen-activated protein kinase 8 (MAPK8/JNK) activity. Upon FOXO3 downregulation, osteoblastic differentiation was impaired and hMSCs lost their ability to control elevated ROS levels. Our results also demonstrate that in response to elevated ROS levels, FOXO3 induces autophagy in hMSCs. In line with this, impairment of autophagy by autophagy-related 7 (ATG7) knockdown resulted in a reduced capacity of hMSCs to regulate elevated ROS levels, together with a reduced osteoblast differentiation. Taken together our findings are consistent with a model where in hMSCs, FOXO3 is required to induce autophagy and thereby reduce elevated ROS levels resulting from the increased mitochondrial respiration during osteoblast differentiation. These new molecular insights provide an important contribution to our better understanding of bone physiology. 相似文献
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D. Bellavia L. Raimondi V. Costa A. De Luca V. Carina M. Maglio M. Fini R. Alessandro G. Giavaresi 《Biochimica et Biophysica Acta (BBA)/General Subjects》2018,1862(9):1893-1901
Background
Exosomes are nanovesicles actively secreted by potentially all cell types, including tumour cells, with the primary role of extracellular systemic communication mediators, both at autocrine and paracrine levels, at short and long distances. Recently, different studies have used exosomes as a delivery system for a plethora of different molecules, such as drugs, microRNAs and proteins. This has been made possible thanks to the simplicity in exosomes engineering, their great stability and versatility for applications in oncology as well as in regenerative medicine.Scope of review
The aim of this review is to provide information on the state-of-the-art and possible applications of engineered exosomes, both for cargo and specific cell-targeting, in different pathologies related to the musculoskeletal system.Major conclusions
The use of exosomes as therapeutic agents is rapidly evolving, different studies explore drug delivery with exosomes using different molecules, showing an enormous potential in various research fields such as oncology and regenerative medicine.General significance
However, despite the significant progress made by the different studies carried out, currently, the use of exosomes is not a therapeutic reality for the considerable difficulties to overcome. 相似文献6.
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Hesperetin Inhibit Adipocyte Differentiation and Enhance Bax‐ and p21‐Mediated Adipolysis in Human Mesenchymal Stem Cell Adipogenesis 下载免费PDF全文
Pandurangan Subash‐Babu Ali A Alshatwi 《Journal of biochemical and molecular toxicology》2015,29(3):99-108
We aimed to explore the antiadipogenic and adipolysis effect of hesperetin in human mesenchymal stem cells (hMSCs)–induced adipogenesis. IC50 value of hesperetin was higher for hMSCs such as 149.2 ± 13.2 μmol for 24 h and 89.4 ± 11.4 μmol in 48 h, whereas in preadipocytes was 87.6 ± 9.5 μmol and 72.4 ± 5.6 μmol in 24 h and 48 h, respectively. Hesperetin treatment (5, 10, and 20 μmol) to adipogenesis‐induced hMSCs (Group 1) and preadipocytes (Group 2) resulted in a significantly (p < 0.05) increased lipolysis. The treatment with hesperetin decreased the expression of resistin, adiponectin, aP2, LPL, PPAR‐γ, and TNF‐α in Groups 1 and 2, whereas a significant increase was observed in Bcl, Bax, and p21 expression in Group 2 compared to untreated preadipocytes. hMSCs cultured in adipogenic medium along with hesperetin significantly inhibited adipocyte differentiation and increased the proapoptotic gene expression levels in preadipocyte. Our result indicates the antiadipogenic and adipolysis effects of hesperetin. 相似文献
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Dilli Ram Bhandari Kwang‐Won Seo Ji‐Won Jung Hyung‐Sik Kim Se‐Ran Yang Kyung‐Sun Kang 《Journal of cellular and molecular medicine》2011,15(7):1603-1614
