TY - JOUR
T1 - Characterization of type A and type B CCK receptor binding sites in rat vagus nerve
AU - Corp, Eric S.
AU - McQuade, Jennifer
AU - Moran, Timothy H.
AU - Smith, Gerard P.
N1 - Funding Information:
Acknowledgements. We thank Michael Curcio for his technical assistance and Jane Magnetti for her help in preparation of this manuscript. This work was supported in part by PHS Grants MH40010 and MH00149 (GPS); DK19302 (THM). For their generous gifts of unlabeled ligands, we thank Bristol Myers-Squibb for CCK and Merck Sharp and Dohme for MK-329 and L-365,260.
PY - 1993/9/24
Y1 - 1993/9/24
N2 - We employed quantitative receptor autoradiography to analyze pharmacological properties of 125I-Bolton Hunter cholecystokinin (CCK-8)-labeled binding sites in sections of rat cervical vagus nerve that had been ligated 24 h prior to extraction. Binding densities were detected in segments of nerve proximal and distal to the ligature. Analysis was confined to proximal segments. Saturation and competitive binding studies were carried out using sulphated CCK-8 and two selective CCK receptor antagonists: MK-329, to define type-A (CCKA) binding sites; and, L-365,260, to define type-B (CCKB) binding sites. Sulphated CCK-8 was the most potent inhibitor of vagal 125I-CCK binding (IC50 = 2 nM). Nonlinear curve fitting analysis of the CCK binding data favored the presence of a single class of vagal CCK receptors KDi = 1 nM). However, both MK-329 (IC50 = 18 nM) and L-365,260 (IC50 = 45 nM) completed for vagal 125I-CCK binding indicating the presence of CCKA and CCKB binding sites. Co-analysis of the antagonist binding data suggested that CCKA and CCKB receptors were transported in equal concentration within the vagus. MK-329 bound with high affinity to CCKA sites (Ki = 3 nM) and low-affinity to CCKB sites (Ki = 462 nM) while L-365,260 bound with high affinity to CCKB sites (Ki = 10 nM) and low-affinity to CCKA sites (Ki = 775 nM). These same ligands were used to characterize the specificity of 125I-CCK binding in the medial and lateral divisions of the nucleus of the solitary tract (NTS), two regions innervated by primary vagal afferents carrying CCK receptors. Sulphated CCK-8 was the most potent inhibitor of 125I-CCK binding in both regions of the NTS (IC50 = 0.6 nM, medial; IC50 = 0.4 nM, lateral). In the medial NTS, MK-329 was a potent inhibitor (IC50 = 21.8 nM) while MK-329 was a weak inhibitor (IC50 = 341 nM) of 125I-CCK binding. In contrast, in the lateral NTS, L-365,260 was a potent inhibitor (IC50 = 21.8 nM) while MK-329 was a weak inhibitor (IC> 1,0000 nM) of 125I-CCK binding. These results are consistent with the existence of two populations of vagal afferent fibers projecting to different regions of the NTS. One, containing CCKA receptors, projects principally to the medial NTS, while the other containing CCKB receptors, projects principally to the lateral NTS.
AB - We employed quantitative receptor autoradiography to analyze pharmacological properties of 125I-Bolton Hunter cholecystokinin (CCK-8)-labeled binding sites in sections of rat cervical vagus nerve that had been ligated 24 h prior to extraction. Binding densities were detected in segments of nerve proximal and distal to the ligature. Analysis was confined to proximal segments. Saturation and competitive binding studies were carried out using sulphated CCK-8 and two selective CCK receptor antagonists: MK-329, to define type-A (CCKA) binding sites; and, L-365,260, to define type-B (CCKB) binding sites. Sulphated CCK-8 was the most potent inhibitor of vagal 125I-CCK binding (IC50 = 2 nM). Nonlinear curve fitting analysis of the CCK binding data favored the presence of a single class of vagal CCK receptors KDi = 1 nM). However, both MK-329 (IC50 = 18 nM) and L-365,260 (IC50 = 45 nM) completed for vagal 125I-CCK binding indicating the presence of CCKA and CCKB binding sites. Co-analysis of the antagonist binding data suggested that CCKA and CCKB receptors were transported in equal concentration within the vagus. MK-329 bound with high affinity to CCKA sites (Ki = 3 nM) and low-affinity to CCKB sites (Ki = 462 nM) while L-365,260 bound with high affinity to CCKB sites (Ki = 10 nM) and low-affinity to CCKA sites (Ki = 775 nM). These same ligands were used to characterize the specificity of 125I-CCK binding in the medial and lateral divisions of the nucleus of the solitary tract (NTS), two regions innervated by primary vagal afferents carrying CCK receptors. Sulphated CCK-8 was the most potent inhibitor of 125I-CCK binding in both regions of the NTS (IC50 = 0.6 nM, medial; IC50 = 0.4 nM, lateral). In the medial NTS, MK-329 was a potent inhibitor (IC50 = 21.8 nM) while MK-329 was a weak inhibitor (IC50 = 341 nM) of 125I-CCK binding. In contrast, in the lateral NTS, L-365,260 was a potent inhibitor (IC50 = 21.8 nM) while MK-329 was a weak inhibitor (IC> 1,0000 nM) of 125I-CCK binding. These results are consistent with the existence of two populations of vagal afferent fibers projecting to different regions of the NTS. One, containing CCKA receptors, projects principally to the medial NTS, while the other containing CCKB receptors, projects principally to the lateral NTS.
KW - Area postrema
KW - Cholecystokinin receptor antagonist
KW - Feeding
KW - L-365,260
KW - MK-329
KW - Nucleus of the solitary tract
KW - Receptor autoradiography
KW - Visceral afferent
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U2 - 10.1016/0006-8993(93)90024-H
DO - 10.1016/0006-8993(93)90024-H
M3 - Article
C2 - 8221086
AN - SCOPUS:0027260550
SN - 0006-8993
VL - 623
SP - 161
EP - 166
JO - Brain research
JF - Brain research
IS - 1
ER -