Molecular Cardiology Research Institute (MCRI)
G-Protein-Coupled Receptor Function and Disease
The Kopin laboratory has studied the molecular pharmacology of G protein-coupled receptors (GPCRs) for two decades. Special interests include: structure-function relationships, GPCR mediated physiology, polymorphism/ mutation induced alterations in function, and the development of tools for drug discovery. Ongoing studies in the laboratory have clinical relevance in the areas of metabolic disease (i.e. obesity and diabetes), neurologic/locomotor dysfunction (e.g. Parkinson’s disease) and nociception (e.g. acute pain).
Current investigations are aimed at:
Understanding the molecular basis for peptide hormone- GPCR interaction and function
Exploring how genetic variation in selected receptors influences the onset and/or progression of disease
Studying the pharmacological properties and potential medical applications of membrane-tethered ligands, an innovative technology developed in the laboratory to modulate GPCR function
Generating recombinant protein activators of orphan GPCRs and
Identifying novel compounds which mediate GPCR activity.
To accomplish these objectives, the laboratory utilizes molecular biologic tools, cell-based assays, as well as animal models (e.g. genetically altered mice and fruit flies).
Figure 1. This illustration depicts aspects related to two of our major research interests: the effect of non-synonymous single nucleotide polymorphisms (SNP, shown as a filled green circle) on receptor function(Fortin et al, 2010 ) and membrane tethered ligands (MTL) as modulators of GPCR activity. The MTL shown is comprised of an intracellular fluorescent tag (red oval), a transmembrane domain anchor (grey rectangle), a protein linker which includes a Myc epitope tag followed by an extracellular peptide ligand at the N terminus (blue rectangle) (Fortin et al, 2009)
20 years of discovery
For the past 20 years, the investigators and research teams of the Molecular Cardiology Research Institute (MCRI) have continually translated basic findings into new clinical strategies for the diagnosis and treatment of cardiovascular disease.
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