Abstract
The roles of MEK, ERK, the epsilon and alpha isoforms of protein kinase C (PKC), and caveolin-1 in regulating collagen expression were studied in normal lung fibroblasts. Knocking down caveolin-1 gave particularly striking results. A 70% decrease caused a 5-fold increase in MEK/ERK activation and collagen expression. The combined data reveal a branched signaling pathway. In its central portion MEK activates ERK, leading to increased collagen expression. Two branches converge on MEK/ERK. In one, increased PKCepsilon leads to MEK/ERK activation. In another, increased PKCalpha induces caveolin-1 expression, which in turn inhibits MEK/ERK activation and collagen expression. Lung fibroblasts from scleroderma patients with pulmonary fibrosis showed altered signaling. Consistent with their overexpression of collagen, scleroderma lung fibroblasts contain more activated MEK/ERK and less caveolin-1 than normal lung fibroblasts. Because cutaneous fibrosis is the hallmark of scleroderma, we also studied dermal fibroblasts. As in lung, there was more activated MEK/ERK in cells from scleroderma patients than in control cells, and MEK inhibition decreased collagen expression. However, the distinctive levels of PKCepsilon, PKCalpha, and caveolin-1 in lung and dermal fibroblasts from scleroderma patients and control subjects indicate that the links between these signaling proteins and MEK/ERK must function differently in the four cell types. Finally, we confirmed the relevance of these signaling cascades in vivo. The combined results demonstrate that a branched signaling pathway involving MEK, ERK, PKCepsilon, PKCalpha, and caveolin-1 regulates collagen expression in normal lung tissue and is perturbed during fibrosis.
Highlights
The roles of MEK, ERK, the ⑀ and ␣ isoforms of protein kinase C (PKC), and caveolin-1 in regulating collagen expression were studied in normal lung fibroblasts
MEK/ERK signaling regulates collagen expression in dermal fibroblasts, the other branches of this signaling pathway must differ in dermal and lung fibroblasts given that the relative levels of expression of PKC⑀, PKC␣, and caveolin-1 are very different in NLF, SLF, normal dermal fibroblasts (NDF), and scleroderma dermal fibroblasts (SDF)
Similar results were obtained with both NLF and SLF. These observations strongly suggest that the enhanced expression of caveolin-1 in cells transfected with c-a PKC␣ leads to the inhibition of MEK/ ERK activation and to the inhibition of collagen expression that we have observed in these cells
Summary
Vol 280, No 14, Issue of April 8, pp. 13879 –13887, 2005 Printed in U.S.A. Opposing Effects of Protein Kinase C␣ and Protein Kinase C⑀ on Collagen Expression by Human Lung Fibroblasts Are Mediated via MEK/ERK and Caveolin-1 Signaling*. We have used specific inhibitors and constructs to alter the expression and function of MEK/ERK, PKC, and caveolin-1 in NLF and SLF These studies have revealed that under normal conditions a branched signaling pathway regulates collagen expression. MEK/ERK signaling regulates collagen expression in dermal fibroblasts, the other branches of this signaling pathway must differ in dermal and lung fibroblasts given that the relative levels of expression of PKC⑀, PKC␣, and caveolin-1 are very different in NLF, SLF, normal dermal fibroblasts (NDF), and scleroderma dermal fibroblasts (SDF). These results reveal a complex signaling pathway that regulates collagen expression in the lung under normal conditions and that is perturbed when collagen is overexpressed in both in vitro and in vivo models of lung fibrosis
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