INTRODUCTION: In search for a suitable rat model to study potentially affected blood-brain barrier (BBB) transport mechanisms in the course of Parkinsons disease (PD) progression, experiments were performed to characterise Parkinsons disease markers following subcutaneous (SC) and intracerebral (IC) infusion of the toxin rotenone in the rat. METHODS: Studies were performed using Male Lewis rats. SC infusion of rotenone (3 mg/kg/day) was performed via an osmotic minipump. IC infusion of rotenone occurred directly into the right medial forebrain bundle at three different dosages. At different times following rotenone infusion, behaviour, histopathology (tyrosine hydroxylase and alpha-synuclein immunocytochemistry), peripheral organ pathology (adrenals, heart, kidney, liver, lung, spleen and stomach) were assessed. In part of the SC and IC rats, BBB transport profiles of the permeability marker sodium fluorescein were determined using microdialysis. RESULTS: SC rotenone failed to produce dopaminergic lesions and led to extensive peripheral organ toxicity. BBB permeability for fluorescein following SC rotenone was changed, however due peripheral toxicity. In contrast, IC rotenone produced a progressive lesion of the nigrostrial dopaminergic pathway over 28 days with no associated peripheral toxicity. IC rotenone also exhibited a large increase in amphetamine induced rotational behaviour. In addition, a few IC rats showed alpha-synuclein immunoreactivity and aggregation. Following IC rotenone, no changes in BBB permeability were detected after 14 days. DISCUSSION: SC rotenone only produced peripheral toxicity. IC rotenone appeared to create a progressive lesion of the rat nigrostrial pathway, and may therefore be a more appropriate model of Parkinson's disease progression, compared with the most commonly used 6-OH-DA rat model.
INTRODUCTION: In search for a suitable rat model to study potentially affected blood-brain barrier (BBB) transport mechanisms in the course of Parkinsons disease (PD) progression, experiments were performed to characterise Parkinsons disease markers following subcutaneous (SC) and intracerebral (IC) infusion of the toxin rotenone in the rat. METHODS: Studies were performed using Male Lewis rats. SC infusion of rotenone (3 mg/kg/day) was performed via an osmotic minipump. IC infusion of rotenone occurred directly into the right medial forebrain bundle at three different dosages. At different times following rotenone infusion, behaviour, histopathology (tyrosine hydroxylase and alpha-synuclein immunocytochemistry), peripheral organ pathology (adrenals, heart, kidney, liver, lung, spleen and stomach) were assessed. In part of the SC and IC rats, BBB transport profiles of the permeability marker sodium fluorescein were determined using microdialysis. RESULTS: SC rotenone failed to produce dopaminergic lesions and led to extensive peripheral organ toxicity. BBB permeability for fluorescein following SC rotenone was changed, however due peripheral toxicity. In contrast, IC rotenone produced a progressive lesion of the nigrostrial dopaminergic pathway over 28 days with no associated peripheral toxicity. IC rotenone also exhibited a large increase in amphetamine induced rotational behaviour. In addition, a few IC rats showed alpha-synuclein immunoreactivity and aggregation. Following IC rotenone, no changes in BBB permeability were detected after 14 days. DISCUSSION: SC rotenone only produced peripheral toxicity. IC rotenone appeared to create a progressive lesion of the rat nigrostrial pathway, and may therefore be a more appropriate model of Parkinson's disease progression, compared with the most commonly used 6-OH-DArat model.
Authors: Camila G Moreira; Janaína K Barbiero; Deborah Ariza; Patrícia A Dombrowski; Pamela Sabioni; Mariza Bortolanza; Claudio Da Cunha; Maria A B F Vital; Marcelo M S Lima Journal: Neurotox Res Date: 2011-09-28 Impact factor: 3.911
Authors: Paulien Gm Ravenstijn; Henk-Jan Drenth; Michael J O'Neill; Meindert Danhof; Elizabeth Cm de Lange Journal: Fluids Barriers CNS Date: 2012-02-08