Título
Dibenzo[1,2,5]thiadiazepines are non-competitive GABAA receptor antagonists
11627/371011627/3710
Autor
Ramírez Martínez, Juan Francisco
González Chávez, Rodolfo
Guerrero Alba, Raquel
Reyes Gutiérrez, Paul Eduardo
Martínez, Roberto
Miranda Morales, Marcela
Espinosa Luna, Rosa
González Chávez, Marco Martín
Barajas López, Carlos
Resumen
"A new process for obtaining dibenzo[c,f][1,2,5]thiadiazepines (DBTDs) and their effects on GABAA receptors of guinea pig myenteric neurons are described. Synthesis of DBTD derivatives began with two commercial aromatic compounds. An azide group was obtained after two sequential reactions, and the central ring was closed via a nitrene to obtain the tricyclic sulfonamides (DBTDs). Whole-cell recordings showed that DBTDs application did not affect the holding current but inhibited the currents induced by GABA (IGABA), which are mediated by GABAA receptors. These DBTDs effects reached their maximum 3 min after application and were: (i) reversible, (ii) concentration-dependent (with a rank order of potency of 2c = 2d > 2b), (iii) mediated by a non-competitive antagonism, and (iv) only observed when applied extracellularly. Picrotoxin (which binds in the channel mouth) and DBTDs effects were not modified when both substances were simultaneous applied. Our results indicate that DBTD acted on the extracellular domain of GABAA channels but independent of the picrotoxin, benzodiazepine, and GABA binding sites. DBTDs used here could be the initial model for synthesizing new GABAA receptor inhibitors with a potential to be used as antidotes for positive modulators of these receptors or to induce experimental epilepsy."
Fecha de publicación
2013Tipo de publicación
articleDOI
http://dx.doi.org/10.3390/molecules18010894Área de conocimiento
BIOLOGÍA Y QUÍMICAColecciones
Editor
MDPIPalabras clave
DibenzothiadiazepinesGABAA receptor antagonists
Patch clamp
Neurochemistry
Biological activity
Enteric neurons
Electrophysiology