SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2154636701> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W2154636701 endingPage "440" @default.
W2154636701 startingPage "429" @default.
W2154636701 abstract "Platelet-derived growth factor (PDGF) and transforming growth factor-beta (TGF-beta) markedly potentiate tissue repair in vivo. In the present experiments, both in vitro and in vivo responses to PDGF and TGF-beta were tested to identify mechanisms whereby these growth factors might each enhance the wound-healing response. Recombinant human PDGF B-chain homodimers (PDGF-BB) and TGF-beta 1 had identical dose-response curves in chemotactic assays with monocytes and fibroblasts as the natural proteins from platelets. Single applications of PDGF-BB (2 micrograms, 80 pmol) and TGF-beta 1 (20 micrograms, 600 pmol) were next applied to linear incisions in rats and each enhanced the strength required to disrupt the wounds at 5 d up to 212% of paired control wounds. Histological analysis of treated wounds demonstrated an in vivo chemotactic response of macrophages and fibroblasts to both PDGF-BB and to TGF-beta 1 but the response to TGF-beta 1 was significantly less than that observed with PDGF-BB. Marked increases of procollagen type I were observed by immunohistochemical staining in fibroblasts in treated wounds during the first week. The augmented breaking strength of TGF-beta 1 was not observed 2 and 3 wk after wounding. However, the positive influence of PDGF-BB on wound breaking strength persisted through the 7 wk of testing. Furthermore, PDGF-BB-treated wounds had persistently increased numbers of fibroblasts and granulation tissue through day 21, whereas the enhanced cellular influx in TGF-beta 1-treated wounds was not detectable beyond day 7. Wound macrophages and fibroblasts from PDGF-BB-treated wounds contained sharply increased levels of immunohistochemically detectable intracellular TGF-beta. Furthermore, PDGF-BB in vitro induced a marked, time-dependent stimulation of TGF-beta mRNA levels in cultured normal rat kidney fibroblasts. The results suggest that TGF-beta transiently attracts fibroblasts into the wound and may stimulate collagen synthesis directly. In contrast, PDGF is a more potent chemoattractant for wound macrophages and fibroblasts and may stimulate these cells to express endogenous growth factors, including TGF-beta, which, in turn, directly stimulate new collagen synthesis and sustained enhancement of wound healing over a more prolonged period of time." @default.
W2154636701 created "2016-06-24" @default.
W2154636701 creator A5041565552 @default.
W2154636701 creator A5041887287 @default.
W2154636701 creator A5053373029 @default.
W2154636701 creator A5056611075 @default.
W2154636701 creator A5060705509 @default.
W2154636701 creator A5073892273 @default.
W2154636701 creator A5076779935 @default.
W2154636701 date "1989-07-01" @default.
W2154636701 modified "2023-10-18" @default.
W2154636701 title "Platelet-derived growth factor and transforming growth factor-beta enhance tissue repair activities by unique mechanisms." @default.
W2154636701 cites W148753544 @default.
W2154636701 cites W1496494806 @default.
W2154636701 cites W1503388237 @default.
W2154636701 cites W1505978562 @default.
W2154636701 cites W1510586846 @default.
W2154636701 cites W1571209082 @default.
W2154636701 cites W1585676872 @default.
W2154636701 cites W1592658968 @default.
W2154636701 cites W1595561754 @default.
W2154636701 cites W1596449567 @default.
W2154636701 cites W169622606 @default.
W2154636701 cites W182053045 @default.
W2154636701 cites W1969647310 @default.
W2154636701 cites W1970516412 @default.
W2154636701 cites W1977070858 @default.
W2154636701 cites W1979877257 @default.
W2154636701 cites W1980035932 @default.
W2154636701 cites W1983031935 @default.
W2154636701 cites W1984767179 @default.
W2154636701 cites W1997629297 @default.
W2154636701 cites W200635154 @default.
W2154636701 cites W2010710364 @default.
W2154636701 cites W2012244701 @default.
W2154636701 cites W2013530991 @default.
W2154636701 cites W2015652844 @default.
W2154636701 cites W2016639812 @default.
W2154636701 cites W2017347652 @default.
W2154636701 cites W2028245130 @default.
W2154636701 cites W2038900950 @default.
W2154636701 cites W2046733107 @default.
W2154636701 cites W2050991159 @default.
W2154636701 cites W2055220950 @default.
W2154636701 cites W2062199188 @default.
W2154636701 cites W2063328094 @default.
W2154636701 cites W2064688277 @default.
W2154636701 cites W2074585769 @default.
W2154636701 cites W2076832562 @default.
W2154636701 cites W2079235460 @default.
W2154636701 cites W2087890016 @default.
W2154636701 cites W2093586592 @default.
W2154636701 cites W2100778705 @default.
W2154636701 cites W2106480106 @default.
W2154636701 cites W2108104357 @default.
W2154636701 cites W2130535740 @default.
W2154636701 cites W2134812217 @default.
W2154636701 cites W2137577023 @default.
W2154636701 cites W2163862629 @default.
W2154636701 cites W2164094961 @default.
W2154636701 cites W2165720865 @default.
W2154636701 cites W2165721443 @default.
W2154636701 cites W2168476587 @default.
W2154636701 cites W2169048611 @default.
W2154636701 cites W2244958898 @default.
W2154636701 cites W2413046665 @default.
W2154636701 cites W263572369 @default.
W2154636701 cites W4250500183 @default.
W2154636701 cites W8638124 @default.
W2154636701 doi "https://doi.org/10.1083/jcb.109.1.429" @default.
W2154636701 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2115493" @default.
W2154636701 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/2745556" @default.
W2154636701 hasPublicationYear "1989" @default.
W2154636701 type Work @default.
W2154636701 sameAs 2154636701 @default.
W2154636701 citedByCount "543" @default.
W2154636701 countsByYear W21546367012012 @default.
W2154636701 countsByYear W21546367012013 @default.
W2154636701 countsByYear W21546367012014 @default.
W2154636701 countsByYear W21546367012015 @default.
W2154636701 countsByYear W21546367012016 @default.
W2154636701 countsByYear W21546367012017 @default.
W2154636701 countsByYear W21546367012018 @default.
W2154636701 countsByYear W21546367012019 @default.
W2154636701 countsByYear W21546367012020 @default.
W2154636701 countsByYear W21546367012021 @default.
W2154636701 countsByYear W21546367012022 @default.
W2154636701 countsByYear W21546367012023 @default.
W2154636701 crossrefType "journal-article" @default.
W2154636701 hasAuthorship W2154636701A5041565552 @default.
W2154636701 hasAuthorship W2154636701A5041887287 @default.
W2154636701 hasAuthorship W2154636701A5053373029 @default.
W2154636701 hasAuthorship W2154636701A5056611075 @default.
W2154636701 hasAuthorship W2154636701A5060705509 @default.
W2154636701 hasAuthorship W2154636701A5073892273 @default.
W2154636701 hasAuthorship W2154636701A5076779935 @default.
W2154636701 hasBestOaLocation W21546367011 @default.
W2154636701 hasConcept C118131993 @default.