by Keyword: neurotransmitters
Molina, BG, Arnau, M, Sánchez, M, Alemán, C, (2024). Controlled dopamine release from cellulose-based conducting hydrogel European Polymer Journal 202, 112635
Very recently, the controlled release of dopamine (DA), a neurotransmitter whose deficiency is associated with Parkinson's disease, has been postulated as a good alternative to the oral administration of levodopa (L-Dopa), a dopamine precursor, to combat the effects of said disease. However, this is still a very little explored field and there are very few carriers that are capable of releasing DA, a small and water-soluble molecule, in an efficient and controlled manner. In this work, we report a carrier based on a conductive hydrogel capable of loading DA and releasing it progressively and efficiently (100 % release) in a period of five days by applying small electrical stimuli (-0.4 V) daily for a short time (1 min). The hydrogel (CMC/PEDOT), which is electrically active, has been prepared from sodium carboxymethylcellulose and poly(3,4-ethylenedioxythiophene) microparticles, using citric acid as a cross-linking agent. Furthermore, the results have shown that when relatively hydrophobic small molecules, such as chloramphenicol, are loaded, the electrostimulated release is significantly less efficient, demonstrating the usefulness of CMC/PEDOT as a carrier for neurotransmitters.
JTD Keywords: Amines, Carboxymethyl cellulose, Carboxymethylcellulose, Conducting hydrogels, Conducting polymers, Controlled release, Crosslinking, Dopamine, Drug-delivery system, Electrostimulation, Hydrogels, Joining, Levodopa, Loading, Molecules, Neurophysiology, Neurotransmitter release, Neurotransmitters release, Oral administration, Parkinson's disease, Parkinsons-disease, Poly(3,4-ethylenedioxythiophene), Release, Sodium, Transport, Water-soluble molecule
Prischich, D, Gomila, AMJ, Milla-Navarro, S, Sanguesa, G, Diez-Alarcia, R, Preda, B, Matera, C, Batlle, M, Ramírez, L, Giralt, E, Hernando, J, Guasch, E, Meana, JJ, de la Villa, P, Gorostiza, P, (2021). Adrenergic Modulation With Photochromic Ligands Angewandte Chemie (International Ed. Print) 60, 3625-3631
© 2020 Wiley-VCH GmbH Adrenoceptors are ubiquitous and mediate important autonomic functions as well as modulating arousal, cognition, and pain on a central level. Understanding these physiological processes and their underlying neural circuits requires manipulating adrenergic neurotransmission with high spatio-temporal precision. Here we present a first generation of photochromic ligands (adrenoswitches) obtained via azologization of a class of cyclic amidines related to the known ligand clonidine. Their pharmacology, photochromism, bioavailability, and lack of toxicity allow for broad biological applications, as demonstrated by controlling locomotion in zebrafish and pupillary responses in mice.
JTD Keywords: adrenergic receptors, azo compounds, neurotransmitters, photochromism, Adrenergic agents, Adrenergic receptors, Animals, Azo compounds, Chromogenic compounds, Ligands, Mice, Mice, nude, Molecular structure, Neurotransmitters, Photochromism, Photopharmacology, Receptors, adrenergic, Zebrafish