SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200424272> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W4200424272 endingPage "3412" @default.
W4200424272 startingPage "3412" @default.
W4200424272 abstract "Nucleofection (NF) is a safe, non-viral transfection method, compatible with Good Manufacturing Practice guidelines. Such a technique is useful to improve therapeutic effectiveness of adipose tissue mesenchymal stem cells (ASC) in clinical settings, but improvement of NF efficiency is mandatory. Supernatant rich in growth factors (SRGF) is a clinical-grade medium additive for ASC expansion. We showed a dramatically increased NF efficiency and post-transfection viability in ASC expanded in presence of SRGF (vs. fetal bovine serum). SRGF expanded ASC were characterized by increased vesicle endocytosis but lower phagocytosis properties. SRGF increased n-6/n-3 ratio, reduced membrane lipid raft occurrence, and lowered intracellular actin content in ASC. A statistical correlation between NF efficiency and lipid raft availability on cell membranes was shown, even though a direct relationship could not be demonstrated: attempts to selectively modulate lipid rafts levels were, in fact, limited by technical constraints. In conclusion, we reported for the first time that tuning clinical-grade compatible cell culture conditions can significantly improve ASC transfection efficiency by a non-viral and safe approach. A deep mechanistic characterization is extremely complex, but we can hypothesize that integrated changes in membrane structure and intracellular actin content could contribute to explain SRGF impact on ASC NF efficiency." @default.
W4200424272 created "2021-12-31" @default.
W4200424272 creator A5008014848 @default.
W4200424272 creator A5014279234 @default.
W4200424272 creator A5028814374 @default.
W4200424272 creator A5037367152 @default.
W4200424272 creator A5064181453 @default.
W4200424272 creator A5080140748 @default.
W4200424272 creator A5081926215 @default.
W4200424272 creator A5086559542 @default.
W4200424272 date "2021-12-03" @default.
W4200424272 modified "2023-09-28" @default.
W4200424272 title "Nucleofection of Adipose Mesenchymal Stem/Stromal Cells: Improved Transfection Efficiency for GMP Grade Applications" @default.
W4200424272 cites W1965338173 @default.
W4200424272 cites W1967626549 @default.
W4200424272 cites W1987944180 @default.
W4200424272 cites W1990804768 @default.
W4200424272 cites W1991424808 @default.
W4200424272 cites W1992471237 @default.
W4200424272 cites W1992472575 @default.
W4200424272 cites W1994297906 @default.
W4200424272 cites W1995699866 @default.
W4200424272 cites W1996256830 @default.
W4200424272 cites W2003542859 @default.
W4200424272 cites W2017741041 @default.
W4200424272 cites W2019451900 @default.
W4200424272 cites W2025371271 @default.
W4200424272 cites W2026286888 @default.
W4200424272 cites W2029447323 @default.
W4200424272 cites W2031943482 @default.
W4200424272 cites W2032470184 @default.
W4200424272 cites W2033298169 @default.
W4200424272 cites W2035601759 @default.
W4200424272 cites W2042455028 @default.
W4200424272 cites W2043413905 @default.
W4200424272 cites W2051648756 @default.
W4200424272 cites W2071536607 @default.
W4200424272 cites W2072696333 @default.
W4200424272 cites W2080992082 @default.
W4200424272 cites W2082179247 @default.
W4200424272 cites W2087110723 @default.
W4200424272 cites W2087914018 @default.
W4200424272 cites W2100083548 @default.
W4200424272 cites W2107503723 @default.
W4200424272 cites W2115784794 @default.
W4200424272 cites W2120350838 @default.
W4200424272 cites W2121936687 @default.
W4200424272 cites W2132067615 @default.
W4200424272 cites W2132510033 @default.
W4200424272 cites W2153136408 @default.
W4200424272 cites W2173497140 @default.
W4200424272 cites W2264702236 @default.
W4200424272 cites W2338556724 @default.
W4200424272 cites W2340317835 @default.
W4200424272 cites W2415243987 @default.
W4200424272 cites W2517211077 @default.
W4200424272 cites W2557134892 @default.
W4200424272 cites W2586916460 @default.
W4200424272 cites W2599649240 @default.
W4200424272 cites W2691521010 @default.
W4200424272 cites W2749639510 @default.
W4200424272 cites W2765979567 @default.
W4200424272 cites W2767428727 @default.
W4200424272 cites W2771123813 @default.
W4200424272 cites W2773535565 @default.
W4200424272 cites W2777933743 @default.
W4200424272 cites W2791982886 @default.
W4200424272 cites W2806174774 @default.
W4200424272 cites W2926496886 @default.
W4200424272 cites W2927646630 @default.
W4200424272 cites W2999396804 @default.
W4200424272 cites W3022570703 @default.
W4200424272 cites W3036087803 @default.
W4200424272 cites W3080121762 @default.
W4200424272 cites W3153331636 @default.
W4200424272 doi "https://doi.org/10.3390/cells10123412" @default.
W4200424272 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34943920" @default.
W4200424272 hasPublicationYear "2021" @default.
W4200424272 type Work @default.
W4200424272 citedByCount "2" @default.
W4200424272 countsByYear W42004242722022 @default.
W4200424272 crossrefType "journal-article" @default.
W4200424272 hasAuthorship W4200424272A5008014848 @default.
W4200424272 hasAuthorship W4200424272A5014279234 @default.
W4200424272 hasAuthorship W4200424272A5028814374 @default.
W4200424272 hasAuthorship W4200424272A5037367152 @default.
W4200424272 hasAuthorship W4200424272A5064181453 @default.
W4200424272 hasAuthorship W4200424272A5080140748 @default.
W4200424272 hasAuthorship W4200424272A5081926215 @default.
W4200424272 hasAuthorship W4200424272A5086559542 @default.
W4200424272 hasBestOaLocation W42004242721 @default.
W4200424272 hasConcept C144251240 @default.
W4200424272 hasConcept C1491633281 @default.
W4200424272 hasConcept C16930146 @default.
W4200424272 hasConcept C171089720 @default.
W4200424272 hasConcept C185592680 @default.
W4200424272 hasConcept C198826908 @default.
W4200424272 hasConcept C2779404806 @default.