Ronald C. Orlowski scite author profile

Salmon, porcine, and human calcitonins interact with phosphatidylglycerol to form water-soluble complexes, but these peptides do not interact with the zwitterionic lipids phosphatidylcholine or sphingomyelin. The calcitonins are more helical in the presence of dimyristoylphosphatidylglycerol than in its absence, but human calcitonin is considerably less helical than the other two, particularly in the presence of the lipid. This may explain the previously reported faster rate of degradation of human compared with salmon calcitonin in vivo. The ability of human calcitonin to solubilize dimyristoylphosphatidylglycerol and to alter the phase transition properties of this phospholipid while maintaining a low content of helix indicates that the presence of an amphipathic helix is not a requirement for these effects. The binding of salmon calcitonin to dimyristoylphosphatidylglycerol has been studied by determining the dependence of the circular dichroism properties of the peptide on the concentration of lipid. At 25 degrees C, salmon calcitonin binds to five molecules of dimyristoylphosphatidylglycerol with an affinity constant of 1 X 10(5) M-1. Little change in these parameters is observed at 38 degrees C, and the complex is stable over a wide range of temperatures both above and below the phase transition temperature. The rate of reaction of salmon calcitonin with dimyristoylphosphatidylglycerol is rapid at or above the phase transition temperature of the lipid but not at low temperatures. Salmon calcitonin also interacts with egg phosphatidylglycerol. These results demonstrate that salmon calcitonin can react with phosphatidylglycerol at or above its phase transition temperature to form complexes which are at least kinetically stable both above and below the phase transition temperature. Salmon calcitonin can solubilize mixtures of dimyristoylphosphatidylglycerol and dimyristoylphosphatidylcholine containing 25% or more of the former phospholipid. The helical content of the peptide in the presence of these lipid mixtures is dependent on the fraction of the lipid which is phosphatidylglycerol, with larger fractions of this lipid leading to the formation of a higher helical content. At 25% phosphatidylglycerol, salmon calcitonin can solubilize the lipid mixture without much increase in the helix content of the peptide, again demonstrating that an amphipathic helical structure is not required for the solubilization of phospholipids. Ionic bonding appears to be an important component in the binding of the cationic calcitonins to phospholipids. Salmon calcitonin binds to the acidic phospholipids phosphatidylinositol and phosphatidic acid, but not to zwitterionic phospholipids. In addition, high concentrations of NaCl cause the dissociation of the complex between salmon calcitonin and dimyristoylphosphatidylglycerol.(ABSTRACT TRUNCATED AT 400 WORDS)

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Conformational flexibility and biological activity of salmon calcitonin

Epand¹,

Epand²,

Orlowski³

et al. 1986

Biochemistry

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We have assessed the biological activity of salmon calcitonin I (sCT) using an in vivo biological assay of hypocalcemic activity in rats. The changes in biological activity observed are explained on the basis of changes in the conformational properties of the hormone analogues. Helical content in the presence and absence of lipids and detergents was assessed by using circular dichroism, and the section of the molecule that folds into a helix was predicted on the basis of the helix-coil transition theory of Mattice and co-workers. In the amino acid sequence of sCT, residue 8 is valine and residue 16 is leucine. The synthetic calcitonin derivatives [Gly8]sCT and [Ala16]sCT have higher biological activity than the native hormone although they have a lower helical content. The increased biological activity of these derivatives is ascribed to an increase in their conformational flexibility resulting from the substitution of amino acid residues with less bulky side chains and less tendency to form helical structures. The derivative [Met8]sCT has less substitution than sCT on the beta-carbon at position 8, but it has increased helix-forming potential in the region of residues 8-12. These two factors affect conformational flexibility in opposite ways, resulting in the biological activity of [Met8]sCT being slightly higher than that of sCT. However, increased conformational flexibility does not always increase biological activity. Substitution of the L-arginine at residue 24 for a D-arginine has little effect on the conformational properties or biological activity of sCT. However, [Gly8, D-Arg24]sCT is less active than sCT, [Gly8]sCT, or [D-Arg24]sCT.(ABSTRACT TRUNCATED AT 250 WORDS)

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Postproline cleaving enzyme: identification as serine protease using active site specific inhibitors

Yoshimoto¹,

Orlowski²,

Walter³

1977

Biochemistry

102

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Biologically active calcitonin analogs which have minimal interactions with phospholipids

Epand

Orlowski

1988

Biochemical and Biophysical Research Communications

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Evidence for Calcitonin Receptor Heterogeneity: Binding Studies with Nonhelical Analogs*

Nakamuta¹,

Orlowski²,

Epand³

1990

Endocrinology

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Binding of the nonhelical salmon calcitonin (sCT) analog, [Gly8,Ala16]-des-Leu19-sCT to membrane preparations from rat brain could be analyzed in terms of two independent binding sites. The high and low affinity binding sites for this analog were named CT-L (L, linear) and CT-H (H, helix), respectively. Although the CT-H type receptor has a low affinity for the nonhelical analogs, it binds the helical sCT with high affinity and therefore represents a CT binding site. The physiological significance for the existence of subtypes of specific CT receptors is not clear. The [Gly8,Ala16]-des-Leu19-sCT suppressed the osteoclastic bone resorption in tissue culture at low concentration (0.1 nM). The dose of [Gly8,Ala16]-des-Leu19-sCT required for this hypocalcemic activity was highly correlated with the binding affinity of this analog to the CT-L receptor subtype. In addition, human CT interacted with the CT-L type receptor at about 100th the concentration of that required for the displacement of sCT. We conclude that binding to the CT-L type receptor is required for hypocalcemic activity in mammals.

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