Abstract

The long-term goal of the work is to expand understanding of secretin family receptors and to facilitate the development of drugs acting at these receptors. This proposal focuses on structural characterization of the secretin receptor with selected studies also directed toward the VIP receptor. The general hypothesis guiding this work is that detailed insights into the structure of the prototypic secretin receptor and into the molecular mechanisms of its ligand-binding and activation will provide important leads to strategies for the rational development of receptor-active drugs.
Aim 1 is designed to explore the hypothesis that the amino-terminal domain of this receptor, with its conserved cysteine residues and disulfide bonds, folds into a unique stable structure. This will be investigated using biochemical, molecular biological, and cell biological approaches leading to the definition of specific bonds that can be used as constraints for molecular modeling.
Aim 2 is designed to test the hypothesis that the amino-terminal domain of the secretin receptor provides a critical binding pocket for the natural peptide ligand. Studies will use the complementary approaches of affinity labeling with a series of unique photolabile probes and receptor mutagenesis to define molecular approximations between residues within the ligand and the receptor.
Aim 3 is designed to test the hypothesis that secretin family receptors are activated by a tethered transduction mechanism in which structurally and functionally independent receptor domains interact in a unique way. Experimental focus for this series of studies will be shifted to the body of the receptor. Mutagenesis will be performed on residues that are conserved within the family and likely play an architectural support role, as well as on residues that can be correlated with the selectivity of binding and activation of the receptors. The minimal receptor structure consistent with constitutive activity will be determined using a series of truncation mutants. Additionally, a novel mode of reverse affinity labeling with a photolabile probe incorporated specifically into the receptor will be performed. This will directly explore molecular proximity between distinct domains within the receptor.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK046577-07
Application #
6350667
Study Section
Special Emphasis Panel (ZRG1-RAP (03))
Program Officer
Serrano, Jose
Project Start
1995-02-01
Project End
2005-01-31
Budget Start
2001-02-01
Budget End
2002-01-31
Support Year
7
Fiscal Year
2001
Total Cost
$274,796
Indirect Cost

  Institution

Name
Mayo Clinic, Rochester
Department
Type
DUNS #
City
Rochester
State
MN
Country
United States
Zip Code
55905

  Publications

Harikumar, Kaleeckal G; Augustine, Mary Lou; Lee, Leo T O et al. (2016) Structure and Function of Cross-class Complexes of G Protein-coupled Secretin and Angiotensin 1a Receptors. J Biol Chem 291:17332-44
Dong, Maoqing; Lam, Polo C-H; Orry, Andrew et al. (2016) Use of Cysteine Trapping to Map Spatial Approximations between Residues Contributing to the Helix N-capping Motif of Secretin and Distinct Residues within Each of the Extracellular Loops of Its Receptor. J Biol Chem 291:5172-84
Lee, Leo T O; Ng, Stephanie Y L; Chu, Jessica Y S et al. (2014) Transmembrane peptides as unique tools to demonstrate the in vivo action of a cross-class GPCR heterocomplex. FASEB J 28:2632-44
Dong, M; Koole, C; Wootten, D et al. (2014) Structural and functional insights into the juxtamembranous amino-terminal tail and extracellular loop regions of class B GPCRs. Br J Pharmacol 171:1085-101
Miller, Laurence J; Dong, Maoqing (2013) The orthosteric agonist-binding pocket in the prototypic class B G-protein-coupled secretin receptor. Biochem Soc Trans 41:154-8
Koole, Cassandra; Savage, Emilia E; Christopoulos, Arthur et al. (2013) Minireview: Signal bias, allosterism, and polymorphic variation at the GLP-1R: implications for drug discovery. Mol Endocrinol 27:1234-44
Miller, Laurence J (2013) Molecular basis of peptide activation of the GLP-1 receptor. Mol Metab 2:60-1
Dong, Maoqing; Pinon, Delia I; Miller, Laurence J (2013) Insights into the impact of phenolic residue incorporation at each position along secretin for receptor binding and biological activity. Regul Pept 180:5-11
Ke, Jiyuan; Harikumar, Kaleeckal G; Erice, Clara et al. (2013) Structure and function of Norrin in assembly and activation of a Frizzled 4-Lrp5/6 complex. Genes Dev 27:2305-19
Qi, T; Dong, M; Watkins, H A et al. (2013) Receptor activity-modifying protein-dependent impairment of calcitonin receptor splice variant ýý(1-47)hCT((a)) function. Br J Pharmacol 168:644-57

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