Title
Physiological concentrations of zinc have dual effects on P2X myenteric receptors of guinea pig
11627/510911627/510911627/510911627/5109
Author
Méndez Barredo, Liliana Hortencia
Rodríguez Meléndez, Jessica Gabriela
Gómez Coronado, Karen Sarahí
Guerrero Alba, Raquel
Valdez Morales, Eduardo Emmanuel
Espinosa Luna, Rosa
Barajas Espinosa, Alma Rosa
Barajas López, Carlos
Abstract
"We, hereby, characterize the pharmacological effects of physiological concentrations of Zinc on native myenteric P2X receptors from guinea-pig small intestine and on P2X2 isoforms present in most myenteric neurons. This is the first study describing opposite effects of Zinc on these P2X receptors. It was not possible to determine whether both effects were concentration dependent, yet the inhibitory effect was mediated by competitive antagonism and was concentration dependent. The potentiating effect appears to be mediated by allosteric changes induced by Zinc on P2X myenteric channels, which is more frequently observed in myenteric neurons with low zinc concentrations. In P2X2-1 and P2X2-2 variants, the inhibitory effect is more common than in P2X myenteric channels. However, in the variants, the potentiatory effect is of equal magnitude as the inhibitory effect. Inhibitory and potentiatory effects are likely mediated by different binding sites that appear to be present on both P2X2 variants. In conclusion, in myenteric native P2X receptors, Zinc has quantitatively different pharmacological effects compared to those observed on homomeric channels: P2X2-1 and P2X2-2. Potentiatory and inhibitory Zinc effects upon these receptors are mediated by two different binding sites. All our data suggest that myenteric P2X receptors have a more complex pharmacology than those of the recombinant P2X2 receptors, which is likely related to other subunits known to be expressed in myenteric neurons. Because these dual effects occur at Zinc physiological concentrations, we suggest that they could be involved in physiological and pathological processes."
Publication date
2018Publication type
articleDOI
https://doi.org/10.1007/s10571-018-0612-7Knowledge area
BIOLOGÍA CELULARCollections
Publisher
SpringerKeywords
Myenteric neuronsGastrointestinal tract
ATP
Zinc
P2X2 recombinant receptors
P2X native receptors