Myelocytomatosis oncogene (c‐MYC) is a well‐known nuclear oncoprotein having multiple functions in cell proliferation, apoptosis and cellular transformation. Chromosomal modification is also important to the differentiation and growth of stem cells. Histone deacethylase (HDAC) and polycomb group (PcG) family genes are well‐known chromosomal modification genes. The aim of this study was to elucidate the role of c‐MYC in the expression of chromosomal modification via the HDAC family genes in human mesenchymal stem cells (hMSCs). To achieve this goal, c‐MYC expression was modified by gene knockdown and overexpression via lentivirus vector. Using the modified c‐MYC expression, our study was focused on cell proliferation, differentiation and cell cycle. Furthermore, the relationship of c‐MYC with HDAC2 and PcG genes was also examined. The cell proliferation and differentiation were checked and shown to be dramatically decreased in c‐MYC knocked‐down human umbilical cord blood‐derived MSCs, whereas they were increased in c‐MYC overexpressing cells. Similarly, RT‐PCR and Western blotting results revealed that HDAC2 expression was decreased in c‐MYC knocked‐down and increased in c‐MYC overexpressing hMSCs. Database indicates presence of c‐MYC binding motif in HDAC2 promoter region, which was confirmed by chromatin immunoprecipitation assay. The influence of c‐MYC and HDAC2 on PcG expression was confirmed. This might indicate the regulatory role of c‐MYC over HDAC2 and PcG genes. c‐MYCs’ regulatory role over HDAC2 was also confirmed in human adipose tissue‐derived MSCs and bone‐marrow derived MSCs. From this finding, it can be concluded that c‐MYC plays a vital role in cell proliferation and differentiation via chromosomal modification. 相似文献
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目的:研究miR-143调控人骨髓问充质干细胞(hMSCs)成脂分化的新机理。方法:将NC、miR-143、siPTN、miR-143i转入hMSCs中,诱导成脂分化,检测miR-143对成脂分化的影响。经miRNA靶点分析软件Findtar预测出miR-143在人多效生长因子(hPTN)的3'-UTR端有靶点。RT-PCR、westernblot研究mjR-143与hPTN的关系。构建hPTN3'-UTR靶位点荧光检测质粒prltk-PTN及其突变质粒prltk-m,验证miR-143是否在人PTN3'-UTR上有靶点。结果:miR-143促进hMSCs成脂分化,抑制hPTN的mRNA和蛋白表达水平。荧光报告实验证实miR-143在人PTN的3'-UTR上有靶点。结论:miR-143通过与hPTN3I-UTR上的靶点相结合而抑制hPTN的表达,从而促进了hMSCs成脂分化进程。 相似文献
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Freimark D Sehl C Weber C Hudel K Czermak P Hofmann N Spindler R Glasmacher B 《Cryobiology》2011,63(2):67-75
Human mesenchymal stem cells (hMSCs) have great potential for clinical therapy and regenerative medicine. One major challenge concerning their application is the development of an efficient cryopreservation protocol since current methods result in a poor viability and high differentiation rates. A high survival rate of cryopreserved cells requires an optimal cooling rate and the presence of cryoprotective agents (CPA) in sufficient concentrations. The most widely used CPA, dimethylsulfoxide (Me2SO), is toxic at high concentrations at temperatures >4 °C and has harmful effects on the biological functionality of stem cell as well as on treated patients.Thus, this study investigates different combinations of non-cytotoxic biocompatible substances, such as ectoin and proline, as potential CPAs in a systematic parametric optimization study in comparison to Me2SO as control and a commercial freezing medium (Biofreeze®, Biochrom). Using a freezing medium containing a low proline (1%, w/v) and higher ectoin (10%, w/v) amount revealed promising results although the highest survival rate was achieved with the Biofreeze® medium. Cryomicroscopic experiments of hMSCs revealed nucleation temperatures ranging from −16 to −25 °C. The CPAs, beside Me2SO, did not affect the nucleation temperature. In most cases, cryomicroscopy revealed intracellular ice formation (IIF) during the cryopreservation cycle for all cryoprotocols. The occurence of IIF during thawing increased with the cooling rate. In case of hMSC there was no correlation between the rate of IIF and the post-thaw cell survival. After thawing adipogenic differentiation of the stem cells demonstrated cell functionality. 相似文献