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热带气呼吸鱼类在暴露于高浓度环境氨时对氨毒性的防御机制:综述

Defences against ammonia toxicity in tropical air-breathing fishes exposed to high concentrations of environmental ammonia: a review.

作者信息

Ip Y K, Chew S F, Wilson J M, Randall D J

机构信息

Department of Biological Sciences, National University of Singapore, 10 Kent Ridge Road, 117543 Singapore, Republic of Singapore.

出版信息

J Comp Physiol B. 2004 Oct;174(7):565-75. doi: 10.1007/s00360-004-0445-1. Epub 2004 Aug 17.

DOI:10.1007/s00360-004-0445-1
PMID:15316728
Abstract

In the tropics, air-breathing fishes can be exposed to environmental ammonia when stranded in puddles of water during the dry season, during a stay inside a burrow, or after agricultural fertilization. At low concentrations of environmental ammonia, NH(3) excretion is impeded, as in aerial exposure, leading to the accumulation of endogenous ammonia. At high concentrations of environmental ammonia, which results in a reversed NH(3) partial pressure gradient (DeltaP(NH3)), there is retention of endogenous ammonia and uptake of exogenous ammonia. In this review, several tropical air-breathing fishes (giant mudskipper, African catfish, oriental weatherloach, swamp eel, four-eyed sleeper, abehaze and slender African lungfish), which can tolerate high environmental ammonia exposure, are used as examples to demonstrate how eight different adaptations can be involved in defence against ammonia toxicity. Four of these adaptations deal with ammonia toxicity at branchial and/or epithelial surfaces: (1) active excretion of NH(4)(+); (2) lowering of environmental pH; (3) low NH(3) permeability of epithelial surfaces; and (4) volatilization of NH(3), while another four adaptations ameliorate ammonia toxicity at the cellular and subcellular levels: (5) high tolerance of ammonia at the cellular and subcellular levels; (6) reduction in ammonia production; (7) glutamine synthesis; and (8) urea synthesis. The responses of tropical air-breathing fishes to high environmental ammonia are determined apparently by behavioural adaptations and the nature of their natural environments.

摘要

在热带地区,当在旱季被困于水坑中、待在洞穴内或农业施肥后,用鳃呼吸的鱼类可能会接触到环境氨。在环境氨浓度较低时,如在空气中暴露,氨的排泄会受到阻碍,导致内源性氨的积累。在环境氨浓度较高时,这会导致氨的分压梯度(ΔP(NH3))逆转,此时会保留内源性氨并吸收外源性氨。在本综述中,几种能够耐受高环境氨暴露的热带用鳃呼吸的鱼类(弹涂鱼、非洲鲶鱼、东方泥螈、黄鳝、四眼睡鱼、阿贝哈泽鱼和细非洲肺鱼)被用作例子,以展示八种不同的适应性如何参与抵御氨毒性。其中四种适应性涉及鳃和/或上皮表面的氨毒性:(1)铵离子(NH4(+))的主动排泄;(2)降低环境pH值;(3)上皮表面对氨的低渗透性;以及(4)氨的挥发,而另外四种适应性在细胞和亚细胞水平上减轻氨毒性:(5)细胞和亚细胞水平对氨的高耐受性;(6)氨产生的减少;(7)谷氨酰胺合成;以及(8)尿素合成。热带用鳃呼吸的鱼类对高环境氨的反应显然由行为适应性及其自然环境的性质决定。

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