SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3089093232> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W3089093232 endingPage "1723" @default.
W3089093232 startingPage "1723" @default.
W3089093232 abstract "Recent studies have shown that mesenchymal stem cells (MSCs) can play a restorative role against degenerative joint diseases in horses. The purpose of this study was to investigate whether fetal bone marrow-derived cells (BMC)-derived nanoparticles (BMC-NPs) can stimulate the survival of equine chondrocytes. Equine fetal BMCs were isolated and characterized, and the role of BMC-NPs s in equine chondrocytes undergoing inflammatory cell death was examined. BMCs have several characteristics, such as the potential to differentiate into chondrocytes and osteocytes. Additionally, BMCs expressed immunoregulatory genes in response to treatment with tumor necrosis factor-alpha (TNF-α) and Interleukin 1 beta (IL-1β). We found that BMC-NPs were taken up by equine chondrocytes. Functionally, BMC-NPs promoted the growth of chondrocytes, and reduced apoptosis induced by inflammatory cytokines. Furthermore, we observed that BMC-NPs upregulated the phosphorylation of protein kinase B (Akt) in the presence of IL-1β, and reduced the phosphorylation of TNF-α-induced activation of extracellular signal-regulated kinase 1/2 (ERK1/2) in the chondrocytes. Cumulatively, our study demonstrated that equine fetal BMC-NPs have the potential to stimulate the survival of chondrocytes damaged by inflammatory cytokines. Thus, BMC-NPs may become an alternative cell-free allogenic therapeutic for degenerative joint diseases in horses." @default.
W3089093232 created "2020-10-01" @default.
W3089093232 creator A5041559474 @default.
W3089093232 creator A5058521062 @default.
W3089093232 creator A5085299255 @default.
W3089093232 creator A5086240545 @default.
W3089093232 date "2020-09-23" @default.
W3089093232 modified "2023-09-30" @default.
W3089093232 title "Nanoparticles from Equine Fetal Bone Marrow-Derived Cells Enhance the Survival of Injured Chondrocytes" @default.
W3089093232 cites W1577690428 @default.
W3089093232 cites W1965404871 @default.
W3089093232 cites W1965781909 @default.
W3089093232 cites W1979861058 @default.
W3089093232 cites W2008440336 @default.
W3089093232 cites W2014904868 @default.
W3089093232 cites W2022353906 @default.
W3089093232 cites W2035176325 @default.
W3089093232 cites W2045574035 @default.
W3089093232 cites W2048342038 @default.
W3089093232 cites W2050944929 @default.
W3089093232 cites W2052270361 @default.
W3089093232 cites W2055689262 @default.
W3089093232 cites W2064927636 @default.
W3089093232 cites W2066426973 @default.
W3089093232 cites W2086518820 @default.
W3089093232 cites W2090750279 @default.
W3089093232 cites W2098893605 @default.
W3089093232 cites W2104051374 @default.
W3089093232 cites W2107277218 @default.
W3089093232 cites W2108725095 @default.
W3089093232 cites W2109298880 @default.
W3089093232 cites W2110819175 @default.
W3089093232 cites W2119625719 @default.
W3089093232 cites W2125028651 @default.
W3089093232 cites W2142309595 @default.
W3089093232 cites W2157942810 @default.
W3089093232 cites W2192080449 @default.
W3089093232 cites W2259481044 @default.
W3089093232 cites W2313950434 @default.
W3089093232 cites W2317893164 @default.
W3089093232 cites W2472451784 @default.
W3089093232 cites W2506184976 @default.
W3089093232 cites W2516428217 @default.
W3089093232 cites W2523417713 @default.
W3089093232 cites W2537225745 @default.
W3089093232 cites W2551140715 @default.
W3089093232 cites W2563707948 @default.
W3089093232 cites W2591763108 @default.
W3089093232 cites W265660682 @default.
W3089093232 cites W2748042710 @default.
W3089093232 cites W2749276870 @default.
W3089093232 cites W2762238774 @default.
W3089093232 cites W2768238755 @default.
W3089093232 cites W2770270415 @default.
W3089093232 cites W2790685663 @default.
W3089093232 cites W2792733823 @default.
W3089093232 cites W2794463786 @default.
W3089093232 cites W2800301065 @default.
W3089093232 cites W2859940688 @default.
W3089093232 cites W2893768232 @default.
W3089093232 cites W2896130761 @default.
W3089093232 cites W2896752456 @default.
W3089093232 cites W2908564104 @default.
W3089093232 cites W2912858542 @default.
W3089093232 cites W2914950976 @default.
W3089093232 cites W2918467571 @default.
W3089093232 cites W2921573102 @default.
W3089093232 cites W2922527368 @default.
W3089093232 cites W2923441281 @default.
W3089093232 cites W2924286835 @default.
W3089093232 cites W2952853659 @default.
W3089093232 cites W2980461543 @default.
W3089093232 cites W3001538161 @default.
W3089093232 cites W3002731232 @default.
W3089093232 cites W3010132504 @default.
W3089093232 cites W564823130 @default.
W3089093232 cites W80132655 @default.
W3089093232 doi "https://doi.org/10.3390/ani10101723" @default.
W3089093232 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7598183" @default.
W3089093232 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32977476" @default.
W3089093232 hasPublicationYear "2020" @default.
W3089093232 type Work @default.
W3089093232 sameAs 3089093232 @default.
W3089093232 citedByCount "6" @default.
W3089093232 countsByYear W30890932322021 @default.
W3089093232 countsByYear W30890932322022 @default.
W3089093232 countsByYear W30890932322023 @default.
W3089093232 crossrefType "journal-article" @default.
W3089093232 hasAuthorship W3089093232A5041559474 @default.
W3089093232 hasAuthorship W3089093232A5058521062 @default.
W3089093232 hasAuthorship W3089093232A5085299255 @default.
W3089093232 hasAuthorship W3089093232A5086240545 @default.
W3089093232 hasBestOaLocation W30890932321 @default.
W3089093232 hasConcept C164027704 @default.
W3089093232 hasConcept C17991360 @default.
W3089093232 hasConcept C184235292 @default.
W3089093232 hasConcept C185592680 @default.
W3089093232 hasConcept C190283241 @default.