We have applied photoaffinity labelling methods combined with site-directed mutagenesis towards the two principal angiotensin II (AnglI) receptors AT1 and AT2 in order to determine contact points between AngII and the two receptors. We have first identified the receptor contact points between an N- and a C-terminal residue of the AngII molecule and the AT1 receptor and constructed with this stereochemical restriction a molecular model of AT1. A similar approach with a modified procedure of photoaffinity labelling has allowed us now to determine contact points also in the AT2 receptor. Molecular modelling of AT2 on the rhodopsin scaffold and energy minimisation of AngII binding into this AT2 model produced a model strikingly similar to the AT11 structure. Superposition of the experimentally obtained contact points of AngII with AT2 upon this model revealed excellent congruence between the experimental and modelling results.
Conclusions: (i) athough AT1 and AT2 have quite low sequence homology, they both bind AngII with similar affinity and in an almost identical fashion, as if the ligand dictates the way it has to be bound, and (ii) in its bound form, AngII adopts an extended conformation in both AT1 and AT2, contrary to all previous predictions.