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Series GSE37618 Query DataSets for GSE37618
Status Public on Jul 22, 2013
Title Glucocorticoid-Dependent Hippocampal Transcriptome in Male Rats: Pathway-Specific Alterations with Aging
Organism Rattus norvegicus
Experiment type Expression profiling by array
Summary Although glucocorticoids (GCs) are known to exert numerous effects in the hippocampus, their chronic regulatory functions remain poorly understood. Moreover, evidence is inconsistent regarding the longstanding hypothesis that chronic GC exposure promotes brain aging/Alzheimer's disease. Here, we adrenalectomized male F344 rats at 15-months-of-age, maintained them for 3 months with implanted corticosterone (CORT) pellets producing low or intermediate (glucocorticoid-receptor (GR)-activating) blood levels of CORT, and performed microarray/pathway analyses in hippocampal CA1. We defined the chronic GC-dependent transcriptome as 393 genes that exhibited differential expression between Intermediate- and Low-CORT groups. Short-term CORT (4 days) did not recapitulate this transcriptome. Functional processes/pathways overrepresented by chronic CORT-upregulated genes included learning/plasticity, differentiation, glucose metabolism and cholesterol biosynthesis, whereas processes overrepresented by CORT-downregulated genes included inflammatory/immune/glial responses and extracellular structure. These profiles indicate that GCs chronically activate neuronal/metabolic processes while coordinately repressing a glial axis of reactivity/inflammation. We then compared the GC-transcriptome with a previously-defined hippocampal aging transcriptome, revealing a high proportion of common genes. Although CORT and aging moved expression of some common genes in the same-direction, the majority were shifted in opposite directions by CORT and aging (e.g., glial inflammatory genes downregulated by CORT are upregulated with aging). These results contradict the hypothesis that GCs simply promote brain aging, and also suggest that the opposite-direction shifts during aging reflect resistance to CORT regulation. Therefore, we propose a new model in which aging-related GC resistance develops in some target pathways while GC overstimulation develops in others, together generating much of the brain aging phenotype.
 
Overall design Forty male Fischer 344 rats aged 14-15 months (late mid-age) were either sham operated (n=10) or adrenalectomized (n=30) at Harlan, Inc. (Indianapolis) and shipped to University of Kentucky 7-10 d after surgery. Animals were allowed to acclimate for 2 weeks after receipt prior to pellet-implant and were provided with food and water ad lib. Adrenalectomized (ADX) animals were maintained on drinking water containing isotonic saline with 1% sucrose, and also given supplemental feed mash (standard chow mixed with water and warmed) and apple chunks, as well as subcutaneous injections of 1.25 mg corticosterone sulfate (Solu-DeltaCort, Pfizer). During pellet-implant surgery, subjects were anesthetized with isoflurane, placed on a warming pad, and a 3 cm2 area on the animal's flank was shaved and sterilized. A 1-cm incision was made through the skin to form a subcutaneous pocket. Each sham animal received an inert pellet. ADX animals were divided into two groups, low-dose animals (n = 20) received one 25 mg CORT pellet and intermediate-dose animals (n = 10) received one 200 mg CORT pellet (slow release pellets, Innovative Research of America, Sarasota, FL). Incisions were closed with wound clips (removed after 7-10 days). Following implant surgery, subjects were housed singly for 3 months prior to euthanasia at age 18 months. Low-dose animals continued to receive saline/ sucrose drinking water, but other supplementation (food mash, Solu-Delta CORT, apple chunks) was discontinued. One ADX animal was removed from the study for declining health. During the twelfth week, just prior to study termination, half of the ADX low-dose CORT subjects were given a short-term, high-dose regimen consisting of 4 daily IP injections of 5mg/d CORT (considered a relatively high dose- Makino et al., 1995). All animals were killed between 8 and 10 AM on the last two days of the study. After deep CO2 anesthesia and decapitation, trunk blood was collected for CORT radioimmunoassay and hippocampal CA1 brain tissue was dissected as described previously (Blalock et al., 2003) for microarray analysis (see below). Final treatment groups consisted of: 1) Sham (intact) control, 2) Low-CORT (ADX), 3) Intermediate-CORT (ADX), and 4) Low-CORT (ADX) + short-term high-dose injected (n=9-10/group).
 
Contributor(s) Chen K, Porter NM, Curran-Rauhut MA, Blalock SJ, Staton J, Secrest-Walters A, Landfield PW
Citation(s) 23736296
Submission date Apr 26, 2012
Last update date Feb 21, 2017
Contact name Eric M Blalock
E-mail(s) eric.blalock@uky.edu
Phone 859-323-8033
Organization name University of Kentucky
Department Molecular and Biomedical Pharmacology
Lab Blalock
Street address 800 Rose St.
City Lexington
State/province KY
ZIP/Postal code 40475
Country USA
 
Platforms (1)
GPL85 [RG_U34A] Affymetrix Rat Genome U34 Array
Samples (39)
GSM923289 rat hippocampus (CA1 region), sham, 18 months old, subject 1
GSM923290 rat hippocampus (CA1 region), sham, 18 months old, subject 2
GSM923291 rat hippocampus (CA1 region), sham, 18 months old, subject 3
Relations
BioProject PRJNA162371

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Series Matrix File(s) TXTHelp

Supplementary file Size Download File type/resource
GSE37618_RAW.tar 76.5 Mb (http)(custom) TAR (of CEL)
Raw data provided as supplementary file
Processed data included within Sample table

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