Peter Brock scite author profile

Pancreatic stellate cells (PSCs) play a key role in the development of pancreatic fibrosis, a constant feature of chronic pancreatitis and pancreatic cancer. In response to pro‐fibrogenic mediators, PSCs undergo an activation process that involves proliferation, enhanced production of extracellular matrix proteins and a phenotypic transition towards myofibroblasts. Ligands of the peroxisome proliferator‐activated receptor gamma (PPARγ), such as thiazolidinediones, are potent inhibitors of stellate cell activation and fibrogenesis in pancreas and liver. The effects of PPARγ ligands, however, however, are at least in part mediated through PPARγ‐independent pathways. Here, we have chosen a different approach to study regulatory functions of PPARγ in PSCs. Using immortalised rat PSCs, we have established a model of tetracycline (tet)‐regulated PPARγ over‐expression. Induction of PPARγ expression strongly inhibited proliferation and enhanced the rate of apoptotic cell death. Furthermore, PPARγ‐overexpressing cells synthesised less collagen than controls. To monitor effects of PPARγ on PSC gene expression, we employed Affymetrix microarray technology. Using stringent selection criteria, we identified 21 up‐ and 19 down‐regualated genes in PPARγ‐overexpressing cells. Most of the corresponding gene products are either involved in lipid metabolism, play a role in signal transduction, or are secreted molecules that regulate cell growth and differentition. In conclusion, our data suggest an active role of PPARγ in the induction of a quiescent PSC phenotype. PPARγ‐regulated genes in PSCs may serve as novel targets for the development of antifibrotic therapies.

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Regulation of pancreatic stellate cell function in vitro: biological and molecular effects of all-trans retinoic acid

Jaster

Hilgendorf

Fitzner

et al. 2003

Biochemical Pharmacology

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Molecular insights into connective tissue growth factor action in rat pancreatic stellate cells

Karger

Fitzner

Brock

et al. 2008

Cellular Signalling

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Synergistic Growth Inhibitory Effects of the Dual Endothelin-1 Receptor Antagonist Bosentan on Pancreatic Stellate and Cancer Cells

et al. 2008

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Pancreatic stellate cells (PSC) play a key role in pancreatic fibrosis. Activation of PSC occurs in response to pro-fibrogenic stimuli and is maintained by autocrine loops of mediators, such as endothelin (ET)-1. Here, we have evaluated effects of the dual ET receptor antagonist bosentan in models of pancreatic fibrogenesis and cancer. Cell culture studies revealed that PSC and DSL6A pancreatic cancer cells expressed both ET-1 and ET receptors. Bosentan efficiently inhibited proliferation of both cell types and collagen synthesis in PSC. Expression of the myofibroblastic marker alpha-smooth muscle actin, connective tissue growth factor, and ET-1 itself in PSC was reduced, while expression of matrix metalloproteinase-9 was enhanced. Like PSC, DSL6A cells secrete less ET-1 when cultured with bosentan. In a rat model of pancreatic fibrosis, chronic pancreatitis induced by dibutyltin dichloride, a tendency towards a diminished disease progression was observed in a subgroup of rats with less severe disease. Together, our results indicate that bosentan exerts antifibrotic and antitumor effects in vitro. Its efficiency in vivo warrants further investigation.

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Inhibition of pancreatic stellate cell activation by the hydroxymethylglutaryl coenzyme A reductase inhibitor lovastatin

Jaster

Brock

Sparmann

et al. 2003

Biochemical Pharmacology

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Peter Brock

Peroxisome proliferator - activated receptor ? overexpression inhibits pro-fibrogenic activities of immortalised rat pancreatic stellate cells

Regulation of pancreatic stellate cell function in vitro: biological and molecular effects of all-trans retinoic acid

Molecular insights into connective tissue growth factor action in rat pancreatic stellate cells

Synergistic Growth Inhibitory Effects of the Dual Endothelin-1 Receptor Antagonist Bosentan on Pancreatic Stellate and Cancer Cells

Inhibition of pancreatic stellate cell activation by the hydroxymethylglutaryl coenzyme A reductase inhibitor lovastatin

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