Literature DB >> 27002221

Towards a structural understanding of allosteric drugs at the human calcium-sensing receptor.

Katie Leach1, Karen J Gregory1, Irina Kufareva2, Elham Khajehali1, Anna E Cook1, Ruben Abagyan2, Arthur D Conigrave3, Patrick M Sexton1, Arthur Christopoulos1.   

Abstract

Drugs that allosterically target the human calcium-sensing receptor (CaSR) have substantial therapeutic potential, but are currently limited. Given the absence of high-resolution structures of the CaSR, we combined mutagenesis with a novel analytical approach and molecular modeling to develop an "enriched" picture of structure-function requirements for interaction between Ca(2+)o and allosteric modulators within the CaSR's 7 transmembrane (7TM) domain. An extended cavity that accommodates multiple binding sites for structurally diverse ligands was identified. Phenylalkylamines bind to a site that overlaps with a putative Ca(2+)o-binding site and extends towards an extracellular vestibule. In contrast, the structurally and pharmacologically distinct AC-265347 binds deeper within the 7TM domains. Furthermore, distinct amino acid networks were found to mediate cooperativity by different modulators. These findings may facilitate the rational design of allosteric modulators with distinct and potentially pathway-biased pharmacological effects.

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Year:  2016        PMID: 27002221      PMCID: PMC4856764          DOI: 10.1038/cr.2016.36

Source DB:  PubMed          Journal:  Cell Res        ISSN: 1001-0602            Impact factor:   25.617


  56 in total

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5.  Biased probability Monte Carlo conformational searches and electrostatic calculations for peptides and proteins.

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6.  Antagonizing the parathyroid calcium receptor stimulates parathyroid hormone secretion and bone formation in osteopenic rats.

Authors:  M Gowen; G B Stroup; R A Dodds; I E James; B J Votta; B R Smith; P K Bhatnagar; A M Lago; J F Callahan; E G DelMar; M A Miller; E F Nemeth; J Fox
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Authors:  O M Hauache; J Hu; K Ray; R Xie; K A Jacobson; A M Spiegel
Journal:  Endocrinology       Date:  2000-11       Impact factor: 4.736

9.  The Venus Fly Trap domain of the extracellular Ca2+ -sensing receptor is required for L-amino acid sensing.

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3.  Structural Mechanism of Cooperative Regulation of Calcium-Sensing Receptor-Mediated Cellular Signaling.

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6.  Negative allosteric modulators of the human calcium-sensing receptor bind to overlapping and distinct sites within the 7-transmembrane domain.

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7.  Identification of Global and Ligand-Specific Calcium Sensing Receptor Activation Mechanisms.

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Review 9.  Calcimimetic and calcilytic therapies for inherited disorders of the calcium-sensing receptor signalling pathway.

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10.  A calcium-sensing receptor mutation causing hypocalcemia disrupts a transmembrane salt bridge to activate β-arrestin-biased signaling.

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