NCBI Logo
GEO Logo
   NCBI > GEO > Accession DisplayHelp Not logged in | LoginHelp
GEO help: Mouse over screen elements for information.
          Go
Sample GSM241933 Query DataSets for GSM241933
Status Public on Dec 31, 2007
Title OPCs (80o)
Sample type RNA
 
Source name Postnatal age day 17 PDGFRa OPCs
Organism Mus musculus
Characteristics C57BL/6 x DBA (F1)
total RNA RiboMinus 1 microgram
Treatment protocol The purification procedures are based on previously described dissociation (Huettner and Baughman, 1986; Segal et al., 1998) and immunopanning purification protocols for other cell types (Barres et al., 1988; Barres et al., 1992; Meyer-Franke et al., 1995). All aspects of the panning and FACS purification procedures are summarized below.; Preparation Of Mouse Forebrain Cell Suspensions: Six to eight mice from a wild-type litter (C57BL/6, Charles River, Wilmington, MA) or S100β-EGFP transgenic litter (C57BL/6 x DBA (F1), Kosmos line, Zuo et al., 2004) were used. The forebrain was isolated by removal of the olfactory lobes, cerebellum, and midbrain/hindbrain structures by crude dissection, and the tissue was diced with a curved-blade surgical scalpel (Feather, Osaka, Japan, GRF-2976 #10). To isolate cerebral cortical gray matter astrocytes, the brain was sliced in 2-3 mm coronal sections and the cerebral cortex was carefully dissected away from the ventral white matter tracks. This tissue was enzymatically dissociated to make a suspension of single cells, essentially as described by Huettner and Baughman (Huettner and Baughman, 1986; Segal et al., 1998). Briefly, the tissue was incubated at 33 °C for 80 minutes (90 minutes for animals P16 and older) in 20 ml of a papain solution (20 U/ml, Worthington, Lakewood, NJ, LS03126) prepared in dissociation buffer with EDTA (0.5 mM), and L-cysteine-HCl (necessary to activate the papain, 1 mM, Sigma, St. Louis, MO, C7880). The dissociation buffer contained Earle’s balanced salts (EBSS, Sigma, E7510), D(+)-glucose (22.5 mM), NaHCO3 (26 mM), and DNase (125U/ml, Worthington, LS002007) and requires careful equilibration with 5% CO2 and 95% O2 gas before use and during papain treatment. When dissociation buffer is exposed to room air during trituration, minimizing surface area and avoiding bubbles is essential to maintain the proper pH and cell health.; After papain treatment to loosen contacts in the extracellular matrix, the tissue was washed with 3 x 4 ml dissociation buffer containing BSA (1.0 mg/ml, Sigma, A-8806) and ovomucoid (also known as Trypsin Inhibitor, 1.0 mg/ml, Roche Diagnostics Corporation, Indianapolis, IN, 109878) (inhibitor solution) and then mechanically dissociated by gentle sequential trituration using a 5 ml pipette with 5 x 4 ml fresh inhibitor solution to yield a suspension of single cells. Dissociated cells were layered on top of 12 ml of concentrated inhibitor solution (5 mg/ml BSA and 5 mg/ml ovomucoid) and harvested by centrifugation (140 x g for 5 minutes, 220 x g for 10 minutes when purifying OL lineage cells). This method routinely yielded ~15-20 million cells per mouse pup forebrain, with excellent cell health as determined by morphology and viability (>90% by trypan blue exclusion).
Growth protocol Preparation Of Mouse Astroglia: Preparation of astroglia cultures was as follows. Cortices were isolated by crude dissection of six P1 mice from a S100β-EGFP transgenic litter, meninges were removed, and the tissue was chopped using a curved-blade surgical scalpel. This tissue was enzymatically dissociated to make a suspension of single cells. Briefly, the tissue was incubated at 33 °C for 75 minutes in 20 ml of a papain solution prepared in dissociation buffer containing EDTA and L-cysteine.; After papain treatment the tissue was washed with 3 x 4 ml of DPBS containing BSA (1.5 mg/ml), ovomucoid (1.5 mg/ml), and DNase (125U/ml) (ovomucoid inhibitor). The tissue was then mechanically dissociated by gentle sequential trituration using a 5 ml pipette with 5 x 4 ml fresh ovomucoid inhibitor to yield a suspension of single cells. Dissociated cells were harvested by centrifugation at 220 x g for 10 minutes. Cells were resuspended in 12 ml of concentrated ovomucoid inhibitor (5 mg/ml BSA and 5 mg/ml ovomucoid) and harvested by centrifugation. Dissociated cells were resuspended in 15 ml of astroglia media and plated in 75 cm2 tissue culture flasks (BD Falcon, 353136) that were pre-coated with PDL (10 μg/ml in water, Sigma, P6407) at a density of 25-30 million cells per flask. Astroglia media contained Dulbecco's modified eagle medium (DMEM, Invitrogen, 11960-044), 10% fetal bovine serum (FBS, Invitrogen, 10437-028), 2 mM glutamine (Invitrogen, 25030-081), 1 mM Na pyruvate (Invitrogen, 11360-070), 5 μg/ml N-Acetyl-L-cysteine (NAC, Sigma, A8199), 5 μg/ml insulin (Sigma, I6634), 100 U/ml penicillin-streptomycin (Invitrogen, 15140-122), and 10 μM hydrocortisone (Sigma, H0888). When plated under these conditions most cells including neurons and mature astrocytes die, but a small percentage of immature cells are able to survive and proliferate.; After 3 days the astroglia layer was confluent and the flask was rinsed once with DPBS and then shaken 3 times with DPBS containing phenol red to remove contaminating OL progenitor cells (OPCs), and fresh astroglia media was added. OPCs grow on top of the single cell monolayer of astroglia, so they can be removed by vigorous shaking of the sealed tissue culture flask. After 2 days, 10 μM cytosine arabinoside (AraC, Sigma, C1768) was added to kill dividing cells such as fibroblasts and microglia; the underlying monolayer of astrocytes is not affected by the antimitotic because astroglia divide slowly in dense cultures due to contact inhibition. After 48 hours the astroglia were trypsinized off and plated onto PDL-coated 15 cm tissue culture dishes at 2 million cells per dish in astroglia media.; For preparation of astroglia grown in serum free media, confluent cultures of astroglia prepared as described above were washed three times with DPBS and 20 ml serum-free media was added. Serum-free medium, modified from Bottenstein and Sato (1979), contained neurobasal (Invitrogen, 21103-049), bovine serum albumin (100 μg/ml, BSA, Sigma, A4161), selenium (40 ng/ml, Sigma, S5261), putrescine (16 μg/ml, Sigma, P5780), transferrin (100 μg/ml, Sigma, T1147), progesterone (60 ng/ml, Sigma, P8783), triiodo-thyronine (40 ng/ml, Sigma, T6397), penicillin-streptomycin (100U/ml), insulin (5 μg/ml) NAC (5 μg/ml), pyruvate (1 mM), and glutamine (2 mM).
Extracted molecule total RNA
Extraction protocol Total RNA was isolated from acutely purified cells with the RNeasy micro kit (Qiagen, Valencia, CA) using Qiashredder columns for cell lysis and Qiagen on-column DNase treatment to remove any contaminating genomic DNA. The integrity of RNA was assessed using an Agilent 2100 Bioanalyzer (Agilent Technologies, Santa Clara , CA), and RNA concentration was determined using a NanoDrop ND-1000 spectrophotometer (NanoDrop, Rockland, DE).
Label biotin
Label protocol Biotinylated sense-strand DNA for hybridization to Affymetrix exon-arrays was prepared with the Affymetrix GeneChip whole transcript sense target labeling assay, using either the standard 1 μg total RNA method or the reduced starting material 100 ng method according to the manufacturer’s protocols (Affymetrix, 900854). Briefly, for samples with 1 μg of total RNA, ribosomal RNA reduction was performed using the RiboMinus Human/Mouse Transcriptome Isolation Kit (Invitrogen, K1550-01); ribosomal RNA reduction was not performed for the 100 ng reduced starting material samples.
 
