GeneSet Information

Tier III GS75577 • Pituitary genes with highest fold regulation by morphine at 4d

DESCRIPTION:

from Anghel et al., 2010

LABEL:

pituitary morphine 4d

SCORE TYPE:

Q-Value

THRESHOLD:

<= 0.5

GENES IN THRESHOLD:

10

DATE ADDED:

2010-06-21

DATE UPDATED:

2024-10-22

SPECIES:

AUTHORS:

Anghel A, Jamieson CA, Ren X, Young J, Porche R, Ozigbo E, Ghods DE, Lee ML, Liu Y, Lutfy K, Friedman TC

TITLE:

Gene expression profiling following short-term and long-term morphine exposure in mice uncovers genes involved in food intake.

JOURNAL:

Neuroscience May 2010, Vol 167, pp. 554-66

ABSTRACT:

Addictive drugs including opioids activate signal transduction pathways that regulate gene expression in the brain. However, changes in CNS gene expression following morphine exposure are poorly understood. We determined changes in gene expression following short- and long-term morphine treatment in the hypothalamus and pituitary using genome-wide DNA microarray analysis and confirmed those alterations in gene expression by real-time reverse transcriptase polymerase chain reaction (RT-PCR) analysis. In the hypothalamus, short-term morphine administration up-regulated (at least twofold) 39 genes and down-regulated six genes. Long-term morphine treatment up-regulated 35 genes and down-regulated 51 genes. In the pituitary, short-term morphine administration up-regulated 110 genes and down-regulated 29 genes. Long-term morphine treatment up-regulated 85 genes and down-regulated 37 pituitary genes. Microarray analysis uncovered several genes involved in food intake (neuropeptide Y, agouti-related protein, and cocaine and amphetamine-regulated transcript) whose expression was strongly altered by morphine exposure in either the hypothalamus or pituitary. Subsequent RT-PCR analysis confirmed similar regulation in expression of these genes in the hypothalamus and pituitary. Finally, we found functional correlation between morphine-induced alterations in food intake and regulation of genes involved in this process. Changes in genes related to food intake may uncover new pathways related to some of the physiological effects of opioids. PUBMED: 20144693
Find other GeneSets from this publication

Annotation Information

No sequence read archive data associated with this GeneSet.


Eating (D004435)
Social Control, Formal (D012926)
Brain (D001921)
Animals (D000818)
DNA (D004247)
Pituitary Gland (D010902)
Polymerase Chain Reaction (D016133)
Mice (D051379)
Gene Expression Profiling (D020869)
Microarray Analysis (D046228)
Therapeutics (D013812)
Time Factors (D013997)
Substance Withdrawal Syndrome (D013375)
Reverse Transcriptase Polymerase Chain Reaction (D020133)
Food (D005502)
Pharmaceutical Preparations (D004364)
RNA-Directed DNA Polymerase (D012194)
Hypothalamus (D007031)
Oligonucleotide Array Sequence Analysis (D020411)
Cocaine (D003042)
Mice, Inbred C57BL (D008810)
Organization and Administration (D009934)
DNA-Directed RNA Polymerases (D012321)
Morphine Dependence (D009021)
Agouti-Related Protein (D054369)
Morphine (D009020)
Body Weight (D001835)
Signal Transduction (D015398)
Analgesics, Opioid (D000701)
hypothalamus (MA:0000173)
brain (MA:0000168)
transduction (GO:0009293)
signal transduction (GO:0007165)
gene expression (GO:0010467)

Gene List • 10 Genes

Genes in threshold: 10

Uploaded As Gene Symbol Homology Score Priority LinkOuts Emphasis  

Manage GeneSets

Analyze GeneSets

Manage Accounts

GeneWeaver Links

Policies


Supported by NIH R01 AA18776 jointly funded by NIAAA and NIDA, and JAX Center for Precision Genetics NIH U54 OD 020351

Application Version 1.5.13