Abstract
Previous studies performed in intertidal fish (Girella laevifrons),as well as marine fish (Isacia conceptionis), showed that acetylcholine (ACh) produced contractions mediated by cyclooxygenases that were dependent on the area and potency of contraction in several arterial vessels. Given that the role of nitric oxide is poorly understood in fish, the objective of our study was to evaluate the role of nitric oxide in branchial afferent (ABA), branchial efferent (ABE), dorsal (DA) and mesenteric (MA) arterial vessels from both Girella laevifrons and Isacia conceptionis. We studied afferent and efferent branchial, dorsal and mesenteric arteries that were dissected from 6 juvenile specimens. Isometric tension studies were done using dose response curves (DRC) for Ach (10-13 to 10-3 M) and blockade with L-NAME (10-5 M), and DRC for sodium nitroprusside (SNP, a donor of NO). L-NAME produced an attenuation of the contractile response in the dorsal, afferent and efferent branchial arteries and a potentiation of the contraction in the MA. SNP caused 70% dilation in the mesenteric artery and 40% in the dorsal artery. Our results suggest that Ach promotes precarious dilatation in MA mediated by NO; data that is supported by the use of sodium nitroprusside. In contrast, in the vessels DA, ABA and EBA our results support that the pathway Ach-NO-relaxation is absent in both species.
Highlights
ObjectivesGiven that the role of nitric oxide is poorly understood in fish, the objective of our study was to evaluate the role of nitric oxide in branchial afferent (ABA), branchial efferent (ABE), dorsal (DA) and mesenteric (MA) arterial vessels from both Girella laevifrons and Isacia conceptionis
Physiological barriers are important determinants for the distribution limits of species and populations
We studied the same vessels in I. conceptionis that were studied in G. laevifrons and observed that the acetylcholine response displayed a pattern of high sensitivity only in the afferent branchial artery and low sensitivity in the dorsal, mesenteric, and efferent branchial arteries (Moraga and Urriola-Urriola, 2015)
Summary
Given that the role of nitric oxide is poorly understood in fish, the objective of our study was to evaluate the role of nitric oxide in branchial afferent (ABA), branchial efferent (ABE), dorsal (DA) and mesenteric (MA) arterial vessels from both Girella laevifrons and Isacia conceptionis. Our objective was to evaluate the role of the acetylcholine‐NO pathway by blockade with L-NAME, and the dilator role of NO using sodium nitroprusside (NO donor) in the arterial vessel of dorsal, mesenteric, branchial afferent and branchial efferent arteries from the intertidal fish G. laevifrons and marine fish I. conceptionis
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