G-protein mediated signaling pathways in myogenic responsiveness of mouse mesenteric artery

Lars Jørn Jensen; Philomeena Daphne Joseph; Kristian Agmund Haanes; Susanne Syberg Hansen; Niklas Rye Jørgensen; Jakob Lerche Hansen; Max Salomonsson

doi:10.1111/micc.12246

G-protein mediated signaling pathways in myogenic responsiveness of mouse mesenteric artery

Lars Jørn Jensen, Philomeena Daphne Joseph, Kristian Agmund Haanes, Susanne Syberg Hansen, Niklas Rye Jørgensen, Jakob Lerche Hansen, Max Salomonsson

Abstract

Myogenic responsiveness (MR) is the ability of a small artery to constrict to an increase in intraluminal pressure and dilate to a decrease in pressure. The mechanisms linking an increase in pressure to VSMC contraction are suggested to involve mechanical activation of AT1-receptors. Our aim was to explore the role of alternative G protein-coupled receptor (GPCR) pathways. MR of pressurized mouse mesenteric arteries (MA; <200 µm) was measured as the slope of the active diameter curve. The PLC inhibitors U73122 (0.5 µM), ET-18-OCH3 (10 µM), and the PKC inhibitor BIM-X (1 µM) impaired MR. Inhibitors of PLA2 (AACOCF3, 5 µM), DAG lipase (RHC80267, 20 µM), PI3-kinase (wortmannin, 0.03 µM), CYP4A (HET0016, 10 µM), and TRPC channels (SKF96365, 10 µM) had no effects. Gq/11 and G12 mRNA and protein were expressed in MA. The Gα/q inhibitor YM-254890 (0.1 µM) and the AT1-R blocker valsartan (0.3 µM) inhibited MR. The GPCR antagonists prazosin (1 µM), losartan (0.1 µM), BQ-123 (1 µM), and SQ29548 (1 µM) had no effects. The P2Y-R antagonists suramin (100 µM) and PPADS (10 µM) inhibited MR, but the ATP diphosphatase apyrase (20 U/mL) did not. MR was similar in P2Y2-/- vs. age-matched WT mice. Preliminary data suggest a reduction of MR in P2Y6-/- mice vs. WT, and that the Rho-kinase (ROCK) inhibitor Y27632 (3 µM) inhibits MR. Thus, Gq/11 and possibly G12 pathways mediate pressure activation in mouse MA through PLC, PKC, and ROCK. MR may be initiated by mechanical activation of P2Y6-R and AT1-R in VSMCs.

Original language	English
Article number	P119
Journal	Microcirculation
Volume	22
Issue number	7
Pages (from-to)	631
Number of pages	1
ISSN	1073-9688
DOIs	https://doi.org/10.1111/micc.12246
Publication status	Published - 2015
Event	10th World Congress for Microcirculation - Kyoto International Conference Center, Kyoto, Japan Duration: 25 Sept 2015 → 27 Sept 2015

Conference

Conference	10th World Congress for Microcirculation
Location	Kyoto International Conference Center
Country/Territory	Japan
City	Kyoto
Period	25/09/2015 → 27/09/2015

Keywords

Faculty of Health and Medical Sciences
Arterioles
myogenic tone
G-protein-coupled receptor
Purinergic receptors

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10.1111/micc.12246

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@article{356502f1667142c9a03ea488a3c99637,

title = "G-protein mediated signaling pathways in myogenic responsiveness of mouse mesenteric artery",

abstract = "Myogenic responsiveness (MR) is the ability of a small artery to constrict to an increase in intraluminal pressure and dilate to a decrease in pressure. The mechanisms linking an increase in pressure to VSMC contraction are suggested to involve mechanical activation of AT1-receptors. Our aim was to explore the role of alternative G protein-coupled receptor (GPCR) pathways. MR of pressurized mouse mesenteric arteries (MA; <200 µm) was measured as the slope of the active diameter curve. The PLC inhibitors U73122 (0.5 µM), ET-18-OCH3 (10 µM), and the PKC inhibitor BIM-X (1 µM) impaired MR. Inhibitors of PLA2 (AACOCF3, 5 µM), DAG lipase (RHC80267, 20 µM), PI3-kinase (wortmannin, 0.03 µM), CYP4A (HET0016, 10 µM), and TRPC channels (SKF96365, 10 µM) had no effects. Gq/11 and G12 mRNA and protein were expressed in MA. The Gα/q inhibitor YM-254890 (0.1 µM) and the AT1-R blocker valsartan (0.3 µM) inhibited MR. The GPCR antagonists prazosin (1 µM), losartan (0.1 µM), BQ-123 (1 µM), and SQ29548 (1 µM) had no effects. The P2Y-R antagonists suramin (100 µM) and PPADS (10 µM) inhibited MR, but the ATP diphosphatase apyrase (20 U/mL) did not. MR was similar in P2Y2-/- vs. age-matched WT mice. Preliminary data suggest a reduction of MR in P2Y6-/- mice vs. WT, and that the Rho-kinase (ROCK) inhibitor Y27632 (3 µM) inhibits MR. Thus, Gq/11 and possibly G12 pathways mediate pressure activation in mouse MA through PLC, PKC, and ROCK. MR may be initiated by mechanical activation of P2Y6-R and AT1-R in VSMCs.",

keywords = "Faculty of Health and Medical Sciences, Arterioles, myogenic tone, G-protein-coupled receptor, Purinergic receptors",

author = "Jensen, {Lars J{\o}rn} and Joseph, {Philomeena Daphne} and Haanes, {Kristian Agmund} and Hansen, {Susanne Syberg} and J{\o}rgensen, {Niklas Rye} and Hansen, {Jakob Lerche} and Max Salomonsson",

year = "2015",

doi = "10.1111/micc.12246",

language = "English",

volume = "22",

pages = "631",

journal = "Microcirculation",

issn = "1073-9688",

publisher = "JohnWiley & Sons Ltd",

number = "7",

note = "10th World Congress for Microcirculation ; Conference date: 25-09-2015 Through 27-09-2015",

