Alistair Barber

Personal Information
Title Associate Professor
Expertise Retinopathy
Institution Pennsylvania State University-Penn State College of Medicine
Data Summary
TypeCount
Grants/SubContracts 1
Progress Reports 1
Presentations 1
Publications 7
Protocols 0
Committees 1
Experiments 0
Strains 0
Models 0

SubContract(s)


The Ins2Akita mouse as a model of vision loss and neurodegeneration in diabetes
The overall goal of this research is to determine the mechanism of vision loss in diabetic retinopathy. The main objective of the proposed project is to develop functional assays of vision loss in the spontaneously diabetic Ins2Akita mouse, and compare the loss of function with assays of cell death, retinal morphomotry (cell layer thickness and nuclear counts) and synaptic protein content. A new approach that uses the optokinetic reflex will be employed to measure visual acuity and contrast sensitivity in mice. We have also established that a rapid and sensitive cell death ELISA can be used to measure apoptosis in mouse retinas. This assay measures the amount of nucleosomal fragments in the cytoplasm of cells undergoing apoptosis. Furthermore, our published data show that the content of a group of pre-synaptic proteins is depleted in the retinas of diabetic rodents, and that diabetes leads to reductionsin the thicknes of the inner retinal layers in mice and rats. These assays can be used to measure loss of function, apoptosis, retinal degeneration and synaptic malfunction in Ins2Akita diabetic mice. Therefore this project will test the general hypothesis that diabetes induces retinal neurodegeneration and compromises visual function in the Ins2Akita mouse. The first specific aim is to measure vision loss, apoptosis and retinal morphomotry in diabetic Ins2Akita mice after different durations of diabetes. The second specific aim is to measure vision loss and synaptic protein content in Ins2Akita mice, again after different durations of diabetes. It is predicted that apoptosis will be detected soon after the onset of diabetes and that visual acuity and contrast sensitivity will be correlated with loss of the retinal cell layers and with reduced synaptic protein content. This project will further establish the Ins2Akita mouse as a model of diabetic retinopathy, and will test the concept that retinal cell apoptosis and synaptic degeneration lead to vision loss. Furthermore, it will identify the threshold of synaptic protein and retinal cell loss that is required to cause a measurable loss of function in the Ins2Akita mouse.


Progress Reports

Annual Reports

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 PublicationAltmetricsSubmitted ByPubMed IDStatus

Year: 2014; Items: 1

 
NRF2 plays a protective role in diabetic retinopathy in mice.
Xu Z, Wei Y, Gong J, Cho H, Park JK, Sung ER, Huang H, Wu L, Eberhart C, Handa JT, Du Y, Kern TS, Thimmulappa R, Barber AJ, Biswal S, Duh EJ
Diabetologia, 2014 (57), 204 - 213
Submitted Externally
24186494
Published

Year: 2012; Items: 1

 
Post-translational processing of synaptophysin in the rat retina is disrupted by diabetes.
D'Cruz TS, Weibley BN, Kimball SR, Barber AJ
PLoS ONE, 2012 (7), e44711
22970294
Published

Year: 2011; Items: 3

 
An integrated approach to diabetic retinopathy research.
Gardner TW, Abcouwer SF, Barber AJ, Jackson GR
Archives of ophthalmology, 2011 (129), 230 - 235
Submitted Externally
21320973
Published
 
The significance of vascular and neural apoptosis to the pathology of diabetic retinopathy.
Barber AJ, Gardner TW, Abcouwer SF
Investigative ophthalmology & visual science, 2011 (52), 1156 - 1163
21357409
Published
 
Differential roles of hyperglycemia and hypoinsulinemia in diabetes induced retinal cell death: evidence for retinal insulin resistance.
Fort PE, Losiewicz MK, Reiter CE, Singh RS, Nakamura M, Abcouwer SF, Barber AJ, Gardner TW
PLoS ONE, 2011 (6), e26498
Submitted Externally
22046295
Published

Year: 2010; Items: 1

 
Visual dysfunction associated with diabetic retinopathy.
Jackson GR, Barber AJ
Current diabetes reports, 2010 (10), 380 - 384
20632133
Published

Year: 2008; Items: 1

 
Retinal ganglion cells in diabetes.
Kern TS, Barber AJ
The Journal of physiology, 2008 (586), 4401 - 4408
18565995
Published

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Title YearTypeOptions
Barber, Alistair (2009 P&F)
2009Presentation
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