INVESTIGADORES
BOUZAT Cecilia Beatriz
artículos
Título:
Activation and modulation of the nicotinic receptor
Autor/es:
BOUZAT, C.; ARIAS H
Revista:
journal of pediatric biochemistry
Editorial:
IOS Press
Referencias:
Año: 2010 vol. 1 p. 53 - 73
ISSN:
1309-2359
Resumen:
Abstract. Nicotinic acetylcholine receptors (AChRs) are the best characterized ion channels representing the Cysloop receptor superfamily. AChRs have all the machinery to recognize the neurotransmitter ACh and other agonists such as nicotine, and to transduce the agonistinduced conformational changes into the opening of the intrinsic cation channel. The gating machinery couples ligand binding, located at the extracellular portion, to the opening of the ion channel, located at the transmembrane region. The interface between the extracellular and the transmembrane domains is considered one of the most important structural and functional features for the process of gating. And finally, in the prolonged presence of agonists, the AChR becomes desensitized. Several drugs affect the functioning of these receptors. Among them, positive allosteric modulators (PAM) have acquired importance since are novel drugs for several neurological diseases. PAMs do not bind to the orthostetic binding sites but allosterically enhance the activity elicited by agonists by increasing the gating process and/or by decreasing desensitization. Instead, negative allosteric modulators (NAMs) produce the opposite effects. Interestingly, this negative effect is similar to that found for another class of allosteric drugs, i.e. non competitive antagonists (NCAs). However, the main difference between both categories of drugs is based on their distinct binding site locations. Although both NAMs and NCAs do not bind to the agonist sites, NACs bind to sites located in the ion channel, whereas NAMs bind to nonluminal sites. Interestingly, PAMs and NAMs might be developed as potential medications for the treatment of several diseases involving AChRs including, dementia, skin, and immunologicalrelated diseases, drug addiction, and cancer. More exiting is the potential combination of specific agonists with PAMs. However, we are still in the beginning of understanding how these compounds act and how these drugs can be used therapeutically.. Nicotinic acetylcholine receptors (AChRs) are the best characterized ion channels representing the Cysloop receptor superfamily. AChRs have all the machinery to recognize the neurotransmitter ACh and other agonists such as nicotine, and to transduce the agonistinduced conformational changes into the opening of the intrinsic cation channel. The gating machinery couples ligand binding, located at the extracellular portion, to the opening of the ion channel, located at the transmembrane region. The interface between the extracellular and the transmembrane domains is considered one of the most important structural and functional features for the process of gating. And finally, in the prolonged presence of agonists, the AChR becomes desensitized. Several drugs affect the functioning of these receptors. Among them, positive allosteric modulators (PAM) have acquired importance since are novel drugs for several neurological diseases. PAMs do not bind to the orthostetic binding sites but allosterically enhance the activity elicited by agonists by increasing the gating process and/or by decreasing desensitization. Instead, negative allosteric modulators (NAMs) produce the opposite effects. Interestingly, this negative effect is similar to that found for another class of allosteric drugs, i.e. non competitive antagonists (NCAs). However, the main difference between both categories of drugs is based on their distinct binding site locations. Although both NAMs and NCAs do not bind to the agonist sites, NACs bind to sites located in the ion channel, whereas NAMs bind to nonluminal sites. Interestingly, PAMs and NAMs might be developed as potential medications for the treatment of several diseases involving AChRs including, dementia, skin, and immunologicalrelated diseases, drug addiction, and cancer. More exiting is the potential combination of specific agonists with PAMs. However, we are still in the beginning of understanding how these compounds act and how these drugs can be used therapeutically.