Abstract

The long-term goals of this program (GM-41821) are to explore and develop new concepts in bioorganic/medicinal chemistry, which will be used by colleagues in academia and industry. The principal aim for the next four-year period are to exploit the implications of the pseudosymmetric nature of our beta-D-glucose scaffold. Using the molecular modeling results obtained during the 08-11 years, we will (A) vary the position of the Trp and Lys sidechain mimics on the scaffold seeking improved affinity by providing a better orientation. In the NK receptor ligand project, we will use the molecular modeling results (B) to reduce the number of sidechains and optimize their position to improve binding affinity. We will also seek to (C) modulate receptor subtype selectivity by generating novel interactions with the loop region of the receptor. The ability of our sugars to mimic peptide beta-turns will be used to (D) identify the residues of a cyclic hexapeptide which are critical for binding the GnRH receptor. After obtaining this critical information we will (E) study the solution conformation of the peptide, which will allow us to optimize out ligand design (F) to synthesize a potent GnRH receptor agonist or antagonist based on our sugar scaffold. Since the role that the pyranose oxygen plays in binding the receptor is unclear, we will (G) synthesize a cyclohexane analog of our SRIF ligands to explore this aspect further. Having generated several promiscuous ligands and demonstrated their capacity to bind various biological targets, we will synthesize a small targeted library in order to realize the full potential of the specific scaffold. To achieve this goal, we will (H) devise new synthetic methodology to introduce sidechains containing heterocyclic moieties at either C(4) or C(6). This will allow us to (I) elaborate a targeted library incorporating a C(1) indole aimed at exploring our lead inhibitors in broad screening assays. In this area, we will also (J) seek to exploit our benzodiazepine scaffold to generate a library of tricyclic compounds aimed at broad screening. Finally, we will explore (K) the pharmacokinetic profiles of our lead mimics through our collaborations with expert biologists.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM041821-14
Application #
6653077
Study Section
Bio-Organic and Natural Products Chemistry Study Section (BNP)
Program Officer
Lograsso, Philip
Project Start
1989-12-01
Project End
2005-07-31
Budget Start
2003-08-01
Budget End
2004-07-31
Support Year
14
Fiscal Year
2003
Total Cost
$305,762
Indirect Cost

  Institution

Name
University of Pennsylvania
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
042250712
City
Philadelphia
State
PA
Country
United States
Zip Code
19104

  Publications

Smith 3rd, Amos B; Charnley, Adam K; Hirschmann, Ralph (2011) Pyrrolinone-based peptidomimetics. ""Let the enzyme or receptor be the judge"". Acc Chem Res 44:180-93
Hirschmann, Ralph F; Nicolaou, K C; Angeles, Angie R et al. (2009) The beta-D-glucose scaffold as a beta-turn mimetic. Acc Chem Res 42:1511-20
Foister, Shane; Taylor, Laurie L; Feng, Jin-Jye et al. (2006) Design and synthesis of potent cystine-free cyclic hexapeptide agonists at the human urotensin receptor. Org Lett 8:1799-802
Mowery, Brendan P; Prasad, Vidya; Kenesky, Craig S et al. (2006) Catechol: A minimal scaffold for non-peptide peptidomimetics of the i + 1 and i + 2 positions of the beta-turn of somatostatin. Org Lett 8:4397-400
Angeles, Angie R; Neagu, Irina; Birzin, Elizabeth T et al. (2005) Synthesis and binding affinities of novel SRIF-mimicking beta-D-glucosides satisfying the requirement for a pi-cloud at C1. Org Lett 7:1121-4
Neelamkavil, S; Mowery, B P; Thornton, E R et al. (2005) A practical synthesis of Nalpha-Fmoc-L-pyrazinylalanine via Schollkopf's chiral auxiliary. J Pept Res 65:139-42
Neelamkavil, Santhosh; Arison, Byron; Birzin, Elizabeth et al. (2005) Replacement of Phe6, Phe7, and Phe11 of D-Trp8-somatostatin-14 with L-pyrazinylalanine. Predicted and observed effects on binding affinities at hSST2 and hSST4. An unexpected effect of the chirality of Trp8 on NMR spectra in methanol. J Med Chem 48:4025-30
Abrous, Leila; Jokiel, Patrick A; Friedrich, Sarah R et al. (2004) Novel chimeric scaffolds to extend the exploration of receptor space: hybrid beta-D-glucose-benzoheterodiazepine structures for broad screening. Effect of amide alkylation on the course of cyclization reactions. J Org Chem 69:280-302
Prasad, Vidya; Birzin, Elizabeth T; McVaugh, Cheryl T et al. (2003) Effects of heterocyclic aromatic substituents on binding affinities at two distinct sites of somatostatin receptors. Correlation with the electrostatic potential of the substituents. J Med Chem 46:1858-69
Smith 3rd, Amos B; Cantin, Louis-David; Pasternak, Alexander et al. (2003) Design, synthesis, and biological evaluation of monopyrrolinone-based HIV-1 protease inhibitors. J Med Chem 46:1831-44

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