SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220847189> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W4220847189 abstract "Extracellular nanovesicles, particularly exosomes, can deliver their diverse bioactive biomolecular content, including miRNAs, proteins, and lipids, thus providing a context for investigating the capability of exosomes to induce stem cells toward lineage-specific cells and tissue regeneration. In this study, it is demonstrated that rat subventricular zone neural stem cell-derived exosomes (rSVZ-NSCExo) can control neural-lineage specification of human mesenchymal stem cells (hMSCs). Microarray analysis shows that the miRNA content of rSVZ-NSCExo is a faithful representation of rSVZ tissue. Through immunocytochemistry, gene expression, and multi-omics analyses, the capability to use rSVZ-NSCExo to induce hMSCs into a neuroglial or neural stem cell phenotype and genotype in a temporal and dose-dependent manner via multiple signaling pathways is demonstrated. The current study presents a new and innovative strategy to modulate hMSCs fate by harnessing the molecular content of exosomes, thus suggesting future opportunities for rSVZ-NSCExo in nerve tissue regeneration." @default.
W4220847189 created "2022-04-03" @default.
W4220847189 creator A5000348245 @default.
W4220847189 creator A5003058814 @default.
W4220847189 creator A5012353258 @default.
W4220847189 creator A5013818956 @default.
W4220847189 creator A5014218231 @default.
W4220847189 creator A5015167921 @default.
W4220847189 creator A5018675210 @default.
W4220847189 creator A5025444179 @default.
W4220847189 creator A5044891853 @default.
W4220847189 creator A5065924629 @default.
W4220847189 creator A5070218152 @default.
W4220847189 creator A5081975467 @default.
W4220847189 creator A5082872147 @default.
W4220847189 creator A5089225226 @default.
W4220847189 date "2022-03-28" @default.
W4220847189 modified "2023-10-10" @default.
W4220847189 title "Xenogenic Neural Stem Cell‐Derived Extracellular Nanovesicles Modulate Human Mesenchymal Stem Cell Fate and Reconstruct Metabolomic Structure" @default.
W4220847189 cites W1534317802 @default.
W4220847189 cites W1536883565 @default.
W4220847189 cites W1626038495 @default.
W4220847189 cites W1957129201 @default.
W4220847189 cites W1969992151 @default.
W4220847189 cites W1971643509 @default.
W4220847189 cites W1982561969 @default.
W4220847189 cites W1993629125 @default.
W4220847189 cites W1994376863 @default.
W4220847189 cites W2001560350 @default.
W4220847189 cites W2003971670 @default.
W4220847189 cites W2005848913 @default.
W4220847189 cites W2006879200 @default.
W4220847189 cites W2007746109 @default.
W4220847189 cites W2013538305 @default.
W4220847189 cites W2032438583 @default.
W4220847189 cites W2066552428 @default.
W4220847189 cites W2072050469 @default.
W4220847189 cites W2073382375 @default.
W4220847189 cites W2081152834 @default.
W4220847189 cites W2093075439 @default.
W4220847189 cites W2097052256 @default.
W4220847189 cites W2098663813 @default.
W4220847189 cites W2108986948 @default.
W4220847189 cites W2109214564 @default.
W4220847189 cites W2118279269 @default.
W4220847189 cites W2128960139 @default.
W4220847189 cites W2129517496 @default.
W4220847189 cites W2131928928 @default.
W4220847189 cites W2144043222 @default.
W4220847189 cites W2146997290 @default.
W4220847189 cites W2149651338 @default.
W4220847189 cites W2164582252 @default.
W4220847189 cites W2168131206 @default.
W4220847189 cites W2272935216 @default.
W4220847189 cites W2281334703 @default.
W4220847189 cites W2312613689 @default.
W4220847189 cites W2463246198 @default.
W4220847189 cites W2514377612 @default.
W4220847189 cites W2526445427 @default.
W4220847189 cites W2588223795 @default.
W4220847189 cites W2590678412 @default.
W4220847189 cites W2607056262 @default.
W4220847189 cites W2622742916 @default.
W4220847189 cites W2731206041 @default.
W4220847189 cites W2766356791 @default.
W4220847189 cites W2772429441 @default.
W4220847189 cites W2786514708 @default.
W4220847189 cites W2795438042 @default.
W4220847189 cites W2885316716 @default.
W4220847189 cites W2893307199 @default.
W4220847189 cites W2898518973 @default.
W4220847189 cites W2907725736 @default.
W4220847189 cites W2914833536 @default.
W4220847189 cites W2930443097 @default.
W4220847189 cites W2935822819 @default.
W4220847189 cites W2944096190 @default.
W4220847189 cites W2952000543 @default.
W4220847189 cites W2955213738 @default.
W4220847189 cites W2965028854 @default.
W4220847189 cites W2966786323 @default.
W4220847189 cites W2968369751 @default.
W4220847189 cites W2971445395 @default.
W4220847189 cites W2972757798 @default.
W4220847189 cites W2975351173 @default.
W4220847189 cites W2981920580 @default.
W4220847189 cites W2982068759 @default.
W4220847189 cites W2996376952 @default.
W4220847189 cites W2996562295 @default.
W4220847189 cites W3001417468 @default.
W4220847189 cites W3013531511 @default.
W4220847189 cites W3030250818 @default.
W4220847189 cites W3034928842 @default.
W4220847189 cites W3040875857 @default.
W4220847189 cites W3041546689 @default.
W4220847189 cites W3081869224 @default.
W4220847189 cites W3095624351 @default.
W4220847189 doi "https://doi.org/10.1002/adbi.202101317" @default.
W4220847189 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35347890" @default.
W4220847189 hasPublicationYear "2022" @default.
W4220847189 type Work @default.