Hybridization protocol The labeling assay yielded labeled single-stranded DNA that was fragmented and hybridized to Affymetrix Mouse Exon 1.0 ST Arrays (exon-arrays) according to manufacturer’s protocols at the Stanford Protein and Nucleic Acid Facility
Scan protocol Hybridized Affymetrix Mouse Exon 1.0 ST Arrays (exon-arrays) were scanned following the manufacturer’s protocols at the Stanford Protein and Nucleic Acid Facility
Description John_80O_MoEx-1_0-st
Data processing Raw image files were processed using Affymetrix GCOS 1.3 software to generate CEL data files. Exon-array expression indexes were calculated using the GeneBASE program (Kapur et al., 2007). Briefly, the program employs a sequence-specific background model to correct background intensities of exon-array probes (Kapur et al., 2007), followed by an iterative probe selection procedure (Xing et al., 2006) that selects a subset of highly correlated probes of a gene for expression index computation.
 
Submission date Nov 08, 2007
Last update date Aug 14, 2011
Contact name John Cahoy
E-mail(s) jcahoy@stanford.edu
Organization name Stanford University
Department Department of Neurobiology
Lab Ben Barres Lab
Street address 299 Campus Drive
City Stanford
State/province CA
ZIP/Postal code 94305
Country USA
 
Platform ID GPL6096
Series (1)
GSE9566 A Transcriptome Database for Astrocytes, Neurons, and Oligodendrocytes

Data table header descriptions
ID_REF
VALUE Exon-array expression indexes

Data table
ID_REF VALUE
6747308 454
6747309 1507
6747314 980
6747326 7
6747343 445
6747354 8
6747364 900
6747471 452
6747472 231
6747478 3156
6747497 778
6747504 24
6747515 225
6747577 31
6747641 515
6747696 1
6747747 557
6747786 297
6747805 373
6747837 456

Total number of rows: 17213

Table truncated, full table size 194 Kbytes.




Supplementary file Size Download File type/resource
GSM241933.CEL.gz 21.3 Mb (ftp)(http) CEL
Processed data included within Sample table

| NLM | NIH | GEO Help | Disclaimer | Accessibility |
NCBI Home NCBI Search NCBI SiteMap