Acute and chronic cold exposure differentially affect cardiac control, but not cardiorespiratory function, in resting Atlantic salmon (Salmo salar)

IF 2.1 Q3 PHYSIOLOGY

Current research in physiology Pub Date : 2022-01-01 DOI:10.1016/j.crphys.2022.03.002

E.S. Porter, K.A. Clow, R.M. Sandrelli, A.K. Gamperl

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引用次数: 3

Abstract

No studies have examined the effects of cold temperatures (∼0–1 °C) on in vivo cardiac function and control, and metabolism, in salmonids. Thus, we examined: 1) how acclimation to 8 °C vs. acclimation (>3 weeks) or acute exposure (8-1 °C at 1 °C h⁻¹) to 1 °C influenced cardiorespiratory parameters in resting Atlantic salmon; and 2) if/how the control of cardiac function was affected. Oxygen consumption ( $\dot{M} O_{2}$ ) and cardiac function [i.e., heart rate (f_H) and cardiac output ( $\dot{Q})$ ] were 50% lower in the acutely cooled and 1^oC-acclimated salmon as compared to 8 °C fish, whereas stroke volume (V_S) was unchanged. Intrinsic f_H was not affected by whether the fish were acutely exposed or acclimated to 1 °C (values ∼51, 24 and 21 beats min⁻¹ in 8 and 1 °C-acclimated fish, and 8-1 °C fish, respectively), and in all groups f_H was primarily under adrenergic control/tone (cholinergic tone 13–18%; adrenergic tone 37–70%). However, β-adrenergic blockade resulted in a 50% increase in V_S in the 1^oC-acclimated group, and this was surprising as circulating catecholamine levels were ∼1–3 nM in all groups. Overall, the data suggest that this species has a limited capacity to acclimate to temperatures approaching 0 °C. However, we cannot exclude the possibility that cardiac and metabolic responses are evoked when salmon are cooled to ∼ 0–1 °C, and that this prevented further declines in these parameters (i.e., they ‘reset’ quickly). Our data also provide further evidence that V_S is temperature insensitive, and strongly suggest that changes in adrenoreceptor mediated control of venous pressure/capacitance occur when salmon are acclimated to 1 °C.

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在静息的大西洋鲑鱼(Salmo salar)中，急性和慢性冷暴露对心脏控制的影响不同，但对心肺功能没有影响。

目前还没有研究考察低温(~ 0-1°C)对鲑鱼体内心脏功能和控制以及代谢的影响。因此，我们研究了:1)适应8°C与适应(>3周)或急性暴露(8-1°C, 1°C h -1) 1°C对静息大西洋鲑鱼心肺参数的影响;2)是否/如何影响心功能的控制。与8°C的鲑鱼相比，急性降温和适应10°C的鲑鱼的耗氧量(M˙O2)和心功能(即心率(fH)和心输出量(Q˙))降低了50%，而中风量(VS)不变。内在fH不受鱼是否急性暴露或适应1°C的影响(8°C和1°C的鱼和8-1°C的鱼的值分别为~ 51、24和21次min -1)，并且在所有组中，fH主要受肾上腺素能控制/张力(胆碱能张力13-18%;肾上腺素能调37-70%)。然而，β-肾上腺素能阻断导致10oc驯化组的VS增加50%，这是令人惊讶的，因为所有组的循环儿茶酚胺水平都在1-3 nM。总体而言，数据表明该物种适应接近0°C的温度的能力有限。然而，我们不能排除当鲑鱼被冷却到~ 0-1°C时引起心脏和代谢反应的可能性，并且这阻止了这些参数的进一步下降(即它们“重置”得很快)。我们的数据还提供了进一步的证据，证明鲑鱼对温度不敏感，并强烈建议当鲑鱼适应1°C时，肾上腺素受体介导的静脉压/电容控制发生变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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