Insertion of an electronegative sulfur atom in the side chain of position 5 of angiotensin II: changes in the tachyphylactic properties of the peptide

Zalcberg, Heloisa; Assimomytis, N.; Magafa, Vassiliki; Manessi‐Zoupa, Evy; Cordopatis, Paul; Shimuta, Suma I.

doi:10.1034/j.1399-3011.1999.00086.x

The Journal of Peptide Research

1999

DOI: 10.1034/j.1399-3011.1999.00086.x

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Insertion of an electronegative sulfur atom in the side chain of position 5 of angiotensin II: changes in the tachyphylactic properties of the peptide

Heloisa Zalcberg

N. Assimomytis

Vassiliki Magafa

et al.

Abstract: Angiotensin II (AII) analogs bearing n-Leu, Met or S-substituted groups for cysteine at position 5 were studied regarding their agonistic and tachyphylactic properties. It was shown that these analogs lowered the relative affinity towards the AT1 receptor as determined by contractile responses, which could be due to the removal of the beta-branching residue at position 5. Insertion of a sulfur atom in a different position away from the attached backbone carbon atom presented no significant difference in EC50 v… Show more

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2002

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Relevant role of Leu²⁶⁵in helix VI of the angiotensin AT₁receptor in agonist binding and activity

Correa¹,

França²,

Costa-Neto³

et al. 2002

Can. J. Physiol. Pharmacol.

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The finding of critical residues for angiotensin II (AII) binding and receptor signalling in helices V and VI led us to assess if, in this region of the receptor, aliphatic side chains might play a role in the agonist-mediated mechanism. Two mutations of the angiotensin AT1 receptor were designed to explore a possible role of a leucine at two positions, Leu265 and Leu268. Thus two mutants, L265D and L268D, were prepared through single substitutions of Leu265, located in the C-terminal region of transmembrane VI (TM-VI), and Leu268, in the adjoining region of the third extracellular loop (EC-3), for an aspartyl residue, and were stably transfected into Chinese hamster ovary (CHO) cells. Ligand-binding experiments and the functional assays determining inositol phosphate (IP) production were performed in these cells expressing these mutants. No significant changes were found in the binding affinity for the ligands, AII, DuP753, and [Sar1Leu8]AII in the mutant L268D. Moreover, the relative potency and the maximum effect on IP production of this mutant were similar to those of the wild-type receptor. In contrast, L265D mutant AT1 receptor, located within the transmembrane domain, markedly decreased binding affinity and ability to stimulate phosphatidylinositol turnover. Our results suggest that the hydrophobic side chain of Leu265, at the C-terminal portion of the AT1's TM-VI, but not Leu268, which belongs to the EC-3 loop, might interact with the AII molecule. On the other side, the aliphatic side chain of Leu265 may be involved in the formation of the ligand binding sites through allosteric effects, thus helping to stabilize the receptor structure around the agonist binding site for full activity.

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Relevant role of Leu²⁶⁵in helix VI of the angiotensin AT₁receptor in agonist binding and activity

Correa¹,

França²,

Costa-Neto³

et al. 2002

Can. J. Physiol. Pharmacol.

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Insertion of an electronegative sulfur atom in the side chain of position 5 of angiotensin II: changes in the tachyphylactic properties of the peptide

Cited by 1 publication

References 11 publications

Relevant role of Leu²⁶⁵in helix VI of the angiotensin AT₁receptor in agonist binding and activity

Relevant role of Leu²⁶⁵in helix VI of the angiotensin AT₁receptor in agonist binding and activity

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Insertion of an electronegative sulfur atom in the side chain of position 5 of angiotensin II: changes in the tachyphylactic properties of the peptide

Cited by 1 publication

References 11 publications

Relevant role of Leu265in helix VI of the angiotensin AT1receptor in agonist binding and activity

Relevant role of Leu265in helix VI of the angiotensin AT1receptor in agonist binding and activity

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Relevant role of Leu²⁶⁵in helix VI of the angiotensin AT₁receptor in agonist binding and activity

Relevant role of Leu²⁶⁵in helix VI of the angiotensin AT₁receptor in agonist binding and activity