FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2146147122> ?p ?o ?g. }

• W2146147122 endingPage "R34" @default.
• W2146147122 startingPage "R34" @default.
• W2146147122 abstract "Oxygen is a critical parameter proposed to modulate the functions of chondrocytes ex-vivo as well as in damaged joints. This article investigates the effect of low (more physiological) oxygen percentage on the biosynthetic and catabolic activity of human articular chondrocytes (HAC) at different phases of in vitro culture. HAC expanded in monolayer were cultured in pellets for two weeks (Phase I) or up to an additional two weeks (Phase II). In each Phase, cells were exposed to 19% or 5% oxygen. Resulting tissues and culture media were assessed to determine amounts of produced/released proteoglycans and collagens, metalloproteinases (MMPs), collagen degradation products and collagen fibril organization using biochemical, (immuno)-histochemical, gene expression and scanning electron microscopy analyses. In specific experiments, the hypoxia-inducible factor-1α (HIF-1α) inhibitor cadmium chloride was supplemented in the culture medium to assess the involvement of this pathway. Independent from the oxygen percentage during expansion, HAC cultured at 5% O2 (vs 19% O2) during Phase I accumulated higher amounts of glycosaminoglycans and type II collagen and expressed reduced levels of MMP-1 and MMP-13 mRNA and protein. Switching to 19% oxygen during Phase II resulted in reduced synthesis of proteoglycan and collagen, increased release of MMPs, accumulation of type II collagen fragments and higher branching of collagen fibrils. In contrast, reducing O2 during Phase II resulted in increased proteoglycan and type II collagen synthesis and reduced expression and release of MMP-13 mRNA and protein. Supplementation of cadmium chloride during differentiation culture at 5% O2 drastically reduced the up-regulation of type II collagen and the down-regulation of MMP-1 mRNA. The application of more physiologic oxygen percentage during specific phases of differentiation culture enhanced the biosynthetic activity and reduced the activity of catabolic enzymes implicated in cartilage breakdown. Modulation of the oxygen percentage during HAC culture may be used to study pathophysiological events occurring in osteoarthritis and to enhance properties of in vitro engineered cartilaginous tissues." @default.
• W2146147122 created "2016-06-24" @default.
• W2146147122 creator A5006011530 @default.
• W2146147122 creator A5016347594 @default.
• W2146147122 creator A5025525177 @default.
• W2146147122 creator A5051185602 @default.
• W2146147122 creator A5070994251 @default.
• W2146147122 creator A5073096423 @default.
• W2146147122 creator A5073464131 @default.
• W2146147122 creator A5082851513 @default.
• W2146147122 creator A5083759398 @default.
• W2146147122 date "2010-01-01" @default.
• W2146147122 modified "2023-10-08" @default.
• W2146147122 title "Anabolic and catabolic responses of human articular chondrocytes to varying oxygen percentages" @default.
• W2146147122 cites W1482352785 @default.
• W2146147122 cites W1586814698 @default.
• W2146147122 cites W1965335428 @default.
• W2146147122 cites W1968526564 @default.
• W2146147122 cites W1979972616 @default.
• W2146147122 cites W1982938005 @default.
• W2146147122 cites W1988036581 @default.
• W2146147122 cites W1996751193 @default.
• W2146147122 cites W1999085148 @default.
• W2146147122 cites W2002963723 @default.
• W2146147122 cites W2003867975 @default.
• W2146147122 cites W2010454493 @default.
• W2146147122 cites W2011698658 @default.
• W2146147122 cites W2013682631 @default.
• W2146147122 cites W2015281822 @default.
• W2146147122 cites W2020963294 @default.
• W2146147122 cites W2030805052 @default.
• W2146147122 cites W2032255522 @default.
• W2146147122 cites W2035528429 @default.
• W2146147122 cites W2040468706 @default.
• W2146147122 cites W2045413421 @default.
• W2146147122 cites W2051845426 @default.
• W2146147122 cites W2054251519 @default.
• W2146147122 cites W2073948710 @default.
• W2146147122 cites W2086236912 @default.
• W2146147122 cites W2088919992 @default.
• W2146147122 cites W2096686610 @default.
• W2146147122 cites W2098165430 @default.
• W2146147122 cites W2105389636 @default.
• W2146147122 cites W2108217947 @default.
• W2146147122 cites W2111388682 @default.
• W2146147122 cites W2115465747 @default.
• W2146147122 cites W2118172082 @default.
• W2146147122 cites W2123891184 @default.
• W2146147122 cites W2125531516 @default.
• W2146147122 cites W2135616992 @default.
• W2146147122 cites W2142598047 @default.
• W2146147122 cites W2145023731 @default.
• W2146147122 cites W2148657758 @default.
• W2146147122 cites W2151378125 @default.
• W2146147122 cites W2153038687 @default.
• W2146147122 cites W2158640783 @default.
• W2146147122 cites W2161887455 @default.
• W2146147122 cites W2166518369 @default.
• W2146147122 cites W2173528967 @default.
• W2146147122 cites W2174021414 @default.
• W2146147122 cites W2417406922 @default.
• W2146147122 cites W2614706926 @default.
• W2146147122 doi "https://doi.org/10.1186/ar2942" @default.
• W2146147122 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2888180" @default.
• W2146147122 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20193091" @default.
• W2146147122 hasPublicationYear "2010" @default.
• W2146147122 type Work @default.
• W2146147122 sameAs 2146147122 @default.
• W2146147122 citedByCount "79" @default.
• W2146147122 countsByYear W21461471222012 @default.
• W2146147122 countsByYear W21461471222013 @default.
• W2146147122 countsByYear W21461471222014 @default.
• W2146147122 countsByYear W21461471222015 @default.
• W2146147122 countsByYear W21461471222016 @default.
• W2146147122 countsByYear W21461471222017 @default.
• W2146147122 countsByYear W21461471222018 @default.
• W2146147122 countsByYear W21461471222019 @default.
• W2146147122 countsByYear W21461471222020 @default.
• W2146147122 countsByYear W21461471222021 @default.
• W2146147122 countsByYear W21461471222022 @default.
• W2146147122 countsByYear W21461471222023 @default.
• W2146147122 crossrefType "journal-article" @default.
• W2146147122 hasAuthorship W2146147122A5006011530 @default.
• W2146147122 hasAuthorship W2146147122A5016347594 @default.
• W2146147122 hasAuthorship W2146147122A5025525177 @default.
• W2146147122 hasAuthorship W2146147122A5051185602 @default.
• W2146147122 hasAuthorship W2146147122A5070994251 @default.
• W2146147122 hasAuthorship W2146147122A5073096423 @default.
• W2146147122 hasAuthorship W2146147122A5073464131 @default.
• W2146147122 hasAuthorship W2146147122A5082851513 @default.
• W2146147122 hasAuthorship W2146147122A5083759398 @default.
• W2146147122 hasBestOaLocation W21461471221 @default.
• W2146147122 hasConcept C1008401 @default.
• W2146147122 hasConcept C105702510 @default.
• W2146147122 hasConcept C109523444 @default.
• W2146147122 hasConcept C126322002 @default.
• W2146147122 hasConcept C134018914 @default.
• W2146147122 hasConcept C142724271 @default.

• next