Understanding allosteric modulation and functional selectivity at G Protein-Coupled Receptors (GPCRs). GPCRs are an important superfamily of proteins that are involved in a myriad of physiological processes and a wide range of serious illnesses. This project seeks to gain a more detailed understanding of new mechanisms of GPCR modulation and function that will be of direct relevance to drug discovery.
Subtype selectivity and functional bias of receptor positive allosteric modulators for understanding models of pulmonary disease. G-protein-coupled receptors (GPCRs) are an important superfamily of proteins that are involved in a myriad of physiological processes and a wide range of serious illnesses. This project seeks to gain a more detailed understanding of new mechanisms of GPCR modulation and function that will be of direct relevance to drug discovery.
Exploring metabotropic glutamate receptor 5 bias, allostery and heteromers. This project aims to provide novel mechanistic and structural insights into metabotropic glutamate receptor 5 (mGlu5) function. The mGlu5 is an essential regulator of neurotransmission and higher order brain functions including learning and memory. This project expects to expand knowledge of the fundamental biological processes engaged by mGlu5 through exploration of three novel paradigms of receptor activity: allostery, ....Exploring metabotropic glutamate receptor 5 bias, allostery and heteromers. This project aims to provide novel mechanistic and structural insights into metabotropic glutamate receptor 5 (mGlu5) function. The mGlu5 is an essential regulator of neurotransmission and higher order brain functions including learning and memory. This project expects to expand knowledge of the fundamental biological processes engaged by mGlu5 through exploration of three novel paradigms of receptor activity: allostery, bias and heteromerisation. Expected outcomes also include generation of new pharmacological tools through interdisciplinary collaborative research between multiple institutions. There is significant expected economic benefit through commercialisation of new tools and facilitation of novel drug discovery.Read moreRead less
Stabilising biased allosteric G protein-coupled receptor conformations. This project aims to develop and identify molecules that can stabilise distinct calcium sensing receptor (CaSR) conformations. The CaSR is a G protein-coupled receptor (GPCR) vertebrates need to live. GPCRs are responsible for virtually all (patho)physiological processes. They are structurally very flexible, but this has hindered their structural determination. Developing and validating the proposed molecules should help fut ....Stabilising biased allosteric G protein-coupled receptor conformations. This project aims to develop and identify molecules that can stabilise distinct calcium sensing receptor (CaSR) conformations. The CaSR is a G protein-coupled receptor (GPCR) vertebrates need to live. GPCRs are responsible for virtually all (patho)physiological processes. They are structurally very flexible, but this has hindered their structural determination. Developing and validating the proposed molecules should help future structural studies of an important GPCR. The project expects to enhance understanding of the structure and function of the CaSR and ultimately of the GPCR superfamily, which will ultimately lead to opportunities to discover new drugs.Read moreRead less