Artigo

Biochemical adjustments to hypoxia by Amazon cichlids.

The isozyme distribution of cichlid lactate dehydrogenase (LDH) is related to species environmental preferences. Cichlasoma amazonarum occurs in different environments and presents LDH tissue distribution patterns that correlate with oxygen tension at the capture location. Cichlasoma amazonarum was...

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Autor principal: Almeida-Val, Vera Maria Fonseca
Outros Autores: Farias, Izeni P., Silva, M. N.P., Duncan, Wallice Luiz Paxiuba, Val, Adalberto Luis
Grau: Artigo
Idioma: English
Publicado em: Brazilian journal of medical and biological research = Revista brasileira de pesquisas médicas e biológicas / Sociedade Brasileira de Biofísica ... [et al.] 2020
Assuntos:
Isoenzyme
Lactate Dehydrogenase
Analysis Of Variance
Animals
Anoxia
Brain
Electrophoresis
Enzymology
Heart Muscle
Liver
Metabolism
Perch
Review
Muscle, Skeletal
Analysis Of Variance
Animal
Anoxia
Brain
Electrophoresis
Isoenzymes
L-lactate Dehydrogenase
Liver
Muscle, Skeletal
Myocardium
Perches
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/19432
Resumo:
The isozyme distribution of cichlid lactate dehydrogenase (LDH) is related to species environmental preferences. Cichlasoma amazonarum occurs in different environments and presents LDH tissue distribution patterns that correlate with oxygen tension at the capture location. Cichlasoma amazonarum was exposed to long-term severe hypoxia (51 days at 36.4 +/- 5.9 mmHg), tissue LDH isozyme distribution was analyzed by electrophoresis and enzyme activities were measured by monitoring the oxidation of NADH as pyruvate was reduced to lactate. The exposure of Cichlasoma amazonarum to long-term severe hypoxia resulted in changes in the tissue distribution of LDH isozymes. The major changes in response to hypoxia occurred in heart, liver and brain: isozyme A4 was activated in heart and brain, whereas isozyme B4 was activated in liver. The most significant quantitative change occurred in brain LDH of hypoxia-exposed animals which adopted muscle type kinetics, reflecting a new LDH isozyme distribution. LDH activity was significantly reduced (P < 0.05) in animals exposed to hypoxia (N = 8), suggesting an overall LDH suppression. Pyruvate inhibition decreased in all hypoxia-exposed tissues. Thus, the ability of Cichlasoma amazonarum to regulate LDH tissue expression according to oxygen availability allows the animal to survive chronic hypoxic environments. This phenotypic plasticity may occur in other hypoxia-tolerant fish species.

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