Gustavo
Aguirre
Professor,
Medical Genetics and Ophthalmology
Genetics
and Gene Regulation Program
Address
School
of Veterinary Medicine
Ryan-VHUP, Room 2050
3900 Delancy St.
Philadelphia,
PA 19104-6010
Office tel.: 215 898-4667
Lab tel.: 215 898-9426
Fax: 215 898-2162
E-mail: gda@vet.upenn.edu
Education
University
of Pennsylvania, PhD,
(Cell Biology/Physiology), 1975
University of Pennsylvania, VMD
(Veterinary Medicine), 1968
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Research
Interests
- Molecular bases of inherited blindness
Key words: Retinal degeneration, photoreceptor
cells, gene therapy.
Description
of Research
Our research is directed to
identifying the genetic causes of inherited blindness, identifying
the mechanisms linking mutation to disease, and developing
treatment approaches. Studies are done in the dog model which
is affected a large variety of inherited photoreceptor diseases
that are now being characterized at the molecular level. For
"disease hunting" work, we have used two general approaches.
The first, phenotype directed candidate gene analysis, directs
selection of a small subset of candidate genes that, when
mutated, would be expected to result in the observed phenotype.
The second approach utilizes informative pedigree resources
we have developed to carry out genome wide scans to identify
the disease bearing chromosomal region. Subsequently, positional
cloning of the gene and identification of the causative mutation
is carried out. Once the genes and mutations are identified,
we use molecular and proteomic approaches to examine the disease
mechanism. In parallel, gene based therapies are developed
with the goal of restoring function and preventing the degeneration
of the mutant photoreceptor cells.
Examples of specific projects
include:
• RPGR: mechanisms of disease and treatment. The RP3
form of X-linked retinitis pigmentosa (XLRP) is caused by
mutations in the RP GTPase regulator (RPGR) gene. This is
a uniformly severe, early onset retinal disease in man, and
mutations in RPGR account for the majority of XLRP, and for
~8-25% of all molecularly diagnosed RP cases. Besides man,
the dog is the only other species in which naturally occurring
mutations in RPGRORF15 occur. Two different ORF15 microdeletions
have been identified that are termed XLPRA1 and XLPRA2 because
they are different forms of X linked progressive retinal atrophy,
the dog counterpart of human RP. To examine the mechanism
of disease, our lab is using microarray analysis to characterize
global gene expression profiles, and determine the gene classes
that are activated or suppressed at different stages of the
disease. In parallel, proteomic analysis examine the different
RPGR protein isoforms, and their distribution in retina and
other tissues. Therapy studies are starting and will use AAV2/5
vectors carrying a truncated but functional gene, and regulated
by promoters that target expression to rods and/or cones.
• Rhodopsin and light damage. Mutations in the rhodopsin
gene are one of the most common causes of autosomal dominant
retinits pigmentosa. Dogs have a mutation in this gene that
substitutes arginine for threonine at the first consensus
glycosylation site. This renders the mutant rhodopsin exquisitively
sensitive to light levels that are within the normal intensity
range. Following light exposures, the photoreceptors die and
retina degenerates within a brief time period. Using a standard
light exposure paradigm, we are examining the signaling pathways
that become activated following light exposure to identify
those involved in cell survival and cell death.
• Bestrophin mutations and disease. Mutations in the
Bestrophin gene impair the function of calcium dependent chloride
channels in the retinal pigment epithelium (RPE), and cause
Best Macular Dystrophy (BMD), a disease of young children
and young adults that results in central visual impairment.
We have identified 2 different mutations in the Bestrophin
gene in dogs that cause a disease similar to BMD although
with multifocal distribution. We now aim to use a combination
of cell culture, molecular and proteomic approaches to characterize
normal and mutant Bestrophin expression, distribution and
function in the RPE as an initial approach to examine the
functional consequences of these mutations.
Recent
Publications
Komáromy, A.M., Alexander, J.J., Cooper,
A.E., Chiodo, V.A., Acland, G.M., Hauswirth, W.W. and Aguirre,
G.D. Targeting gene expression to cones with human cone opsin
promoters in recombinant AAV. Gene Therapy 2008;
15:1049-1055.
Parker, H.G., Kukekova, A.V., Akey, D.T., Goldstein,
O., Kirkness, E.F., Baysac, K.C., Mosher, D.S., Aguirre, G.D.,
Acland, G.M. and Ostrander, E.A. Breed relationships facilitate
fine mapping studies: a 7.8Kb deletion cosegregates with collie
eye anomaly across multiple dog breeds. Genome Res
17:1562-1571, 2007.
Gu, D., Beltran, W.A., Li, Z., Acland, G.M.
and Aguirre, G.D. Clinical light exposure, photoreceptor degeneration
and AP-1 activation: a cell death or cell survival signal
in the rhodopsin mutant retina? Inv. Ophthalm. Vis. Sci.
48:4907-4918, 2007.
Guyon, R., Pearce-Kelling, S.E., Zeiss, C.J.,
Acland, G.M. and Aguirre, G.D. Analysis of six candidate genes
as potential modifiers of disease expression in canine XLPRA1,
a model for human X-Linked retinitis pigmentosa 3 (RP3). Molecular
Vision 13:1094-1105, 2007.
Zangerl, B., Goldstein, O., Philp, A.R., Lindauer,
S.J., Pearce-Kelling, S., Graphodatzky, A.S., Ripoll, D.,
Felix, J., Stone, E.M., Acland, G. M., Aguirre, G. D. Identical
mutation in a novel retinal gene causes progressive rod-cone
degeneration (prcd) in dogs, and retinitis pigmentosa in man.
Genomics 88:551-563, 2006.
Search PubMed for more articles
Lab
Rotation
Projects
No lab rotations during 2008-2009 academic year
- Lab
personnel:
- Barbara Zangerl, DVM, PhD: Research Assistant
Professor
Karina Guziewicz, PhD: Senior Research Investigator
Sem Genini, PhD: Postdoctoral fellow
Tatyana Kuznetsova, PhD: Postdoctoral fellow
Sarah Lindauer BS: Research Specialist
Anshul Gupta, BS: Research technician
Shana Gilbert, BS: combined degree student
Lydia Melnyk, BS: Administrative assistant
last updated 8/2008
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