Article date: September 2002
By: Debbie L Hay, Stephen G Howitt, Alex C Conner, Henri Doods, Marcus Schindler, David R Poyner in Volume 137, Issue 1, pages 80-86
The ability of the CGRP antagonist BIBN4096BS to antagonize CGRP and adrenomedullin has been investigated on cell lines endogenously expressing receptors of known composition.
On human SK‐N‐MC cells (expressing human calcitonin receptor‐like receptor (CRLR) and receptor activity modifying protein 1 (RAMP1)), BIBN4096BS had a pA2 of 9.95 although the slope of the Schild plot (1.37±0.16) was significantly greater than 1.
On rat L6 cells (expressing rat CRLR and RAMP1), BIBN4096BS had a pA2 of 9.25 and a Schild slope of 0.89±0.05, significantly less than 1.
On human Colony (Col) 29 cells, CGRP8–37 had a significantly lower pA2 than on SK‐N‐MC cells (7.34±0.19 (n=7) compared to 8.35±0.18, (n=6)). BIBN4096BS had a pA2 of 9.98 and a Schild plot slope of 0.86±0.19 that was not significantly different from 1. At concentrations in excess of 3 nM, it was less potent on Col 29 cells than on SK‐N‐MC cells.
On Rat 2 cells, expressing rat CRLR and RAMP2, BIBN4096BS was unable to antagonize adrenomedullin at concentrations up to 10 μM. CGRP8–37 had a pA2 of 6.72 against adrenomedullin.
BIBN4096BS shows selectivity for the human CRLR/RAMP1 combination compared to the rat counterpart. It can discriminate between the CRLR/RAMP1 receptor expressed on SK‐N‐MC cells and the CGRP‐responsive receptor expressed by the Col 29 cells used in this study. Its slow kinetics may explain its apparent ‘non‐competive’ behaviour. At concentrations of up to 10 μM, it has no antagonist actions at the adrenomedullin, CRLR/RAMP2 receptor, unlike CGRP8–37.
The ability of the CGRP antagonist BIBN4096BS to antagonize CGRP and adrenomedullin has been investigated on cell lines endogenously expressing receptors of known composition.
On human SK‐N‐MC cells (expressing human calcitonin receptor‐like receptor (CRLR) and receptor activity modifying protein 1 (RAMP1)), BIBN4096BS had a pA2 of 9.95 although the slope of the Schild plot (1.37±0.16) was significantly greater than 1.
On rat L6 cells (expressing rat CRLR and RAMP1), BIBN4096BS had a pA2 of 9.25 and a Schild slope of 0.89±0.05, significantly less than 1.
On human Colony (Col) 29 cells, CGRP8–37 had a significantly lower pA2 than on SK‐N‐MC cells (7.34±0.19 (n=7) compared to 8.35±0.18, (n=6)). BIBN4096BS had a pA2 of 9.98 and a Schild plot slope of 0.86±0.19 that was not significantly different from 1. At concentrations in excess of 3 nM, it was less potent on Col 29 cells than on SK‐N‐MC cells.
On Rat 2 cells, expressing rat CRLR and RAMP2, BIBN4096BS was unable to antagonize adrenomedullin at concentrations up to 10 μM. CGRP8–37 had a pA2 of 6.72 against adrenomedullin.
BIBN4096BS shows selectivity for the human CRLR/RAMP1 combination compared to the rat counterpart. It can discriminate between the CRLR/RAMP1 receptor expressed on SK‐N‐MC cells and the CGRP‐responsive receptor expressed by the Col 29 cells used in this study. Its slow kinetics may explain its apparent ‘non‐competive’ behaviour. At concentrations of up to 10 μM, it has no antagonist actions at the adrenomedullin, CRLR/RAMP2 receptor, unlike CGRP8–37.
British Journal of Pharmacology (2002) 137, 80–86. doi:10.1038/sj.bjp.0704844
DOI: 10.1038/sj.bjp.0704844
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