The FMRFamide-Related Peptides F1 and F2 Alter Hemolymph Distribution and Cardiac Output in the Crab Cancer magister

The FMRFamide-related peptides F1 and F2, originally isolated from lobster pericardial organs, have been shown to exert cardioexcitatory effects on isolated or semi-isolated crustacean hearts. The present study sought to determine the in vivo effects of F1 and F2 on cardiac and circulatory performan...

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Bibliographic Details
Published in:The Biological bulletin (Lancaster) 1995-04, Vol.188 (2), p.186-196
Main Authors: McGaw, I. J., McMahon, B. R.
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Aorta
Arteries
Biology
Brachyura - drug effects
Cancer magister
Cardiac Output - drug effects
Cardiac output determination
Circulatory system
Crabs
Decapoda
Dungeness crab
Heart
Heart rate
Heart Rate - drug effects
Hemolymph
Hemolymph - drug effects
Hepatic artery
Invertebrate Hormones - pharmacology
Lobsters
Male
Marine
Molecular Sequence Data
Neuropeptides - pharmacology
Peptides
Physiological aspects
Physiology
Regional Blood Flow - drug effects
Shellfish
Stroke volume
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Summary:The FMRFamide-related peptides F1 and F2, originally isolated from lobster pericardial organs, have been shown to exert cardioexcitatory effects on isolated or semi-isolated crustacean hearts. The present study sought to determine the in vivo effects of F1 and F2 on cardiac and circulatory performance of Cancer magister using a pulsed-Doppler technique. In general the effects of F1 and F2 were similar; however, F1 was more potent and its effects were of longer duration than those exerted by F2. Infusion of either F1 or F2 caused a decrease in heart rate and subsequent periods of acardia. These decreases in rate occurred concurrently with a short-term increase in stroke volume of the heart, followed by a longer-term decrease in stroke volume. Hemolymph flow rates through the anterior aorta, anterolateral arteries, sternal artery, and posterior aorta also showed the same trend, with an initial short-term increase in flow rate followed by a longer-term decrease with periods of ischemia. Hemolymph flow through the paired hepatic arteries simply decreased, but recovery to pretreatment levels was faster than in the other arterial systems. Threshold for these responses occurred at circulating concentrations between 10-9 mol· l-1 and 10-8 mol· l-1 for F1 and somewhat higher, between 10-8 mol· l-1 and 10-7 mol· l-1, for F2.
ISSN:0006-3185
1939-8697
DOI:10.2307/1542084