TY - JOUR
T1 - Photoactive analogues of the haloether anesthetics provide high-resolution features from low-affinity interactions.
AU - Xi, Jin
AU - Liu, Renyu
AU - Rossi, Matthew J.
AU - Yang, Jay
AU - Loll, Patrick J.
AU - Dailey, William P.
AU - Eckenhoff, Roderic G.
PY - 2006/7/21
Y1 - 2006/7/21
N2 - The difficulty in obtaining binding target and site information for low-affinity drugs, like the inhaled anesthetics, has limited identification of their molecular effectors. Because such information can be provided by photoactive analogues, we designed, synthesized, and characterized a novel diazirnyl haloether that closely mimics isoflurane, the most widely used clinical general anesthetic. This compound, H-diaziflurane, is a nontoxic, potent anesthetic that potentiates GABA-gated ion channels in primary cultures of hippocampal neurons. Calorimetric and structural characterizations show that H-diaziflurane binds a model anesthetic host protein with similar energetics as isoflurane and forms photoadducts with residues lining the isoflurane binding site. H-diaziflurane will be immediately useful for identifying targets and sites important for the molecular pharmacology of the inhaled haloether anesthetics.
AB - The difficulty in obtaining binding target and site information for low-affinity drugs, like the inhaled anesthetics, has limited identification of their molecular effectors. Because such information can be provided by photoactive analogues, we designed, synthesized, and characterized a novel diazirnyl haloether that closely mimics isoflurane, the most widely used clinical general anesthetic. This compound, H-diaziflurane, is a nontoxic, potent anesthetic that potentiates GABA-gated ion channels in primary cultures of hippocampal neurons. Calorimetric and structural characterizations show that H-diaziflurane binds a model anesthetic host protein with similar energetics as isoflurane and forms photoadducts with residues lining the isoflurane binding site. H-diaziflurane will be immediately useful for identifying targets and sites important for the molecular pharmacology of the inhaled haloether anesthetics.
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U2 - 10.1021/cb600207d
DO - 10.1021/cb600207d
M3 - Article
C2 - 17163775
AN - SCOPUS:39049192841
SN - 1554-8929
VL - 1
SP - 377
EP - 384
JO - ACS Chemical Biology
JF - ACS Chemical Biology
IS - 6
ER -