A Moderate Metal-binding Hydrazone Meets the Criteria for a Bioinorganic Approach Towards Parkinson's Disease: Therapeutic Potential, Blood-brain Barrier Crossing Evaluation and Preliminary Toxicological Studies

Overview

Journal J Inorg Biochem

Specialty Biochemistry

Date 2017 Mar 2

PMID 28249224

Citations 16

Authors

Daphne Schneider Cukierman

Ana Beatriz Pinheiro

Sergio L P Castineiras-Filho

Anastacia Sa P da Silva

Marco C Miotto

Anna De Falco

Thales de P Ribeiro

Silvia Maisonette

Alessandra L M C da Cunha

Rachel A Hauser-Davis

J Landeira-Fernandez

Ricardo Q Aucelio

Tiago F Outeiro

Marcos D Pereira

Claudio O Fernandez

Nicolas A Rey

Affiliations

Soon will be listed here.

Abstract

Alzheimer's and Parkinson's diseases share similar amyloidogenic mechanisms, in which metal ions might play an important role. In this last neuropathy, misfolding and aggregation of α-synuclein (α-Syn) are crucial pathological events. A moderate metal-binding compound, namely, 8-hydroxyquinoline-2-carboxaldehyde isonicotinoyl hydrazone (INHHQ), which was previously reported as a potential 'Metal-Protein Attenuating Compound' for Alzheimer's treatment, is well-tolerated by healthy Wistar rats and does not alter their major organ weights, as well as the tissues' reduced glutathione and biometal levels, at a concentration of 200mgkg. INHHQ definitively crosses the blood-brain barrier and can be detected in the brain of rats so late as 24h after intraperitoneal administration. After 48h, brain clearance is complete. INHHQ is able to disrupt, in vitro, anomalous copper-α-Syn interactions, through a mechanism probably involving metal ions sequestering. This compound is non-toxic to H4 (human neuroglioma) cells and partially inhibits intracellular α-Syn oligomerization. INHHQ, thus, shows definite potential as a therapeutic agent against Parkinson's as well.

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