SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2102079751> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W2102079751 endingPage "4865" @default.
W2102079751 startingPage "4853" @default.
W2102079751 abstract "Functional smooth muscle engineering requires isolation and expansion of smooth muscle cells (SMCs), and this process is particularly challenging for visceral smooth muscle tissue where progenitor cells have not been clearly identified. Herein we showed for the first time that efficient SMCs can be obtained from human amniotic fluid stem cells (hAFSCs). Clonal lines were generated from c-kit(+) hAFSCs. Differentiation toward SM lineage (SMhAFSCs) was obtained using a medium conditioned by PDGF-BB and TGF-β1. Molecular assays revealed higher level of α smooth muscle actin (α-SMA), desmin, calponin, and smoothelin in SMhAFSCs when compared to hAFSCs. Ultrastructural analysis demonstrated that SMhAFSCs also presented in the cytoplasm increased intermediate filaments, dense bodies, and glycogen deposits like SMCs. SMhAFSC metabolism evaluated via mass spectrometry showed higher glucose oxidation and an enhanced response to mitogenic stimuli in comparison to hAFSCs. Patch clamp of transduced hAFSCs with lentiviral vectors encoding ZsGreen under the control of the α-SMA promoter was performed demonstrating that SMhAFSCs retained a smooth muscle cell-like electrophysiological fingerprint. Eventually SMhAFSCs contractility was evident both at single cell level and on a collagen gel. In conclusion, we showed here that hAFSCs under selective culture conditions are able to give rise to functional SMCs." @default.
W2102079751 created "2016-06-24" @default.
W2102079751 creator A5005919863 @default.
W2102079751 creator A5010620580 @default.
W2102079751 creator A5019707123 @default.
W2102079751 creator A5021618906 @default.
W2102079751 creator A5030784573 @default.
W2102079751 creator A5035664383 @default.
W2102079751 creator A5036185277 @default.
W2102079751 creator A5055496507 @default.
W2102079751 creator A5058744331 @default.
W2102079751 creator A5063000229 @default.
W2102079751 creator A5064502551 @default.
W2102079751 creator A5066187252 @default.
W2102079751 creator A5071198012 @default.
W2102079751 creator A5073942152 @default.
W2102079751 creator A5074039900 @default.
W2102079751 creator A5084058814 @default.
W2102079751 creator A5087571938 @default.
W2102079751 date "2013-08-30" @default.
W2102079751 modified "2023-10-15" @default.
W2102079751 title "Human amniotic fluid stem cell differentiation along smooth muscle lineage" @default.
W2102079751 cites W1520658182 @default.
W2102079751 cites W1541422600 @default.
W2102079751 cites W1911958884 @default.
W2102079751 cites W1963801723 @default.
W2102079751 cites W1971155327 @default.
W2102079751 cites W1971898007 @default.
W2102079751 cites W1973210532 @default.
W2102079751 cites W1976805189 @default.
W2102079751 cites W1982779207 @default.
W2102079751 cites W1985658116 @default.
W2102079751 cites W1989415082 @default.
W2102079751 cites W2002353868 @default.
W2102079751 cites W2004314923 @default.
W2102079751 cites W2010866973 @default.
W2102079751 cites W2014118416 @default.
W2102079751 cites W2017114992 @default.
W2102079751 cites W2019008193 @default.
W2102079751 cites W2021202906 @default.
W2102079751 cites W2022328418 @default.
W2102079751 cites W2027540534 @default.
W2102079751 cites W2028681524 @default.
W2102079751 cites W2033629288 @default.
W2102079751 cites W2039150777 @default.
W2102079751 cites W2039397696 @default.
W2102079751 cites W2041373058 @default.
W2102079751 cites W2049615519 @default.
W2102079751 cites W2050334130 @default.
W2102079751 cites W2052426301 @default.
W2102079751 cites W2054244326 @default.
W2102079751 cites W2059090271 @default.
W2102079751 cites W2064227310 @default.
W2102079751 cites W2075581185 @default.
W2102079751 cites W2076476403 @default.
W2102079751 cites W2077065233 @default.
W2102079751 cites W2080667675 @default.
W2102079751 cites W2082988280 @default.
W2102079751 cites W2090875242 @default.
W2102079751 cites W2103006958 @default.
W2102079751 cites W2112578516 @default.
W2102079751 cites W2126466803 @default.
W2102079751 cites W2127115824 @default.
W2102079751 cites W2128150118 @default.
W2102079751 cites W2136986755 @default.
W2102079751 cites W2143136051 @default.
W2102079751 cites W2143631034 @default.
W2102079751 cites W2147547629 @default.
W2102079751 cites W2148003049 @default.
W2102079751 cites W2151302227 @default.
W2102079751 cites W2152056221 @default.
W2102079751 cites W2155144124 @default.
W2102079751 cites W2156606731 @default.
W2102079751 cites W2157834851 @default.
W2102079751 cites W2158646376 @default.
W2102079751 cites W2159468949 @default.
W2102079751 cites W2165438231 @default.
W2102079751 cites W2399057662 @default.
W2102079751 cites W2408527141 @default.
W2102079751 cites W24300959 @default.
W2102079751 cites W982027534 @default.
W2102079751 doi "https://doi.org/10.1096/fj.12-218578" @default.
W2102079751 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6188351" @default.
W2102079751 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23995291" @default.
W2102079751 hasPublicationYear "2013" @default.
W2102079751 type Work @default.
W2102079751 sameAs 2102079751 @default.
W2102079751 citedByCount "29" @default.
W2102079751 countsByYear W21020797512013 @default.
W2102079751 countsByYear W21020797512014 @default.
W2102079751 countsByYear W21020797512015 @default.
W2102079751 countsByYear W21020797512016 @default.
W2102079751 countsByYear W21020797512017 @default.
W2102079751 countsByYear W21020797512018 @default.
W2102079751 countsByYear W21020797512019 @default.
W2102079751 countsByYear W21020797512021 @default.
W2102079751 countsByYear W21020797512022 @default.
W2102079751 countsByYear W21020797512023 @default.