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TY - ABST

T1 - G-protein mediated signaling pathways in myogenic responsiveness of mouse mesenteric artery

AU - Jensen, Lars Jørn

AU - Joseph, Philomeena Daphne

AU - Haanes, Kristian Agmund

AU - Hansen, Susanne Syberg

AU - Jørgensen, Niklas Rye

AU - Hansen, Jakob Lerche

AU - Salomonsson, Max

PY - 2015

Y1 - 2015

N2 - Myogenic responsiveness (MR) is the ability of a small artery to constrict to an increase in intraluminal pressure and dilate to a decrease in pressure. The mechanisms linking an increase in pressure to VSMC contraction are suggested to involve mechanical activation of AT1-receptors. Our aim was to explore the role of alternative G protein-coupled receptor (GPCR) pathways. MR of pressurized mouse mesenteric arteries (MA; <200 µm) was measured as the slope of the active diameter curve. The PLC inhibitors U73122 (0.5 µM), ET-18-OCH3 (10 µM), and the PKC inhibitor BIM-X (1 µM) impaired MR. Inhibitors of PLA2 (AACOCF3, 5 µM), DAG lipase (RHC80267, 20 µM), PI3-kinase (wortmannin, 0.03 µM), CYP4A (HET0016, 10 µM), and TRPC channels (SKF96365, 10 µM) had no effects. Gq/11 and G12 mRNA and protein were expressed in MA. The Gα/q inhibitor YM-254890 (0.1 µM) and the AT1-R blocker valsartan (0.3 µM) inhibited MR. The GPCR antagonists prazosin (1 µM), losartan (0.1 µM), BQ-123 (1 µM), and SQ29548 (1 µM) had no effects. The P2Y-R antagonists suramin (100 µM) and PPADS (10 µM) inhibited MR, but the ATP diphosphatase apyrase (20 U/mL) did not. MR was similar in P2Y2-/- vs. age-matched WT mice. Preliminary data suggest a reduction of MR in P2Y6-/- mice vs. WT, and that the Rho-kinase (ROCK) inhibitor Y27632 (3 µM) inhibits MR. Thus, Gq/11 and possibly G12 pathways mediate pressure activation in mouse MA through PLC, PKC, and ROCK. MR may be initiated by mechanical activation of P2Y6-R and AT1-R in VSMCs.

AB - Myogenic responsiveness (MR) is the ability of a small artery to constrict to an increase in intraluminal pressure and dilate to a decrease in pressure. The mechanisms linking an increase in pressure to VSMC contraction are suggested to involve mechanical activation of AT1-receptors. Our aim was to explore the role of alternative G protein-coupled receptor (GPCR) pathways. MR of pressurized mouse mesenteric arteries (MA; <200 µm) was measured as the slope of the active diameter curve. The PLC inhibitors U73122 (0.5 µM), ET-18-OCH3 (10 µM), and the PKC inhibitor BIM-X (1 µM) impaired MR. Inhibitors of PLA2 (AACOCF3, 5 µM), DAG lipase (RHC80267, 20 µM), PI3-kinase (wortmannin, 0.03 µM), CYP4A (HET0016, 10 µM), and TRPC channels (SKF96365, 10 µM) had no effects. Gq/11 and G12 mRNA and protein were expressed in MA. The Gα/q inhibitor YM-254890 (0.1 µM) and the AT1-R blocker valsartan (0.3 µM) inhibited MR. The GPCR antagonists prazosin (1 µM), losartan (0.1 µM), BQ-123 (1 µM), and SQ29548 (1 µM) had no effects. The P2Y-R antagonists suramin (100 µM) and PPADS (10 µM) inhibited MR, but the ATP diphosphatase apyrase (20 U/mL) did not. MR was similar in P2Y2-/- vs. age-matched WT mice. Preliminary data suggest a reduction of MR in P2Y6-/- mice vs. WT, and that the Rho-kinase (ROCK) inhibitor Y27632 (3 µM) inhibits MR. Thus, Gq/11 and possibly G12 pathways mediate pressure activation in mouse MA through PLC, PKC, and ROCK. MR may be initiated by mechanical activation of P2Y6-R and AT1-R in VSMCs.

KW - Faculty of Health and Medical Sciences

KW - Arterioles

KW - myogenic tone

KW - G-protein-coupled receptor

KW - Purinergic receptors

U2 - 10.1111/micc.12246

DO - 10.1111/micc.12246

M3 - Conference abstract in journal

SN - 1073-9688

VL - 22

SP - 631

JO - Microcirculation

JF - Microcirculation

IS - 7

M1 - P119

T2 - 10th World Congress for Microcirculation

Y2 - 25 September 2015 through 27 September 2015

ER -

G-protein mediated signaling pathways in myogenic responsiveness of mouse mesenteric artery

Abstract

Conference

Keywords

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