ATP induced vasodilatation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins and adenosine

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ATP induced vasodilatation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins and adenosine. / Mortensen, Stefan P; Gonzalez-Alonso, Jose; Bune, Laurids; Saltin, Bengt; Pilegaard, Henriette; Hellsten, Ylva.

In: American Journal of Physiology: Regulatory, Integrative and Comparative Physiology, Vol. 296, No. 4, 2009, p. R1140-R1148.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Mortensen, SP, Gonzalez-Alonso, J, Bune, L, Saltin, B, Pilegaard, H & Hellsten, Y 2009, 'ATP induced vasodilatation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins and adenosine', American Journal of Physiology: Regulatory, Integrative and Comparative Physiology, vol. 296, no. 4, pp. R1140-R1148. https://doi.org/10.1152/ajpregu.90822.2008

APA

Mortensen, S. P., Gonzalez-Alonso, J., Bune, L., Saltin, B., Pilegaard, H., & Hellsten, Y. (2009). ATP induced vasodilatation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins and adenosine. American Journal of Physiology: Regulatory, Integrative and Comparative Physiology, 296(4), R1140-R1148. https://doi.org/10.1152/ajpregu.90822.2008

Vancouver

Mortensen SP, Gonzalez-Alonso J, Bune L, Saltin B, Pilegaard H, Hellsten Y. ATP induced vasodilatation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins and adenosine. American Journal of Physiology: Regulatory, Integrative and Comparative Physiology. 2009;296(4):R1140-R1148. https://doi.org/10.1152/ajpregu.90822.2008

Author

Mortensen, Stefan P ; Gonzalez-Alonso, Jose ; Bune, Laurids ; Saltin, Bengt ; Pilegaard, Henriette ; Hellsten, Ylva. / ATP induced vasodilatation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins and adenosine. In: American Journal of Physiology: Regulatory, Integrative and Comparative Physiology. 2009 ; Vol. 296, No. 4. pp. R1140-R1148.

Bibtex

@article{5e87bcf0ec9111ddbf70000ea68e967b,
title = "ATP induced vasodilatation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins and adenosine",
abstract = "Plasma adenosine-5'-triphosphate (ATP) is thought to contribute to the local regulation of skeletal muscle blood flow. Intravascular ATP infusion can induce profound limb muscle vasodilatation, but the purinergic receptors and downstream signals involved in this response remain unclear. This study investigated: 1) the role of nitric oxide (NO), prostaglandins and adenosine as mediators of ATP induced limb vasodilation and 2) the expression and distribution of purinergic P2 receptors in human skeletal muscle. Systemic and leg hemodynamics were measured before and during 5-7 min of femoral intra-arterial infusion of ATP (0.45-2.45 micromol/min; mean+/-SEM) in 19 healthy, male subjects with and without co-infusion of NG-mono-methyl-L-arginine (L-NMMA; NO formation inhibitor; 12.3+/-0.3 mg/min), indomethacin (INDO; prostaglandin formation blocker; 613+/-12 microg/min) and/or theophylline (adenosine receptor blocker; 400+/-26 mg). During control conditions, ATP infusion increased leg blood flow (LBF) from baseline conditions by 1.82+/-0.14 L/min. When ATP was co-infused with either L-NMMA, INDO or L-NMMA+INDO combined, the increase in LBF was reduced by 14+/-6, 15+/-9, and 39+/-8 %, respectively (P<0.05) and was associated with a parallel lowering in leg vascular conductance and cardiac output and a compensatory increase in leg O2 extraction. Infusion of theophylline did not alter the ATP induced leg hyperemia or systemic variables. Real time PCR analysis of the mRNA content from the vastus lateralus muscle of 8 subjects showed the highest expression of P2Y2 receptors of the 10 investigated P2 receptor subtypes. Immunohistochemistry showed that P2Y2 receptors were located in the endothelium of microvessels and smooth muscle cells, whereas P2X1 receptors were located in the endothelium and the sacrolemma. Collectively, these results indicate that NO and prostaglandins, but not adenosine, play a role in ATP induced vasodilation in human skeletal muscle. The localization of the P2Y2 and P2X1 receptors suggest that these receptors may mediate ATP induced vasodilation in skeletal muscle. Key words: Skeletal Muscle, ATP, purinergic receptors, nitric oxide.",
author = "Mortensen, {Stefan P} and Jose Gonzalez-Alonso and Laurids Bune and Bengt Saltin and Henriette Pilegaard and Ylva Hellsten",
note = "Key Words: Skeletal muscle, ATP, purinergic receptors, nitric oxide, prostaglandins",
year = "2009",
doi = "10.1152/ajpregu.90822.2008",
language = "English",
volume = "296",
pages = "R1140--R1148",
journal = "American Journal of Physiology",
issn = "0363-6119",
publisher = "American Physiological Society",
number = "4",

}

RIS

TY - JOUR

T1 - ATP induced vasodilatation and purinergic receptors in the human leg: roles of nitric oxide, prostaglandins and adenosine

