A new cyclodecapeptide incorporating two prolylglycine sequences as beta-turn inducers and bearing four side chains with acidic carboxyl groups for cation complexation has been prepared. Structural analysis in water by (1)H NMR spectroscopy and CD shows that this template adopts a conformation suitable for the complexation of lanthanide ions Ln(3+), with its carboxyl groups oriented on the same face of the peptide scaffold. Luminescence titrations show that mononuclear Ln-PA complexes are formed with apparent stability constants of log beta(110) approximately 6.5 (pH 7). The high-field water relaxivity values arising from the Gd-PA complex at 200-500 MHz have been interpreted with molecular parameters determined independently. The experimentally determined water relaxivities are undoubtedly 30% higher than the expected values for this complex with two inner-sphere (IS) water molecules and a medium-range rotational correlation time (tau(R) = 386 ps (+/-10%)). This led us to propose the existence of a large second-sphere (2S) contribution to the relaxivity caused by the interaction of water molecules with the hydrophilic peptide ligand by hydrogen-bonding.