The effect of sublethal concentrations of potassium dichromate and fenitrothion on sodium-leucine cotransport in brush border membrane vesicles from Chironomus riparius larvae has been investigated. Exposure to potassium dichromate and fenitrothion caused a dose- and time-dependent inhibition of leucine uptake. Transport inhibition is easily detectable at doses 100-fold lower than LD50. Kinetic experiments showed that inhibition was mainly caused by a decrease of the Vmax (680 ± 53 vs. 382 ± 23 and 555 ± 27 nmol/15s/mg protein in control and exposed larvae to K2Cr2O7 and fenitrothion, respectively). Inhibition is possibly related to a variation of sodium ions permeability as evidenced by increased membrane lipid peroxidation. Appropriate control experiments ruled out that the observed differences could be due to changes in general features of membrane preparations. Transport inhibition observed in larvae exposed to potassium dichromate was accompanied by changes in ascorbate peroxidase and dehydroascorbate reductase activities, whereas those exposed to fenitrothion displayed an increase in transaminase activity. The possible value of leucine uptake as biochemical biomarker is briefly discussed.

Forcella, M., Berra, E., Giacchini, R., Hanozet, G., Parenti, P. (2004). Changes in leucine transport activity in Chironomus riparius larvae after short-term exposure to potassium dichromate and fenitrothion. ARCHIVES OF INSECT BIOCHEMISTRY AND PHYSIOLOGY, 55(2), 90-101 [10.1002/arch.10127].

Changes in leucine transport activity in Chironomus riparius larvae after short-term exposure to potassium dichromate and fenitrothion

FORCELLA, MATILDE EMMA;GIACCHINI, ROBERTO;PARENTI, PAOLO
2004

Abstract

The effect of sublethal concentrations of potassium dichromate and fenitrothion on sodium-leucine cotransport in brush border membrane vesicles from Chironomus riparius larvae has been investigated. Exposure to potassium dichromate and fenitrothion caused a dose- and time-dependent inhibition of leucine uptake. Transport inhibition is easily detectable at doses 100-fold lower than LD50. Kinetic experiments showed that inhibition was mainly caused by a decrease of the Vmax (680 ± 53 vs. 382 ± 23 and 555 ± 27 nmol/15s/mg protein in control and exposed larvae to K2Cr2O7 and fenitrothion, respectively). Inhibition is possibly related to a variation of sodium ions permeability as evidenced by increased membrane lipid peroxidation. Appropriate control experiments ruled out that the observed differences could be due to changes in general features of membrane preparations. Transport inhibition observed in larvae exposed to potassium dichromate was accompanied by changes in ascorbate peroxidase and dehydroascorbate reductase activities, whereas those exposed to fenitrothion displayed an increase in transaminase activity. The possible value of leucine uptake as biochemical biomarker is briefly discussed.
Articolo in rivista - Articolo scientifico
leucine transport; potassium dichromate; fenitrothion; Chironomus riparius; midges; biomarkers
English
2004
55
2
90
101
none
Forcella, M., Berra, E., Giacchini, R., Hanozet, G., Parenti, P. (2004). Changes in leucine transport activity in Chironomus riparius larvae after short-term exposure to potassium dichromate and fenitrothion. ARCHIVES OF INSECT BIOCHEMISTRY AND PHYSIOLOGY, 55(2), 90-101 [10.1002/arch.10127].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/829
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