National Glaucoma Research - Current Award
Chad A. Dickey, Ph.D.
University of South Florida
Tampa, FL, United States
Title: Disrupting Chaperone/Myocilin Complexes for Glaucoma
Non-Technical Title: Targeting Chaperone Proteins to Improve Glaucoma
Duration: July 1, 2012 - June 30, 2014
Award Type: Standard
Award Amount: $100,000
Dr. Dickey and colleagues have determined that a class of proteins termed “chaperones” plays an important part in preserving the proper shape of another protein called myocilin. This is important because mutant myocilin accumulates and kills eye cells important for vision, leading to primary open-angle glaucoma (OAG). The scientists speculate that these chaperones will be excellent drug targets for OAG.
Dr. Dickey and colleagues will test whether a group of chaperone proteins are good drug targets for some cases of glaucoma caused by mutations in myocilin.
Mutations in myocilin are responsible for as many as 33% of juvenile open-angle glaucoma cases, and myocilin is also mutated in some adult forms of the disease. Dr. Dickey’s team has determined that inhibition of one chaperone can reduce the levels of mutant myocilin and that a second chaperone can protect mutant myocilin in the part of the cell where proteins are made and folded, called the endoplasmic reticulum (ER). When they deplete the levels of the second chaperone protein, mutant myocilin is cleared out of the cell. Thus developing a better understanding of how this second chaperone protein associates with myocilin may lead to new therapeutic strategies to combat glaucoma.
Proteins need to be folded into their proper shape to keep the cell functioning properly. However, there are some mutated proteins that can slip unchecked through the protein-folding machinery to do their damage on the cell. Such is the case with mutant myocilin. In this project, these researchers will determine whether manipulation of the protein-folding machinery can help clear mutant myocilin from the ER, an area that has not been investigated in the past. They will also determine the mechanism through which mutant myocilin is cleared. While associations of myocilin with chaperones have been demonstrated, direct intervention in a model of myocilin accumulation by chaperone manipulation has not been pursued.
Dr. Dickey anticipates that the identification of chaperones that associate with mutant myocilin may make excellent drug targets in the future. This same approach is already being developed in other diseases such as cancer, cystic fibrosis, and Alzheimer's disease. This strategy may work extremely well for glaucoma caused by myocilin mutations since a loss of protein functionality does not seem to be detrimental in humans.
Associate Professor, Chad Dickey joined the faculty at the University of South Florida Health Byrd Alzheimer’s Institute in Tampa, FL, in September 2008. Dickey earned his Ph.D. from the University of South Florida under the direction of Dr. David Morgan in 2004. He completed post-doctoral training at the Mayo Clinic in Jacksonville, Florida, under the direction of Dr. Michael Hutton, an expert in the field of Alzheimer’s disease genetics. He was a recipient of a New Investigator Award from the Alzheimer’s Association and a Rosalinde and Arthur Gilbert Foundation/AFAR New Investigator Award in Alzheimer's Disease. Dickey conducted two research projects for the Society for Progressive Supranuclear Palsy to study the mechanisms behind this particular form of hereditary dementia. He lives in the Carrollwood area of Tampa with his wife Adria and his two sons, Luke and Jacob.