Substitution of Arg167 by Ala completely abolished [3H]Ang II and [3H]candesartan binding, indicating that Lys199 and Arg167 play an important role in AT1-receptor ligand binding.
The basic amino acids Lys199 and Arg167 of the human AT1-receptor are crucial for the binding of non-peptide antagonists like candesartan.
To explain the insurmountable/long-lasting binding of biphenyltetrazole-containing AT1-receptor antagonists such as candesartan, to the human angiotensin II type 1-receptor, a model is proposed in which the basic amino acids Lys199 and Arg 167 of the receptor interact respectively with the carboxylate and the tetrazole group of the antagonists. To validate this model, we have investigated the impact of substitution of Lys199 by Ala or Gln and of Arg167 by Ala on the binding properties of 3Hcandesartan and on competition binding by candesartan, EXP3174, irbesartan, losartan, angiotensin II (Ang II) and Sar1-Ile8angiotensin. Our results indicate that both amino acids play an important role in the AT1-receptor ligand binding. Whereas the negative charge of Lys 199 is involved in an ionic bond with the end-standing carboxylate group of the peptide ligands, its polarity also contributes to the non-peptide antagonist binding. Substitution of Arg167 by Ala completely abolished 3HAng II, as well as 3H candesartan, binding. Whereas these results are in line with the proposed model, it cannot be excluded that both amino acid residues are important for the structural integrity of the AT1-receptor with respect to its ligand binding properties.
Vauquelin et al. (Thu,) reported a other. Substitution of Lys199 by Ala or Gln and of Arg167 by Ala was evaluated on Binding properties of [3H]candesartan and competition binding. Substitution of Arg167 by Ala completely abolished [3H]Ang II and [3H]candesartan binding, indicating that Lys199 and Arg167 play an important role in AT1-receptor ligand binding.
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