New mescaline-related N-acylhydrazone and its unsubstituted benzoyl derivative: Promising metallophores for copper-associated deleterious effects relief in Alzheimer's disease.

Alzheimer's disease (AD) is related to the presence of extracellular aggregated amyloid-ß peptide (Aß), which binds copper(II) with high affinity in its N-terminal region. In this sense, two new 1-methylimidazole-containing N-acylhydrazonic metallophores, namely, X1TMP and X1Benz, were synthesized as hydrochlorides and characterized. The compound X1TMP contains the 3,4,5-trimethoxybenzoyl moiety present in the structure of mescaline, a natural hallucinogenic protoalkaloid that occurs in some species of cacti. Single crystals of X1Benz, the unsubstituted derivative of X1TMP, were obtained. The experimental partition coefficients of both compounds were determined, as well as their apparent affinity for Cu2+ in aqueous solution. Ascorbate consumption assays showed that these N-acylhydrazones are able to lessen the production of ROS by the Cu(Aß)-system, and a short-time scale aggregation study, measured through turbidity and confirmed by TEM images, revealed their capacity in preventing Aß fibrillation at equimolar conditions in the presence and absence of copper. 1H15N HSQC NMR experiments demonstrated a direct interaction between Aß and X1Benz, the most soluble of the compounds. The Cu2+ sequestering potential of this hydrazone towards Aß was explored by 1H NMR. Although increasing amounts of X1Benz were unexpectedly not efficient at removing the metal-induced perturbations in Aß backbone amides, the broadening effects observed on the compound's signals indicate the formation of a ternary Aß­copper-X1Benz species, which can be responsible for the observed ROS-lessening and aggregation-preventing activities. Overall, the N-acylhydrazones X1TMP and X1Benz have shown promising prospects as agents for the treatment of AD.

In vitro neurotoxicity of salsolinol is attenuated by the presynaptic protein α-synuclein.

BACKGROUND: Salsolinol (SALSO), a product from the reaction of dopamine (DA) with acetaldehyde, is found increased in dopaminergic neurons of Parkinson's disease (PD) patients. The administration of SALSO in rats causes myenteric neurodegeneration followed by the formation of deposits of the protein α-synuclein (aS), whose aggregation is intimately associated to PD. METHODS: NMR, isothermal titration calorimetry and MS were used to evaluate the interaction of SALSO with aS. The toxicity of SALSO and in vitro-produced aS-SALSO species was evaluated on mesencephalic primary neurons from mice. RESULTS: SALSO, under oxidative conditions, stabilizes the monomeric state besides a minor population of oligomers of aS, resulting in a strong inhibition of the fibrillation process. SALSO does not promote any chemical modification of the protein. Instead, the interaction of SALSO with aS seems to occur via hydrophobic effect, likely mediated by the NAC (non-amyloid component) domain of the protein. aS-SALSO species were found to be innocuous on primary neurons, while SALSO alone induces apoptosis via caspase-3 activation. Importantly, exogenous aS monomer was capable of protecting neurons against SALSO toxicity irrespective whether the protein was co-administered with SALSO or added until 2 h after SALSO, as evidenced by DAPI and cleaved-caspase 3 assays. Similar protective action of aS was found by pre-incubating neurons with aS before the administration of SALSO. CONCLUSIONS: Interaction of SALSO with aS leads to the formation of fibril-incompetent and innocuous adducts. SALSO toxicity is attenuated by aS monomer. SIGNIFICANCE: aS could exhibit a protective role against the neurotoxic effects of SALSO in dopaminergic neuron.