Award details

The molecular basis for calcium release by NAADP

Reference	BB/G013721/1
Principal Investigator / Supervisor	Professor Sandip Patel
Co-Investigators / Co-Supervisors
Institution	University College London
Department	Neuroscience Physiology and Pharmacology
Funding type	Research
Value (£)	407,742
Status	Completed
Type	Research Grant
Start date	01/06/2009
End date	31/05/2012
Duration	36 months

Abstract

Cytosolic calcium ions form the basis of a ubiquitous signal transduction pathway that controls a huge number of physiological processes. Understanding how changes in cytosolic calcium occur in response to extracellular cues is crucial for understanding how calcium dependent events are regulated, and has major implications for the many diseases in which calcium signals are perturbed. Recent studies have established a new calcium signalling pathway regulated by the potent calcium mobilizing messenger NAADP. Unlike the 'traditional' messenger molecules, IP3 and cyclic ADP-ribose, NAADP mobilizes acidic stores of calcium. Moreover, NAADP has the unique ability to coordinate the activity of other intracellular calcium channels. However, despite the critical importance of NAADP in triggering agonist-evoked calcium signals, the molecular identity of the target channel has yet to be unequivocally defined. This paucity in information is substantially hampering efforts to characterize the physiological roles of NAADP. In this application, we will test whether the target channels for NAADP are a family of proteins that bear homology to voltage-sensitive calcium channels and which in animals are almost completely uncharacterised. Using a combination of molecular and cell biology approaches, and based on substantial preliminary data, we expect to localize the candidate channels to the endo-lysosomal system, demonstrate their sensitivity to NAADP and establish their contribution to physiologically relevant agonist-evoked calcium signals. Determining the molecular basis for NAADP action will represent a major breakthrough in the signal transduction field that will not only substantially further our understanding of how calcium signals are generated but also provide truly novel opportunities for future study of this ubiquitous signalling pathway.

Summary

All cells of the body are physically separated from their surrounding environment by a membrane. In order for cells to respond to factors in the blood (such as hormones) which normally can not pass through the membrane, special 'messenger' molecules are used that are generated inside the cell upon contact of the stimulus with the cell. One of these molecules, NAADP controls cell function by mediating changes in the concentration of calcium. These calcium changes are important for many processes including, for example, fertilisation. Understanding how NAADP increases calcium levels is important to understand how cells work but at present we do not know the identity of the protein or 'channel' that opens in response to NAADP to allow calcium levels to change. In this proposal, we will study a family of proteins that we know very little about but which our initial experiments suggest are the channels for NAADP. We will define their location within the cell, determine exactly how they respond to NAADP and whether they are needed for hormones which make NAADP to mediate changes in calcium. The results of our experiments will provide urgently needed information on how NAADP functions and experimental tools to further study the effects of NAADP.

Committee	Closed Committee - Biochemistry & Cell Biology (BCB)
Research Topics	X – not assigned to a current Research Topic
Research Priority	X – Research Priority information not available
Research Initiative	X - not in an Initiative
Funding Scheme	X – not Funded via a specific Funding Scheme

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