UC San Diego

The shortfin mako sharks ( Isurus oxyrinchus) belongs to the family Lamnidae, which is a group of high performance regional endothermic elasmobranch fishes that has metabolic rates (47.4±8 ml/kg/min) higher than ectothermic elasmobranchs, and also rivals that of mammals. As in all elasmobranchs, the mako sharks do not possess direct cardiac sympathetic innervation to elevate cardiac performance, but it still retains an ancient design of a capacious semi-rigid pericardium (5.4±0.6 ml/kg) likely to accommodate its large atrial diastolic volume. This study test the hypothesis that the increase in cardiac output in the mako is influenced by a strong positive lusitrophic effect that serves to increase stroke volume, which in turn invokes the Frank-Starling’s effects. The objectives is to show differences in the physiology and biochemical properties between mako (Is) and an ectothermic blue shark ( Prioance glauca, Pg), both are oceanic species and share similar life history. Echocardiography showed a higher early to late filling velocity ratio (p=0.036) in the Is (0.92±0.16, [n=15]) than in Pg (0.45±0.04, [9]). The early time velocity integral is also greater in Is (8.8±2.4 cm, [15]) vs Pg (6.8±0.8 cm [9]) indicating a stronger conduit filling imparted by the energy from previous systole in Is. However, basal cAMP (Is: 31±12 [7] vs Pg: 31±1 [3] fmol/min/μg) and stimulated cAMP with isoproterenol+GTPγS (Is: 65±21 [7] vs Pg: 59±7 [3] fmol/min/μg) activity are similar in both groups. This suggests that the differences in ventricular contractility are not through the classic adrenergic signaling pathway involving adenylyl cyclases, but likely through the mechanical stretching of the myofibrils from diastole. Caveolin distribution of the ventricular tissues following sucrose density gradient shows a higher degree of Caveolin-1/3 in the buoyant fraction and little in the in the heavy fraction in both shark species indicating an absence of t-tubules. However, Is shows a remarkably high amount of buoyant Cav-1/3 fraction compared to Pg. We posit that the high fraction abundance of Cav-1/3 provides a gateway for corticotropin-releasing factor, such as urotensin I or possibly an ancestral precursor of urocortin, which has been shown to elevate heart function in mammals. The study is supported by NSF IBN93-16621. No disclosure. This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.