AU - Mortensen, Stefan P

AU - Gonzalez-Alonso, Jose

AU - Bune, Laurids

AU - Saltin, Bengt

AU - Pilegaard, Henriette

AU - Hellsten, Ylva

N1 - Key Words: Skeletal muscle, ATP, purinergic receptors, nitric oxide, prostaglandins

PY - 2009

Y1 - 2009

N2 - Plasma adenosine-5'-triphosphate (ATP) is thought to contribute to the local regulation of skeletal muscle blood flow. Intravascular ATP infusion can induce profound limb muscle vasodilatation, but the purinergic receptors and downstream signals involved in this response remain unclear. This study investigated: 1) the role of nitric oxide (NO), prostaglandins and adenosine as mediators of ATP induced limb vasodilation and 2) the expression and distribution of purinergic P2 receptors in human skeletal muscle. Systemic and leg hemodynamics were measured before and during 5-7 min of femoral intra-arterial infusion of ATP (0.45-2.45 micromol/min; mean+/-SEM) in 19 healthy, male subjects with and without co-infusion of NG-mono-methyl-L-arginine (L-NMMA; NO formation inhibitor; 12.3+/-0.3 mg/min), indomethacin (INDO; prostaglandin formation blocker; 613+/-12 microg/min) and/or theophylline (adenosine receptor blocker; 400+/-26 mg). During control conditions, ATP infusion increased leg blood flow (LBF) from baseline conditions by 1.82+/-0.14 L/min. When ATP was co-infused with either L-NMMA, INDO or L-NMMA+INDO combined, the increase in LBF was reduced by 14+/-6, 15+/-9, and 39+/-8 %, respectively (P<0.05) and was associated with a parallel lowering in leg vascular conductance and cardiac output and a compensatory increase in leg O2 extraction. Infusion of theophylline did not alter the ATP induced leg hyperemia or systemic variables. Real time PCR analysis of the mRNA content from the vastus lateralus muscle of 8 subjects showed the highest expression of P2Y2 receptors of the 10 investigated P2 receptor subtypes. Immunohistochemistry showed that P2Y2 receptors were located in the endothelium of microvessels and smooth muscle cells, whereas P2X1 receptors were located in the endothelium and the sacrolemma. Collectively, these results indicate that NO and prostaglandins, but not adenosine, play a role in ATP induced vasodilation in human skeletal muscle. The localization of the P2Y2 and P2X1 receptors suggest that these receptors may mediate ATP induced vasodilation in skeletal muscle. Key words: Skeletal Muscle, ATP, purinergic receptors, nitric oxide.

AB - Plasma adenosine-5'-triphosphate (ATP) is thought to contribute to the local regulation of skeletal muscle blood flow. Intravascular ATP infusion can induce profound limb muscle vasodilatation, but the purinergic receptors and downstream signals involved in this response remain unclear. This study investigated: 1) the role of nitric oxide (NO), prostaglandins and adenosine as mediators of ATP induced limb vasodilation and 2) the expression and distribution of purinergic P2 receptors in human skeletal muscle. Systemic and leg hemodynamics were measured before and during 5-7 min of femoral intra-arterial infusion of ATP (0.45-2.45 micromol/min; mean+/-SEM) in 19 healthy, male subjects with and without co-infusion of NG-mono-methyl-L-arginine (L-NMMA; NO formation inhibitor; 12.3+/-0.3 mg/min), indomethacin (INDO; prostaglandin formation blocker; 613+/-12 microg/min) and/or theophylline (adenosine receptor blocker; 400+/-26 mg). During control conditions, ATP infusion increased leg blood flow (LBF) from baseline conditions by 1.82+/-0.14 L/min. When ATP was co-infused with either L-NMMA, INDO or L-NMMA+INDO combined, the increase in LBF was reduced by 14+/-6, 15+/-9, and 39+/-8 %, respectively (P<0.05) and was associated with a parallel lowering in leg vascular conductance and cardiac output and a compensatory increase in leg O2 extraction. Infusion of theophylline did not alter the ATP induced leg hyperemia or systemic variables. Real time PCR analysis of the mRNA content from the vastus lateralus muscle of 8 subjects showed the highest expression of P2Y2 receptors of the 10 investigated P2 receptor subtypes. Immunohistochemistry showed that P2Y2 receptors were located in the endothelium of microvessels and smooth muscle cells, whereas P2X1 receptors were located in the endothelium and the sacrolemma. Collectively, these results indicate that NO and prostaglandins, but not adenosine, play a role in ATP induced vasodilation in human skeletal muscle. The localization of the P2Y2 and P2X1 receptors suggest that these receptors may mediate ATP induced vasodilation in skeletal muscle. Key words: Skeletal Muscle, ATP, purinergic receptors, nitric oxide.

U2 - 10.1152/ajpregu.90822.2008

DO - 10.1152/ajpregu.90822.2008

M3 - Journal article

C2 - 19118095

VL - 296

SP - R1140-R1148

JO - American Journal of Physiology

JF - American Journal of Physiology

SN - 0363-6119

IS - 4

ER -

ID: 9963080