Side-Chain Lactam-Bridge Conformational Constraints Differentiate the Activities of Salmon and Human Calcitonins and Reveal a New Design Concept for Potent Calcitonin Analogues

Taylor, John W.; Jin, Qian; Sbacchi, M.; Wang, Lu; Belfiore, Piero; Garnier, Martine; Kazantzis, Athanasios; Kapurniotu, Aphrodite; Zaratin, Paola; Scheideler, Mark A.

doi:10.1021/jm010474o

Cited by 14 publications

(27 citation statements)

References 59 publications

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“…Our findings with regard to the importance of nature and chirality of residues 18 and 19 for hCt receptor binding and bioactivity were confirmed by SAR studies of linear substitution analogs of hCt carrying β-turn-inducing substitutions for these residues [109]. These latter studies also suggested that nature and chirality of residues 18 and 19 plays an important role not only for receptor binding, but also for adenylate cyclase activation.…”

Section: Studying the Type I β β β β-Turn/β β β β-Sheet Hypothesis Wisupporting

confidence: 76%

“…Together, the SAR studies were in support of both the type I β-turn/β-sheet "hypothesis" and of a proposed model of ligand-CtR interaction according to which all three domains, i.e. the Nterminal region 1-7, the region 8 to 22, and the C-terminal region 22-32 may interact with distinct domains of the CtR [20,43,46,47,107,109]. (Fig.…”

Section: Studying the Type I β β β β-Turn/β β β β-Sheet Hypothesis Wisupporting

confidence: 59%

“…designed, synthesized, and studied with regard to conformation and bioactivity [108]. In addition to the above SAR studies, J. Taylor, M. Scheideler and coworkers have recently designed and studied a series of linear hCt analogs carrying β-turn-inducing substituents in positions 18 and 19 and a novel substitution analog of cyclo 1 7 , 2 1 -[Asp 17 ,Orn 21 ]hCt (B2) [109]. In addition, a series of cyclic sCt analogs carrying an Asp 17 to Lys 21 or an Asp 17 to Orn 21 bridge were also studied [109].…”

Section: Conformationally Constrained Hct Analogs To Test the β β β βmentioning

confidence: 99%

“…Similarly to the results obtained with hCtR I1-, the effects of the substituents alone (in D 8 ) and the lactam bridge constraint (D7) on binding affinity to rat brain membranes were also additive. The signal transducing potencies of the analogs at hCtR I1-were assessed in SH-SY5Y cells with a cAMP-responsive gene-reporter assay [109]. Thereby, D8 showed a 2-fold (ED 50 = 0.27 nM) and D7 a 90-fold (ED 50 = 0.007 nM) higher potency than hCt (ED 50 = 0.60 nM).…”

Section: Substitution Analogs Of Cyclomentioning

confidence: 99%

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Contribution of Conformationally Constrained Calcitonin (Ct) Analogs to the Understanding of the Structural and Conformational Requirements of Calcitonin Bioactivity and to the Design of Potent Agonists

Kapurniotu

2004

CMC

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Restricting the conformational flexibility of medium-sized linear polypeptides is a valuable approach to identify and characterize the structural and conformational features that define their biological activities and to design analogs with enhanced agonistic or antagonistic properties and with potential therapeutic applications. The calcium-regulating and bone resorption-inhibiting hormone calcitonin (Ct) is a conformationally flexible polypeptide of 32 amino acid residues that has long been applied therapeutically for the treatment of osteoporosis and other bone disorder diseases. This review describes studies on the structural and conformational features of the Ct sequence that are relevant for Ct bioactivity and focuses on research work performed on rationally designed conformationally constrained Ct analogs as tools for the understanding of the molecular basis of Ct bioactivity and as potential candidates or lead structures for novel Ct-based bone disorder therapeutics.

