Butyrate-induced collagen biosynthesis in cultured fibroblasts is independent on alpha(2)beta(1) integrin signalling and IGF-I receptor cascade
Karna, E; Miltyk, W; Palka, JA
HERO ID
1459045
Reference Type
Journal Article
Year
2006
Language
English
PMID
| HERO ID | 1459045 |
|---|---|
| In Press | No |
| Year | 2006 |
| Title | Butyrate-induced collagen biosynthesis in cultured fibroblasts is independent on alpha(2)beta(1) integrin signalling and IGF-I receptor cascade |
| Authors | Karna, E; Miltyk, W; Palka, JA |
| Journal | Molecular and Cellular Biochemistry |
| Volume | 286 |
| Issue | 1-2 |
| Page Numbers | 147-152 |
| Abstract | The potential role of butyrate to modulate cellular metabolism through integrin receptor led to evaluation of its effect on collagen biosynthesis in cultured fibroblasts. Confluent human dermal fibroblasts were treated with 2 mM and 4 mM of sodium butyrate (NaB) for 48 h. It was found that butyrate induced collagen biosynthesis and prolidase activity independently of alpha2beta1 integrin signaling. The expressions of both alpha2 and beta1 integrin subunits as well as integrin-induced activation of focal adhesion kinase (FAK) were not affected in the cells treated with NaB. Since insulin-like growth factor-I (IGF-I) is the most potent stimulator of collagen biosynthesis in fibroblasts, the effect of butyrate on IGF-I receptor (IGF-IR) expression was evaluated. It was found that the exposure of the cells to 4 mM butyrate contributed to a distinct increase in IGF-IR. It was accompanied by a parallel increase in the expression of Sos protein and MAP-kinases (ERK1, ERK2). The data suggests that butyrate-dependent stimulation of collagen biosynthesis in cultured human skin fibroblasts undergoes through IGF-IR signaling. |
| Doi | 10.1007/s11010-005-9106-2 |
| Pmid | 16541197 |
| Wosid | WOS:000238614000019 |
| Is Certified Translation | No |
| Dupe Override | No |
| Comments | Source: Web of Science WOS:000238614000019 |
| Is Public | Yes |
| Language Text | English |
| Keyword | butyrate; collagen biosynthesis; IGF-I receptor; integrins; prolidase |