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Interaction of oxytocin with Ca2+: I. CD and fluorescence spectral characterization and comparison with vasopressin (1996)

Ananthanarayanan, V. S. ; Brimble, K. S.

New York : Wiley-Blackwell

Biopolymers 40 (1996), S. 433-443

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ISSN: 0006-3525

Keywords: hormone-receptor interaction ; Ca2+-hormone interaction ; bioactive conformation ; structure-activity correlation ; Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Extracellular Ca2+ is required for the action of oxytocin and both the hormone and its receptor have binding sites for divalent metal cations. To characterize the cation-bound form of oxytocin, we monitored the binding of Ca2+ and Mg2+ to oxytocin as well as peptides representing its ring and tail regions in trifluoroethanol, a lipid-mimetic solvent, using CD and fluorescence spectroscopy. Binding Ca2+ (Kd ˜ 50 μM) caused drastic CD and fluorescence changes leading to a helical conformation. Mg2+ caused CD changes smaller than and opposite to Ca2+. However, the helical structure was enhanced when both Ca2+ and Mg2+ were present together. CD changes in the tail peptide of oxytocin showed its ability to bind Ca2+ and Mg2+ whereas the vasopressin tail peptide did not bind either cation. CD spectral changes on Ca2+ and Mg2+ binding to tocinoic acid (the ring moiety of oxytocin) were much smaller than those of oxytocin. These data suggest that the tail segment of oxytocin potentiates Ca2+ binding by the ring. While vasopressin displayed a CD spectrum similar to that of oxytocin, CD spectra of its cation-bound forms were markedly different from those of oxytocin; the Ca2+-induced CD changes in vasopressin were very much smaller and of opposite sign, and Mg2+-induced ones significantly larger than in oxytocin. Taken together, our observations bring out the structural differences between oxytocin and vasopressin in the context of their interaction with Ca2+ and Mg2+. This may be relevant to understanding the differences in the bioactive conformations and receptor interactions of the two hormones. © 1997 John Wiley & Sons, Inc. Biopoly 40: 433-443, 1996

Additional Material: 8 Ill.

Type of Medium: Electronic Resource

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Interaction of oxytocin with Ca2+: II. Proton magnetic resonance and molecular modeling studies of conformations of the hormone and its Ca2+ complex (1996)

Ananthanarayanan, V. S. ; Belciug, M.-P. ; Zhorov, B. S.

New York : Wiley-Blackwell

Biopolymers 40 (1996), S. 445-464

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ISSN: 0006-3525

Keywords: hormone structure ; hormone-Ca2+ interaction ; oxytocin-Ca2+ complex ; nuclear Overhauser effect ; energy minimization ; Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Drastic changes in the CD and fluorescence spectra of oxytocin [cyclo(Cys1-Tyr2-Ile3-Gln4-Asn5-Cys6)-Pro7-Leu8-Gly9-NH2] occur on binding Ca2+ in trifluoroethanol (Ananthanarayanan and Brimble, preceding paper). To further characterize the conformation of the Ca2+-bound hormone, we carried out 1H-nmr measurements in deuterated trifluoroethanol of oxytocin and its 1 : 1 Ca2+ complex. The one-dimensional nmr data identified residues involved in Ca2+ binding and the extent of their perturbation on Ca2+ addition. The 3JNH-CH coupling constants and two-dimensional nuclear Overhauser effect (NOE) spectral cross peaks confirmed the helical nature of the Ca2+ complex deduced from CD data. Interproton distances in the free hormone and its Ca2+ complex were estimated from the respective NOE data. Apparent global minimum-energy conformations of free and Ca2+ bound oxytocin were computed using the Monte Carlo with energy minimization protocol, with and without incorporating the NOE-derived distance constraints. Taken together, our results show Ca2+ binding to oxytocin to be a two-step process. The binding of the first Ca2+ brings the otherwise extended tail segment of oxytocin closer to the ring moiety so that it wraps around the cation. This causes the maximal extent of change in all the spectral parameters. The subsequent formation of the 2 : 1 Ca-oxytocin complex results in the tail detaching itself away from the ring so as to bind the second Ca2+ ion. This leads to further spectral changes in the hormone molecule. The tail segment plays a major role in both steps. These observations may be useful in understanding the structural basis of oxytocin action. © 1997 John Wiley & Sons, Inc. Biopoly 40: 445-464, 1996

Additional Material: 7 Ill.

Type of Medium: Electronic Resource

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