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Section: Studying the Type I β β β β-Turn/β β β β-Sheet Hypothesis Wisupporting

confidence: 76%

Section: Studying the Type I β β β β-Turn/β β β β-Sheet Hypothesis Wisupporting

confidence: 59%

Section: Conformationally Constrained Hct Analogs To Test the β β β βmentioning

confidence: 99%

Section: Substitution Analogs Of Cyclomentioning

confidence: 99%

See 2 more Smart Citations

Contribution of Conformationally Constrained Calcitonin (Ct) Analogs to the Understanding of the Structural and Conformational Requirements of Calcitonin Bioactivity and to the Design of Potent Agonists

Kapurniotu

2004

CMC

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“…There are also reports of differential alterations in the secretion of both CT species in secretions of PC as well as other human cancers (13,27,32). However, synthetic sCT is widely used clinically in the treatment of bone-related disorders and as an agonist for hCTR in human tissues and cell lines (15,(33)(34)(35)(36)(37). sCT stimulates the same signaling mechanisms as hCT and produces similar biological effects in human tissues and cell lines.…”

Section: Discussionmentioning

confidence: 99%

Calcitonin Increases Tumorigenicity of Prostate Cancer Cells: Evidence for the Role of Protein Kinase A and Urokinase-Type Plasminogen Receptor

Thomas

Chigurupati

Anbalagan

et al. 2006

Molecular Endocrinology

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The expression of human (h) calcitonin (CT) and its receptor (CTR) is localized to basal epithelium in benign prostates but is distributed in whole epithelium of malignant prostates. Moreover, the abundance of hCT and CTR mRNA in primary prostate tumors positively correlates with the tumor grade. We tested the hypothesis that the modulation of endogenous hCT expression of prostate cancer (PC) cell lines alters their oncogenicity. The effect of modulation of hCT expression on oncogenic characteristics was examined in LNCaP and PC-3M cell lines. The endogenous hCT expression was modulated using either constitutively active expression vector containing hCT cDNA or anti-hCT hammerhead ribozymes. The changes in the oncogenicity of cell sublines was assessed with cell proliferation assays, invasion assays, colony formation assays, and in vivo growth in athymic nude mice. Up-regulation of hCT in PC-3M cells and or enforced hCT expression in LNCaP cells dramatically enhanced their oncogenic characteristics. In contrast, the down-regulation of hCT in PC-3M cells led to a dramatic decline in their oncogenicity. These results, when combined with our other results, that the expression of hCT in primary PCs increase with tumor grade, suggest an important role for hCT in the progression of PC to a metastatic phenotype.

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Helix Nucleation by the Smallest Known α‐Helix in Water

et al. 2016

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Cyclic pentapeptides (e.g. Ac‐(cyclo‐1,5)‐[KAXAD]‐NH2; X=Ala, 1; Arg, 2) in water adopt one α‐helical turn defined by three hydrogen bonds. NMR structure analysis reveals a slight distortion from α‐helicity at the C‐terminal aspartate caused by torsional restraints imposed by the K(i)–D(i+4) lactam bridge. To investigate this effect on helix nucleation, the more water‐soluble 2 was appended to N‐, C‐, or both termini of a palindromic peptide ARAARAARA (≤5 % helicity), resulting in 67, 92, or 100 % relative α‐helicity, as calculated from CD spectra. From the C‐terminus of peptides, 2 can nucleate at least six α‐helical turns. From the N‐terminus, imperfect alignment of the Asp5 backbone amide in 2 reduces helix nucleation, but is corrected by a second unit of 2 separated by 0–9 residues from the first. These cyclic peptides are extremely versatile helix nucleators that can be placed anywhere in 5–25 residue peptides, which correspond to most helix lengths in protein–protein interactions.

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Side-Chain Lactam-Bridge Conformational Constraints Differentiate the Activities of Salmon and Human Calcitonins and Reveal a New Design Concept for Potent Calcitonin Analogues

Cited by 14 publications

References 59 publications

Contribution of Conformationally Constrained Calcitonin (Ct) Analogs to the Understanding of the Structural and Conformational Requirements of Calcitonin Bioactivity and to the Design of Potent Agonists

Contribution of Conformationally Constrained Calcitonin (Ct) Analogs to the Understanding of the Structural and Conformational Requirements of Calcitonin Bioactivity and to the Design of Potent Agonists

Calcitonin Increases Tumorigenicity of Prostate Cancer Cells: Evidence for the Role of Protein Kinase A and Urokinase-Type Plasminogen Receptor

Helix Nucleation by the Smallest Known α‐Helix in Water

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