Microarray Analysis of Gene Expression in the Aging Human Retina

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Microarray Analysis of Gene Expression in the Aging Human Retina

Shigeo Yoshida, Beverly M. Yashar, Suja Hiriyanna and Anand Swaroop

From the Departments of Ophthalmology and Visual Sciences and Human Genetics, W. K. Kellogg Eye Center, University of Michigan, Ann Arbor, Michigan.

PURPOSE. To develop gene expression profiles of young and elderlyhuman retinas and identify candidate genes for aging-associatedretinal diseases.

METHODS. Gene microarray slides containing 2400 human genes(primarily neuronal) were hybridized to biotin or dinitrophenyl(DNP)-labeled target cDNAs that were synthesized using totalRNAs from young (13–14 years) and elderly (62–74years) human retinas. Hybridization signals were visualizedwith cyanine (Cy)-5 or Cy-3 fluorescent reporter molecules,and the fluorescence intensities of the images were analyzedby computer. Northern blot analysis and real-time quantitativereverse transcription PCR (qRT-PCR) were performed to validatethe microarray results.

RESULTS. Of the 2400 genes represented on the microarray slides,more than 50% hybridized to the retinal cDNA targets. Expressionof a majority of these genes was not altered during aging; nonetheless,changes in the expression of 24 genes were detected betweenyoung and elderly retinas. These genes could be clustered intofour categories: energy metabolism, stress response, cell growth,and neuronal transmission/signaling. Northern blot analysisand qRT-PCR results confirmed the changes in expression of 8of 10 genes examined.

CONCLUSIONS. Using commercially available slide microarrays,the authors show that aging of the human retina is associatedwith changes in patterns of gene expression. This analysis suggeststhat pathways involved in stress response and energy metabolismplay key roles in retinal aging. These studies demonstrate theutility of gene microarrays in identifying global patterns ofretinal gene expression and lay the foundation for future studiesdefining the genetic basis of aging-associated retinal diseases,such as age-related macular degeneration.

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