Rho kinase activation and ROS production contributes to the cooling enhanced contraction in cutaneous equine digital veins.
Abstract: A decrease in environmental temperature can directly affect the contractility of cutaneous vasculature, mediated in part by alpha(2)-adrenoceptors. Most of the cellular mechanisms underlying the cooling-enhanced contractility to alpha(2)-adrenoceptor agonists have been reported in cutaneous arteries but little information is available on cutaneous veins. To investigate the cellular mechanisms associated with the cooling-enhanced contraction to UK-14304 (alpha(2)-adrenoceptor agonist), isolated equine digital veins (EDVs) were studied at 30 degrees C and 22 degrees C. The effects of inhibitors were studied on the contractile response to UK-14304 (0.1 microM). The cooling-enhanced responses were inhibited by Rho kinase inhibitors [maximum response to UK-14304 95.2 +/- 8% of response to depolarizing Krebs solution (DKS) in control vessels cooled to 22 degrees C, compared with 31.4 +/- 6% in the presence of fasudil 1 microM and 75.8 +/- 6% with Y-27632 0.1 microM] and the effects of these inhibitors were considerably less at 30 degrees C (control response 56.4 +/- 5% of DKS; 34.9 +/- 6% with fasudil 1 microM and 50.6 +/- 9% with Y-27632 0.1 microM). Furthermore, Western blotting showed that one of the downstream targets for Rho kinase activity, ezrin/radixin/moesin, was phosphorylated after cooling and reduced by fasudil (1 microM) only at 22 degrees C. The activation of protein kinase C contributed to the contractile response, but predominantly at 30 degrees C (maximum response 82.3 +/- 9% of DKS for control; 57.7 +/- 10% in the presence of chelerythrine 10 microM) with no significant effect at 22 degrees C. The reduction of the response at 22 degrees C by antioxidants, rotenone (14% reduction), and tempol (21% reduction) suggested the contribution of reactive oxygen species (ROS). No evidence was obtained to support the participation of tyrosine kinase. These data demonstrate that Rho kinase activation and the production of ROS contributes to the cooling-enhanced contraction in these cutaneous digital veins.
Publication Date: 2010-04-01 PubMed ID: 20360439DOI: 10.1152/japplphysiol.01301.2009Google Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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The research investigates how a decrease in environmental temperature affects the contractility of cutaneous digital veins in horses. The study suggests that Rho kinase activation and reactive oxygen species production plays a significant role in the increased contraction due to cold.
Research Context
- This study is built upon the existing understanding that environmental temperature reduction can directly influence the contractility (ability to contract) of cutaneous (skin-related) vasculature (blood vessels).
- Most research in this domain has focused on arteries, so this study attempts to shed light on the mechanisms at work in cutaneous veins. Specifically, the focus is on equine digital veins (EDVs) – the blood vessels in a horse’s foot.
- The researchers isolated EDVs and studied their responses to the alpha(2)-adrenoceptor agonist UK-14304 at two temperatures – 30°C and 22°C.
- They examined how inhibitors affected the veins’ contractile response to UK-14304, observing that the response varied based on temperature.
- It was found that cooling (lowering the temperature) resulted in increased response to UK-14304.
- This response was inhibited by Rho kinase inhibitors, pointing to an important role for Rho kinase in cooling-enhanced contractions.
- Western blotting showed that one of the downstream targets for Rho kinase activity, ezrin/radixin/moesin, was phosphorylated (activated) after cooling and reduced by one of the inhibitors.
- Protein kinase C also contributed to the contractile response, but mainly at 30°C, indicating that this protein’s role varies with temperature.
- Another key finding was the role of ROS in cooling-enhanced contractions. ROS levels seemed to impact the contractility response to UK-14304, with antioxidant substances reducing the response.
- The researchers concluded that both Rho kinase activation and ROS production play a crucial role in the cooling-enhanced contraction of cutaneous digital veins.
Experimental Details
Key Findings
Role of Reactive Oxygen Species (ROS)
Cite This Article
APA
Zerpa H, Berhane Y, Woodcock H, Elliott J, Bailey SR.
(2010).
Rho kinase activation and ROS production contributes to the cooling enhanced contraction in cutaneous equine digital veins.
J Appl Physiol (1985), 109(1), 11-18.
https://doi.org/10.1152/japplphysiol.01301.2009 Publication
Researcher Affiliations
- Department of Veterinary Basic Sciences, Royal Veterinary College, University of London, London, United Kingdom.
MeSH Terms
- 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine / analogs & derivatives
- 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine / pharmacology
- Adrenergic alpha-2 Receptor Agonists
- Adrenergic alpha-Agonists / pharmacology
- Amides / pharmacology
- Animals
- Antioxidants / pharmacology
- Benzophenanthridines / metabolism
- Body Temperature Regulation / physiology
- Brimonidine Tartrate
- Cold Temperature
- Cyclic N-Oxides / pharmacology
- Cytoskeletal Proteins / metabolism
- Cytoskeletal Proteins / physiology
- Female
- Horses / metabolism
- Horses / physiology
- Protein Kinase C / antagonists & inhibitors
- Protein Kinase C / metabolism
- Protein Kinase Inhibitors / pharmacology
- Pyridines / pharmacology
- Quinoxalines / pharmacology
- Reactive Oxygen Species / analysis
- Reactive Oxygen Species / metabolism
- Rotenone / pharmacology
- Spin Labels
- Vasoconstriction / physiology
- Vasodilator Agents / pharmacology
- Veins / drug effects
- Veins / enzymology
- Veins / physiology
- rho-Associated Kinases / metabolism
Citations
This article has been cited 2 times.- Wang HW, Chao PZ, Lee FP. Enhanced basal tension in isolated rat tracheal smooth muscle stimulated by electric field stimulation under low temperature.. Int J Med Sci 2018;15(14):1611-1615.
- Xu Q, Huff LP, Fujii M, Griendling KK. Redox regulation of the actin cytoskeleton and its role in the vascular system.. Free Radic Biol Med 2017 Aug;109:84-107.
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