AIMS: Nitric oxide (NO) and atrial natriuretic peptide (ANP) signalling via cGMP controls smooth muscle tone. One important signalling pathway of cGMP-dependent protein kinase type I (cGKI) is mediated by IRAG (IP(3) receptor associated cGKI substrate) which is highly expressed in smooth muscle tissues. To elucidate the role of IRAG for NO- and ANP-mediated smooth muscle tone regulation, cGKI localization, and for its possible function in blood pressure adjustment, we generated IRAG-knockout mice by targeted deletion of exon 3. METHODS AND RESULTS: IRAG deletion prevented stable interaction of IP(3) receptor type I (IP(3)RI) with cGKIbeta determined by cGMP affinity chromatography. Confocal microscopy in vascular smooth muscle cells (VSMCs) showed that localization of cGKIbeta and cGKIalpha did not change in absence of IRAG. NO-, ANP-, and cGMP-dependent relaxation of hormone-contracted aortic vessels and colon was significantly affected in IRAG-knockout mice. The suppression of cGMP-induced relaxation was not rescued by selective expression of cGKIbeta in smooth muscle from cGKIbeta-transgenic mice. NO-, ANP-, and cGMP-mediated inhibition of the hormone-induced increase in intracellular calcium concentration measured by Fura2 was suppressed in IRAG-deficient VSMC. Telemetric measurements revealed that IRAG-deficient animals exhibited normal basal tone, but were resistant to blood pressure reduction induced by lipopolysaccharide-treatment. CONCLUSION: These findings indicate that signalling of cGKIbeta via IRAG is an essential functional part for regulation of smooth muscle tone and of intracellular calcium by NO (exogenously applicated or endogenously synthesized) and by ANP. IRAG signalling does not modulate basal tone but might be important for blood pressure regulation under pathophysiological conditions.
AIMS: Nitric oxide (NO) and atrial natriuretic peptide (ANP) signalling via cGMP controls smooth muscle tone. One important signalling pathway of cGMP-dependent protein kinase type I (cGKI) is mediated by IRAG (IP(3) receptor associated cGKI substrate) which is highly expressed in smooth muscle tissues. To elucidate the role of IRAG for NO- and ANP-mediated smooth muscle tone regulation, cGKI localization, and for its possible function in blood pressure adjustment, we generated IRAG-knockout mice by targeted deletion of exon 3. METHODS AND RESULTS:IRAG deletion prevented stable interaction of IP(3) receptor type I (IP(3)RI) with cGKIbeta determined by cGMP affinity chromatography. Confocal microscopy in vascular smooth muscle cells (VSMCs) showed that localization of cGKIbeta and cGKIalpha did not change in absence of IRAG. NO-, ANP-, and cGMP-dependent relaxation of hormone-contracted aortic vessels and colon was significantly affected in IRAG-knockout mice. The suppression of cGMP-induced relaxation was not rescued by selective expression of cGKIbeta in smooth muscle from cGKIbeta-transgenic mice. NO-, ANP-, and cGMP-mediated inhibition of the hormone-induced increase in intracellular calcium concentration measured by Fura2 was suppressed in IRAG-deficient VSMC. Telemetric measurements revealed that IRAG-deficient animals exhibited normal basal tone, but were resistant to blood pressure reduction induced by lipopolysaccharide-treatment. CONCLUSION: These findings indicate that signalling of cGKIbeta via IRAG is an essential functional part for regulation of smooth muscle tone and of intracellular calcium by NO (exogenously applicated or endogenously synthesized) and by ANP. IRAG signalling does not modulate basal tone but might be important for blood pressure regulation under pathophysiological conditions.
Authors: C A Cobine; A G Sotherton; L E Peri; K M Sanders; S M Ward; K D Keef Journal: Am J Physiol Gastrointest Liver Physiol Date: 2014-10-09 Impact factor: 4.052
Authors: Padhraig Gormley; Verneri Anttila; Bendik S Winsvold; Priit Palta; Tonu Esko; Tune H Pers; Kai-How Farh; Ester Cuenca-Leon; Mikko Muona; Nicholas A Furlotte; Tobias Kurth; Andres Ingason; George McMahon; Lannie Ligthart; Gisela M Terwindt; Mikko Kallela; Tobias M Freilinger; Caroline Ran; Scott G Gordon; Anine H Stam; Stacy Steinberg; Guntram Borck; Markku Koiranen; Lydia Quaye; Hieab H H Adams; Terho Lehtimäki; Antti-Pekka Sarin; Juho Wedenoja; David A Hinds; Julie E Buring; Markus Schürks; Paul M Ridker; Maria Gudlaug Hrafnsdottir; Hreinn Stefansson; Susan M Ring; Jouke-Jan Hottenga; Brenda W J H Penninx; Markus Färkkilä; Ville Artto; Mari Kaunisto; Salli Vepsäläinen; Rainer Malik; Andrew C Heath; Pamela A F Madden; Nicholas G Martin; Grant W Montgomery; Mitja I Kurki; Mart Kals; Reedik Mägi; Kalle Pärn; Eija Hämäläinen; Hailiang Huang; Andrea E Byrnes; Lude Franke; Jie Huang; Evie Stergiakouli; Phil H Lee; Cynthia Sandor; Caleb Webber; Zameel Cader; Bertram Muller-Myhsok; Stefan Schreiber; Thomas Meitinger; Johan G Eriksson; Veikko Salomaa; Kauko Heikkilä; Elizabeth Loehrer; Andre G Uitterlinden; Albert Hofman; Cornelia M van Duijn; Lynn Cherkas; Linda M Pedersen; Audun Stubhaug; Christopher S Nielsen; Minna Männikkö; Evelin Mihailov; Lili Milani; Hartmut Göbel; Ann-Louise Esserlind; Anne Francke Christensen; Thomas Folkmann Hansen; Thomas Werge; Jaakko Kaprio; Arpo J Aromaa; Olli Raitakari; M Arfan Ikram; Tim Spector; Marjo-Riitta Järvelin; Andres Metspalu; Christian Kubisch; David P Strachan; Michel D Ferrari; Andrea C Belin; Martin Dichgans; Maija Wessman; Arn M J M van den Maagdenberg; John-Anker Zwart; Dorret I Boomsma; George Davey Smith; Kari Stefansson; Nicholas Eriksson; Mark J Daly; Benjamin M Neale; Jes Olesen; Daniel I Chasman; Dale R Nyholt; Aarno Palotie Journal: Nat Genet Date: 2016-06-20 Impact factor: 38.330