Abstract 2994: Characteristics of cross-hybridization/cross-alignment of expression in xenograft samples by RNAseq and microarrays

Stromal changes have been the focus of numerous research publications and have led to insights in both tumor development and promising new avenues for treatment. In order to study molecular changes in stroma from tissue samples it is recommended to separate tumor tissue from stromal tissue. One such...

Full description

Saved in:
Bibliographic Details
Published in:Cancer research (Chicago, Ill.) Ill.), 2012-04, Vol.72 (8_Supplement), p.2994-2994
Main Authors: Valdes, Camilo, Seo, Pearl, Clarke, Jennifer L.
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Stromal changes have been the focus of numerous research publications and have led to insights in both tumor development and promising new avenues for treatment. In order to study molecular changes in stroma from tissue samples it is recommended to separate tumor tissue from stromal tissue. One such context is mouse tumor xenograft models where tumors, particularly metastatic tumors, can be small and difficult to separate from the host tissue. In our research we compared qualitatively the ability of RNA-seq and microarray data to detect tumor (human) and stromal (mouse) expression from mixed samples in terms of cross-alignment and cross-hybridization. Samples were analyzed using HumanWG-6_V3_0_R1 and MouseWG-6_V2_0_R0 Expression BeadChips and the GenomeAnalyzer IIe (Illumina, Inc.). Samples consisted of total RNA from normal mouse lung from NOD/SCID gamma mice and total RNA from MDA-MB-231 breast cancer cells combined in fixed proportions in triplicate. We define a gene which cross-hybridizes from mouse to human as one which exists in the set defined by (B U C U D) - A, where A, B, C, and D are defined as follows. A is the set of all genes detected when pure mouse RNA was hybridized onto mouse chips (or aligned to the mouse genome); B is the set of all genes detected when 25% human/75% mouse RNA was hybridized onto mouse chips (or aligned to the mouse genome); C is the set of all genes detected when 50% human/50% mouse RNA was hybridized onto mouse chips (or aligned to the mouse genome); D is the set of all genes detected when 75% human/25% mouse RNA was hybridized onto mouse chips (or aligned to the mouse genome). A gene that cross-hybridizes from human to mouse is defined analogously. Our results show that observed levels of cross-hybridization are quite low (5.32% of human probes detected in mouse, 3.48% of mouse probes detected in human). The observed levels of cross-alignment are practically comparable to the levels of cross-hybridization (6.50% of human genes detected in mouse, 2.27% of mouse genes detected in human). However, there are genes and pathways of considerable interest to oncology researchers which show significant cross-hybridization/cross-alignment and, as such, their presence/absence or level of expression in tumor tissue versus stromal tissue cannot be determined using the platforms from this study. Cross-hybridizing/cross-aligning genes in our studies include PDGF, b-Raf, Beta-catenin, erbB2, NF-kB, MDM2, Claudin, VEGF-R, Notch2, Cycl
ISSN:0008-5472
1538-7445
DOI:10.1158/1538-7445.AM2012-2994