NO , CO and H 2 S: What about gasotransmitters in fish and amphibian heart?

Abstract The gasotransmitters nitric oxide ( NO ), carbon monoxide ( CO ), and hydrogen sulphide (H 2 S), long considered only toxicant, are produced in vivo during the catabolism of common biological molecules and are crucial for a large variety of physiological processes. Mounting evidence is emerging that in poikilotherm vertebrates, as in mammals, they modulate the basal performance of the heart and the response to stress challenges. In this review, we will focus on teleost fish and amphibians to highlight the evolutionary importance in vertebrates of the cardiac control elicited by NO , CO and H 2 S, and the conservation of the intracellular cascades they activate. Although many gaps are still present due to discontinuous information, we will use examples obtained by studies from our and other laboratories to illustrate the complexity of the mechanisms that, by involving gasotransmitters, allow beat‐to‐beat, short‐, medium‐ and long‐term cardiac homoeostasis. By presenting the latest data, we will also provide a framework in which the peculiar morpho‐functional arrangement of the teleost and amphibian heart can be considered as a reference tool to decipher cardiac regulatory networks which are difficult to explore using more conventional vertebrates, such as mammals.