Allosteric Modulation Of G Protein-Coupled Receptors
Funder
National Health and Medical Research Council
Funding Amount
$363,000.00
Summary
The normal function of all living cells depends on how they respond to the multitude of physical and chemical stimuli to which they are constantly exposed. The majority of chemical stimuli acting on cells do so not by directly entering the cell, but rather by acting on specific types of receiver proteins on the cell's surface called receptors. One important family of receptors transmit their message to the inside of the cell by coupling to yet another type of protein known as the G protein. Aber ....The normal function of all living cells depends on how they respond to the multitude of physical and chemical stimuli to which they are constantly exposed. The majority of chemical stimuli acting on cells do so not by directly entering the cell, but rather by acting on specific types of receiver proteins on the cell's surface called receptors. One important family of receptors transmit their message to the inside of the cell by coupling to yet another type of protein known as the G protein. Aberrations in the normal function of these G protein-coupled receptors have been implicated in a wide variety of disorders, including neuropsychiatric conditions, endocrine disorders, cardiovascular disease and many cancers. To date, the majority of drugs acting at G protein-coupled receptors do so by binding to specific regions on these receptors. Although many breakthroughs in disease treatment have been achieved using this approach, there remain a number of acknowledged limitations, including lack of drug selectivity, toxicity and reduced responsiveness with prolonged therapy. Our current proposal focuses on targeting drugs to alternative regions of G protein-coupled receptors that may overcome many of the limitations associated with current drug therapies. An understanding of the properties of these alternative drug binding sites, which will be investigated in our current grant, can lead to more effective treatments for a variety of diseases.Read moreRead less
Molecular Mechanisms Of G Protein-Coupled Receptor Cross Talk
Funder
National Health and Medical Research Council
Funding Amount
$256,980.00
Summary
The normal function of all living cells depends on how they respond to the multitude of physical and chemical stimuli to which they are constantly exposed. The majority of chemical stimuli acting on cells do so not by directly entering the cell, but rather by acting on specific types of receiver proteins on the cell's surface called receptors. One important family of receptors transmit their message to the inside of the cell by coupling to yet another type of protein known as the G protein. Aber ....The normal function of all living cells depends on how they respond to the multitude of physical and chemical stimuli to which they are constantly exposed. The majority of chemical stimuli acting on cells do so not by directly entering the cell, but rather by acting on specific types of receiver proteins on the cell's surface called receptors. One important family of receptors transmit their message to the inside of the cell by coupling to yet another type of protein known as the G protein. Aberrations in the normal function of these G protein-coupled receptors have been implicated in a wide variety of disorders, such as schizophrenia, pain and dementia. To date, most therapeutic approaches to treating these disorders have targeted individual types of G protein-coupled receptors thought to play a role in each disease state, but this has met with mixed success. One of the reasons for this is that each disorder actually involves more than one type of G protein-coupled receptor communicating with other types in a complex way. Our current proposal specifically focuses on some of the newer mechanisms that have been suggested to play an important role in the communication between different types of G protein-coupled receptors located in the same type of cell. An understanding of how such receptor proteins can communicate with one another in this situation is absolutely vital in unravelling processes involved in the maintenance of health, abnormalities that lead to disease and in the development of more effective treatments.Read moreRead less