Zhixuan Wu1, Duraippandi Palanimuthu1, Nady Braidy2,3, Nor Hawani Salikin4, Suhelen Egan4, Michael L H Huang1, Des R Richardson1,5. 1. Molecular Pharmacology and Pathology Program, Department of Pathology and Bosch Institute, The University of Sydney, Sydney, New South Wales, Australia. 2. Centre for Healthy Brain Ageing, School of Psychiatry, University of New South Wales, Sydney, Australia. 3. Schools of Medicine, Huzhou University, Huzhou Central Hospital, Huzhou, China. 4. School of Biological, Earth and Environmental Sciences, Centre for Marine Science and Innovation, University of New South Wales, Sydney, Australia. 5. Department of Pathology and Biological Responses, Nagoya University Graduate School of Medicine, Nagoya, Japan.
Abstract
BACKGROUND AND PURPOSE: Alzheimer's disease (AD) is a multifactorial condition leading to cognitive decline and represents a major global health challenge in ageing populations. The lack of effective AD therapeutics led us to develop multifunctional nicotinoyl hydrazones to target several pathological characteristics of AD. EXPERIMENTAL APPROACH: We synthesised 20 novel multifunctional agents based on the nicotinoyl hydrazone scaffold, which acts as a metal chelator and a lipophilic delivery vehicle, donating a NAD+ precursor to cells, to target metal dyshomeostasis, oxidative stress, β-amyloid (Aβ) aggregation, and a decrease in the NAD+ /NADH ratio. KEY RESULTS: The most promising compound, 6-methoxysalicylaldehyde nicotinoyl hydrazone (SNH6), demonstrated low cytotoxicity, potent iron (Fe)-chelation efficacy, significant inhibition of copper-mediated Aβ aggregation, oxidative stress alleviation, effective donation of NAD+ to NAD-dependent metabolic processes (PARP and sirtuin activity) and enhanced cellular NAD+ /NADH ratios, as well as significantly increased median Caenorhabditis elegans lifespan (to 1.46-fold of the control); partly decreased BACE1 expression, resulting in significantly lower soluble amyloid precursor protein-β (sAPPβ) and Aβ1-40 levels; and favourable blood-brain barrier-permeation properties. Structure-activity relationships demonstrated that the ability of these nicotinoyl hydrazones to increase NAD+ was dependent on the electron-withdrawing or electron-donating substituents on the aldehyde- or ketone-derived moiety. Aldehyde-derived hydrazones containing the ONO donor set and electron-donating groups were required for NAD+ donation and low cytotoxicity. CONCLUSIONS AND IMPLICATIONS: The nicotinoyl hydrazones, particularly SNH6, have the potential to act as multifunctional therapeutic agents and delivery vehicles for NAD+ precursors for AD treatment.
BACKGROUND AND PURPOSE: Alzheimer's disease (AD) is a multifactorial condition leading to cognitive decline and represents a major global health challenge in ageing populations. The lack of effective AD therapeutics led us to develop multifunctional nicotinoyl hydrazones to target several pathological characteristics of AD. EXPERIMENTAL APPROACH: We synthesised 20 novel multifunctional agents based on the nicotinoyl hydrazone scaffold, which acts as a metal chelator and a lipophilic delivery vehicle, donating a NAD+ precursor to cells, to target metal dyshomeostasis, oxidative stress, β-amyloid (Aβ) aggregation, and a decrease in the NAD+ /NADH ratio. KEY RESULTS: The most promising compound, 6-methoxysalicylaldehyde nicotinoyl hydrazone (SNH6), demonstrated low cytotoxicity, potent iron (Fe)-chelation efficacy, significant inhibition of copper-mediated Aβ aggregation, oxidative stress alleviation, effective donation of NAD+ to NAD-dependent metabolic processes (PARP and sirtuin activity) and enhanced cellular NAD+ /NADH ratios, as well as significantly increased median Caenorhabditis elegans lifespan (to 1.46-fold of the control); partly decreased BACE1 expression, resulting in significantly lower soluble amyloid precursor protein-β (sAPPβ) and Aβ1-40 levels; and favourable blood-brain barrier-permeation properties. Structure-activity relationships demonstrated that the ability of these nicotinoyl hydrazones to increase NAD+ was dependent on the electron-withdrawing or electron-donating substituents on the aldehyde- or ketone-derived moiety. Aldehyde-derived hydrazones containing the ONO donor set and electron-donating groups were required for NAD+ donation and low cytotoxicity. CONCLUSIONS AND IMPLICATIONS: The nicotinoyl hydrazones, particularly SNH6, have the potential to act as multifunctional therapeutic agents and delivery vehicles for NAD+ precursors for AD treatment.
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