BACKGROUND AND AIMS: Adenine is a uric acid pathway metabolite of no known function, and has recently been identified as a ligand for a rat G protein-coupled receptor. Due to the known role of other uric acid pathway metabolites in HSC biology, we tested the ability of adenine to induce HSC differentiation. METHODS: RT-PCR was performed for adenine receptor expression in T-6 and primary rat HSC. T-6 and primary rats HSC were cultured with and without adenine, and stellation examined. Next, we examined inhibition of calcium signaling using caged IP(3). To test if adenine inhibits HSC chemotaxis T-6 cells and rat HSCs were cultured with or without adenine for 24 h in a transwell assay with PDGF as the chemoattractant. cDNA was prepared from T-6 and primary HSC for quantification of collagen 1 mRNA using real-time PCR. RESULTS: We found that mRNA for the adenine receptor is expressed in T-6 cells and primary rat HSC. Also, adenine induces HSC stellation and adenine inhibits IP(3) mediated increase in cytosolic [Ca(2+)](i) and inhibits chemotaxis in T-6 cells and primary rat HSC. Adenine was also shown to up-regulate α-SMA and collagen 1, and this effect is lost by using specific si-RNA for the adenine receptor. Finally, adenine inhibits endothelin-1-induced gel contraction. CONCLUSIONS: The adenine receptor is present in T-6 cells and primary rats HSC. Adenine, via the adenine receptor, induces morphological change, and cytosolic calcium signaling, inhibits chemotaxis, and up-regulates collagen 1 mRNA in HSCs.
BACKGROUND AND AIMS: Adenine is a uric acid pathway metabolite of no known function, and has recently been identified as a ligand for a rat G protein-coupled receptor. Due to the known role of other uric acid pathway metabolites in HSC biology, we tested the ability of adenine to induce HSC differentiation. METHODS: RT-PCR was performed for adenine receptor expression in T-6 and primary ratHSC. T-6 and primary ratsHSC were cultured with and without adenine, and stellation examined. Next, we examined inhibition of calcium signaling using caged IP(3). To test if adenine inhibits HSC chemotaxis T-6 cells and rat HSCs were cultured with or without adenine for 24 h in a transwell assay with PDGF as the chemoattractant. cDNA was prepared from T-6 and primary HSC for quantification of collagen 1 mRNA using real-time PCR. RESULTS: We found that mRNA for the adenine receptor is expressed in T-6 cells and primary ratHSC. Also, adenine induces HSC stellation and adenine inhibits IP(3) mediated increase in cytosolic [Ca(2+)](i) and inhibits chemotaxis in T-6 cells and primary ratHSC. Adenine was also shown to up-regulate α-SMA and collagen 1, and this effect is lost by using specific si-RNA for the adenine receptor. Finally, adenine inhibits endothelin-1-induced gel contraction. CONCLUSIONS: The adenine receptor is present in T-6 cells and primary ratsHSC. Adenine, via the adenine receptor, induces morphological change, and cytosolic calcium signaling, inhibits chemotaxis, and up-regulates collagen 1 mRNA in HSCs.
Authors: Melanie Knospe; Christa E Müller; Patrizia Rosa; Aliaa Abdelrahman; Ivar von Kügelgen; Dominik Thimm; Anke C Schiedel Journal: Purinergic Signal Date: 2013-02-15 Impact factor: 3.765
Authors: Dominik Thimm; Melanie Knospe; Aliaa Abdelrahman; Miguel Moutinho; Bernt B A Alsdorf; Ivar von Kügelgen; Anke C Schiedel; Christa E Müller Journal: Purinergic Signal Date: 2013-04-23 Impact factor: 3.765
Authors: Bellamkonda K Kishore; Yue Zhang; Haykanush Gevorgyan; Donald E Kohan; Anke C Schiedel; Christa E Müller; János Peti-Peterdi Journal: Am J Physiol Renal Physiol Date: 2013-08-28