The enzymatic activity of malate dehydrogenase (MDH) and its isoforms may vary in fishes according their living environment. The aim of this work was to investigate the activity of MDH in the muscle tissue of Astyanax bimaculatus (locally called as lambari do rabo amarelo), collected at three different points (P1, P2 and P3) in the Una River Basin (Taubaté, SP), to evaluate it as a candidate biomarker for environmental change. Cytosolic and mitochondrial isoforms of MDH were extracted from muscles. The results indicated that the total enzyme activity was 1.8 and 2.5 times higher in A. bimaculaus at P2, in comparison to specimens collected at P1 and P3, respectively. Seven MDH isoforms were detected in the muscle tissue (MDH-1 to MDH-7). MDH-1 levels of specimens collected at P3 were 1.9 and 2.4 times higher than those from P1 and P2, respectively. However, the levels of MDH-5, -6 and -7 of P3 specimens were significantly lower than P1 ones. These results are possibly related to water quality, considering that P3 is the most polluted among the three sampling sites. The muscle MDH activity of A. bimaculatus was modulated by the environment. Therefore, it can be concluded that this enzyme could be used as a biomarker of environmental change of the hydrographic basin of a neotropical region, where this species occurs.
The Una River and its basin constitute an important water source for public supply in the municipality of Taubaté (SP, Brazil). The present work aimed to investigate biochemical markers of environmental pollution in the Una river basin using enzymes extracted from the kidneys, gills and brains of Astyanax bimaculatus, a fish commonly found in this basin. Tissue levels of superoxide dismutase (SOD), catalase (CAT), malate dehydrogenase (MDH), lactate dehydrogenase (LDH) and acetylcholinesterase (AChE) were determined in tissues of A. bimaculatus collected in water bodies localized at Fazenda Piloto of the University of Taubaté (P1), the Remédios municipal road (P2) and at a small lake near the neighborhood of Ipiranga (P3), all located in the municipality of Taubaté. The lowest activities of renal and gill SOD were found in fish collected from P2 and P3, respectively. Renal and branchial CAT, renal MDH and LDH, as well as the activity of cerebral LDH were not affected by collection site. The activities of brain MDH and AChE were higher in fish from P3 in comparison with P1. These results along with earlier published findings, indicate that the hepatic SOD and CAT, gill SOD and LDH, muscle MDH and brain MDH and AChE are sensitive to contamination in the environment and hence can be considered as good candidate biomarkers of environmental change in the Una River basin. Enzimas dos tecidos renal, branquial e cerebral deAstyanax bimaculatus (lambari) como biomarcadoras do impacto ambiental na Bacia Hidrográfica do Rio Una RESUMO O rio Una e sua bacia hidrográfica constituem importante fonte de água para o Rev. Ambient. Água vol. 7 (supplement) -Taubaté 2019Palavras-chave: biomarcador, enzimas, poluição da água.
The activity of certain isozymes may serve as biomarkers of specific physiological conditions of living organisms. The present work aimed to evaluate malate dehydrogenase (MDH) and lactate dehydrogenase (LDH) isozymes from the hepatic, branchial and renal tissues of the fish Astyanax bimaculatus as biochemical markers of environmental changes in the Una River Basin (Taubaté, SP, Brazil). For this study, the specimens were collected in water bodies located in three sampling sites of the basin, called P1 (Itaim stream), P2 (a stream along the Remédios municipal road) and P3 (a small lake near the Dr. José Luiz Cembranelli municipal road). Physicochemical analysis of the water from these sites indicated that P1 was the less polluted site, P2 presented high levels of electrolytes in water, and P3 presented the worst water quality among the sampling sites. The isoenzymes were separated by native-PAGE and identified by their activity on the polyacrylamide gel. The results indicated that four isozymes of MDH occur in the liver of these fish, and the activities of MDH-1 and MDH-4 were detected only in fish from P2, suggesting that these isoforms have potential as biomarkers of the presence of high levels of electrolytes in water. In the kidney, MDH-1 was detected in fish from P2 and P3, but it was not detected in those from P1, suggesting that the presence of this isozyme may be a biomarker of low-quality water. The gill MDH and LDH isozyme profiles of all tissues examined showed some similarities between individuals from the three collection sites, indicating that they are not suitable as biomarkers of the environmental conditions of these sites.
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