Rational design and biological evaluation of cell-permeant small molecule agonists and antagonists of the NAADP receptor
Lead Research Organisation:
University of Oxford
Department Name: Pharmacology
Abstract
Cells can be thought of as minature factories, with protein machines (enzymes) performing the work and chemical messengers instructing the machines to start, stop, faster slower. The protein machines are built from instructions written in DNA. So, now that the entire humane genome is known, we know the structure of all the machines, but we understand far less about how the machines operate together. A very powerful way to investigate this problem is to use small molecule chemical tools that mimic the natural chemical messengers. Chemical messengers are produced within a cell and generally do not leak out; small molecule chemical tools can pass in and out of cells easily, so they can be applied to cells, tissues or, in the case of drugs, swallowed as tablets. It is desireable to have chemical tools that modulate the activity of the enzymes such that they inhibit (antagonists) or stimulate (agonists). NAADP is a chemical messenger for which we know little. We previously used computers to screen millions of chemicals to find ones that might affect the proteins responsive to NAADP. We found a compound, Ned-14, that antagonizes NAADP's action. We now want to modify the chemcial structure of Ned-14: (1) to obtain a better antagonist; (2) to find an agonist; and (3) to find antagonists and agonists that are selective for, say, pancreas, heart or neurons. These chemical tools will enable us and our colleagues to learn more about the roles played by NAADP in biology. For example, Ned-14 already has revealed a role for NAADP in the molecular steps linking glucose sensing to insulin release. Not only does this reveal new biology, but might, ultimately, lead to the ideantification of new drug targets and drug-based therapies.
Technical Summary
NAADP (nicotinic acid adenine dinucleotide phosphate) is the most recently discovered calcium-releasing second messenger. As such, much remains to be discovered, but research into the biological roles of NAADP has been hampered by a lack of small molecule tools that are cell permeant and selective. Our interdisciplinary proposal is tightly focused on identifying and validating small molecule tools that act as antagonists and agonists of NAADP action. We propose to use a creative mix of medicinal chemistry and virtual screening to generate analogues of the most potent and selective NAADP antagonist, Ned-14. We will use both sea urchin egg and mammalian cells both to assess biological activity and to probe the presence and function of the hypothesized high- and low-affinity NAADP binding sites. Ned-14 is already the most widely used small molecule tool in the NAADP field, and the development of agonists and next-generation antagonists that are reversible and tissue-selective will greatly broaden experimentation into this important area of research.
Organisations
Publications
Aley PK
(2010)
A functional role for nicotinic acid adenine dinucleotide phosphate in oxytocin-mediated contraction of uterine smooth muscle from rat.
in The Journal of pharmacology and experimental therapeutics
Gómez-Suaga P
(2012)
A link between LRRK2, autophagy and NAADP-mediated endolysosomal calcium signalling.
in Biochemical Society transactions
Brailoiu GC
(2010)
Acidic NAADP-sensitive calcium stores in the endothelium: agonist-specific recruitment and role in regulating blood pressure.
in The Journal of biological chemistry
Rosen D
(2009)
Analogues of the nicotinic acid adenine dinucleotide phosphate (NAADP) antagonist Ned-19 indicate two binding sites on the NAADP receptor.
in The Journal of biological chemistry
Morgan AJ
(2013)
Bidirectional Ca²? signaling occurs between the endoplasmic reticulum and acidic organelles.
in The Journal of cell biology
Sánchez-Tusie AA
(2014)
Characterization of NAADP-mediated calcium signaling in human spermatozoa.
in Biochemical and biophysical research communications
Dickinson GD
(2010)
Deviant nicotinic acid adenine dinucleotide phosphate (NAADP)-mediated Ca2+ signaling upon lysosome proliferation.
in The Journal of biological chemistry
Taylor L
(2014)
Discovery of novel GPVI receptor antagonists by structure-based repurposing.
in PloS one
Kilpatrick BS
(2016)
Endoplasmic reticulum and lysosomal Ca²? stores are remodelled in GBA1-linked Parkinson disease patient fibroblasts.
in Cell calcium
Pascu SI
(2010)
Fluorescent copper(II) bis(thiosemicarbazonates): synthesis, structures, electron paramagnetic resonance, radiolabeling, in vitro cytotoxicity and confocal fluorescence microscopy studies.
in Chemistry, an Asian journal