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Nippostrongylus brasiliensis: the effect of mitochondnal inhibitors on life-cycle stages

Published online by Cambridge University Press:  06 April 2009

M. Fry  and
D. C. Jenkins
M. Fry
Affiliation:
Wellcome Research Laboratories, Department of Biochemical Parasitology, Langley Court, Beckenham, Kent BR3 3BS
D. C. Jenkins
Affiliation:
Wellcome Research Laboratories, Department of Biochemical Parasitology, Langley Court, Beckenham, Kent BR3 3BS
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Summary

The effects of mitochondrial inhibitors on the in vitro development of Nippostrongylus brasiliensis have been studied in free-living and parasitic life-cycle stages. Mitochondrial inhibitors were chosen as being representative of established electron transport inhibitors and oxidative phosphorylation inhibitors and uncouplers of the classical mammalian respiratory chain. All mitochondrial inhibitors tested were highly effective in killing or retarding development of free-living stages of N. brasiliensis. Free-living stages were particularly susceptible to such inhibitors upon hatching of embryonated eggs to 1st-stage larvae. Concentrations of inhibitors effective against free-living stages were consistent with their level of inhibition against isolated mitochondria from embryonated eggs and 3rd-stage infective larvae. Results suggest an absolute requirement in the development of free-living stages for the mammalian-like respiratory chain and associated oxidative phosphorylation. Electron transport inhibitors were effective in retarding at least the initial development of 4th-stage larvae to adults, but only antimycin A and azide produced a lasting effect leading to worm death. Oxidative phosphorylation inhibitors and uncouplers were ineffective against developing parasitic stages of N. brasiliensis. Experiments on whole-worm respiration indicated that most electron transport inhibitors were able to penetrate the adult worm, but oxidative phosphorylation inhibitors were without effect on whole-worm respiration. Results suggest that the mammalian-like electron transport chain is a necessary requirement to adult N. brasiliensis, but oxidative phosphorylation in the adult worm may not be required for development and survival in vitro although it could be necessary to support the parasite in vivo.

Type
Research Article
Information
Parasitology , Volume 88 , Issue 1 , February 1984 , pp. 163 - 177
Copyright
Copyright © Cambridge University Press 1984

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References

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