Abstract
CDKN2A (encodes p16INK4A and p14ARF) deletion, which results in both Rb and p53 inactivation, is the most common chromosomal anomaly in human cancers. To precisely map the deletion breakpoints is important to understanding the molecular mechanism of genomic rearrangement and may also be useful for clinical applications. However, current methods for determining the breakpoint are either of low resolution or require the isolation of relatively pure cancer cells, which can be difficult for clinical samples that are typically contaminated with various amounts of normal host cells. To overcome this hurdle, we have developed a novel approach, designated Primer Approximation Multiplex PCR (PAMP), for enriching breakpoint sequences followed by genomic tiling array hybridization to locate the breakpoints. In a series of proof-of-concept experiments, we were able to identify cancer-derived CDKN2A genomic breakpoints when more than 99.9% of wild type genome was present in a model system. This design can be scaled up with bioinformatics support and can be applied to validate other candidate cancer-associated loci that are revealed by other more systemic but lower throughput assays.
Highlights
Tumors evolve through the continuous accumulation and selection of randomly mutated genes
One of the most striking examples is the homozygous deletion of the CDKN2A (INK4A/ARF) tumor suppressor locus, which was discovered in this and other laboratories [3,4,5,6,7,8]
Because the Rb and p53 pathways are central to cancer gatekeeping and caretaking [18,19], strong selection pressures exist for the disruption of the entire CDKN2A gene segment on both chromosomes
Summary
Tumors evolve through the continuous accumulation and selection of randomly mutated genes. While sets of advantageous mutations are selected in tumors, neutral or even slightly detrimental mutations may occur due to genomic instability and genetic drift. Systemic mapping of genomic DNA rearrangements has lagged behind, due to technical difficulties in detecting smaller deletions, tumor heterogeneity, and the necessity to purify malignant from normal cells [1]. The CDKN2A deletions occur early during tumor development [9,10,11]. Because the Rb and p53 pathways are central to cancer gatekeeping and caretaking [18,19], strong selection pressures exist for the disruption of the entire CDKN2A gene segment on both chromosomes. Large scale studies with clinical samples will be the most reliable confirmation
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