MPP+ Toxicity and Plasma Membrane Dopamine Transporter: Study Using Cell Lines Expressing the Wild-type and Mutant Rat Dopamine Transporters

Overview

Journal Biochim Biophys Acta

Specialties Biochemistry
Biophysics

Date 1998 Sep 18

PMID 9739158

Citations 14

Authors

S Kitayama

C Mitsuhata

S Davis

J B Wang

T Sato

K Morita

G R Uhl

T Dohi

Affiliations

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Abstract

The Parkinsonism-inducing neurotoxin 1-methyl-4-phenylpyridinium (MPP+) causes specific cell death in dopaminergic neurons after accumulation by the dopamine transporter (DAT). COS cells, a non-neuronal cell line insensitive to high doses of MPP+, becomes sensitive to MPP+ when transfected with the rat DAT cDNA. We analyzed the bi-directional transport of MPP+ and its toxicity in several cell lines expressing wild or mutant DATs. Cell death in COS cells expressing wild DAT by exposure to MPP+ was concentration-dependent and cocaine-reversible. Increased wild DAT expression caused higher sensitivities to the toxin in HeLa cells. Although several mutant DATs demonstrated greater transport activity than the wild-type, they displayed similar or lower sensitivity to MPP+ toxicity. Reverse transport of preloaded [3H]MPP+ through DAT was facilitated in COS cells expressing certain mutant DATs, which consistently displayed less sensitivity to MPP+ toxicity. These results suggest that re-distribution of MPP+ due to influx/efflux turnover through the transporter is a key factor in MPP+ toxicity.

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