S. Ganapathiraju scite author profile

Recent studies with tiling arrays have revealed more genomic transcription than previously anticipated. Whole new groups of non-coding transcripts (NCTs) have been detected. Some of these NCTs, including miRNAs, can regulate gene expression. To date, most known NCTs studied have been relatively short, but several important regulatory NCTs, including XIST, MALAT-1, BC1 and BC200, are considerably larger in length and represent a novel class of long, non-coding RNA species. Whole-genome tiling arrays were utilized to identify novel long NCTs across the entire human genome. Our results have identified a new group of long (>400 nt), abundantly expressed NCTs and have found that a subset of these are also highly evolutionarily conserved. In this report, we have begun to characterize 15 long, conserved NCTs. Quantitative real-time RT-PCR was used to analyze their expression in different normal human tissue and also in breast and ovarian cancers. We found altered expression of many of these NCTs in both cancer types. In addition, several of these NCTs have consistent mutations when sequences of normal samples were compared with a panel of cancer-derived cell lines. One NCT was found to be consistently mutated in a panel of endometrial cancers compared with matched normal blood. These NCTs were among the most abundantly expressed transcripts detected. There are probably many long, conserved NCTs, albeit with lower levels of expression. Although the function of these NCTs is currently unknown, our study indicates that they may play an important function in both normal cells and in cancer development.

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Non-random inactivation of large common fragile site genes in different cancers

McAvoy

Ganapathiraju

Ducharme‐Smith

et al. 2007

Cytogenet Genome Res

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The common fragile sites are regions of profound genomic instability found in all individuals. The full size of each region of instability ranges from under one megabase (Mb) to greater than 10 Mbs. At least half of the CFS regions have been found to span extremely large genes that spanned from 600 kb to greater than 2.0 Mbs. The large CFS genes are also very interesting from a cancer perspective as several of them, including FHIT and WWOX, have already demonstrated the capacity to function as tumor suppressor genes, both in vitro and in vivo. We estimate that there may be 40–50 large genes localized in CFS regions. The expression of a number of the large CFS genes has been previously shown to be lost in many different cancers and this is frequently associated with a worse clinical outcome for patients. To determine if there was selection for the inactivation of different large CFS genes in different cancers, we examined the expression of 13 of the 20 known large CFS genes: FHIT, WWOX, PARK2, GRID2, NBEA, DLG2, RORA isoforms 1 and 4, DAB1, CNTNAP2, DMD, IL1RAPL1, IMMP2L and LARGE in breast, ovarian, endometrial and brain cancers using real-time RT-PCR analysis. Each cancer had a distinct profile of different large CFS genes that were inactivated. Interestingly, in breast, ovarian and endometrial cancers there were some cancers that had inactivation of expression of none or only one of the tested genes, while in other specimens there was inactivation of multiple tested genes. Brain cancers had inactivation of many of the tested genes, a number of which function in normal neurological development. We find that there is no relationship between the frequency that any specific CFS is expressed and the frequency that the gene from that region is inactivated in different cancers. Instead, it appears that different cancers select for the inactivation of different large CFS genes.

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<i>DMD</i> and <i>IL1RAPL1</i>: two large adjacent genes localized within a common fragile site (FRAXC) have reduced expression in cultured brain tumors

McAvoy

Ganapathiraju

Perez

et al. 2007

Cytogenet Genome Res

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Common fragile sites (CFSs) are large regions of profound genomic instability found in all individuals. Spanning the center of the two most frequently expressed CFS regions, FRA3B (3p14.3) and FRA16D (16q23.2), are the 1.5 Mb FHIT gene and the 1.0 Mb WWOX gene. These genes are frequently deleted and/or altered in many different cancers. Both FHIT and WWOX have been demonstrated to function as tumor suppressors, both in vitro and in vivo. A number of other large CFS genes have been identified and are also frequently inactivated in multiple cancers. Based on these data, several additional very large genes were tested to determine if they were derived from within CFS regions, but DCC and RAD51L1 were not. However, the 2.0 Mb DMD gene and its immediately distal neighbor, the 1.8 Mb IL1RAPL1 gene are CFS genes contained within the FRAXC CFS region (Xp21.2→p21.1). They are abundantly expressed in normal brain but were dramatically underexpressed in every brain tumor cell line and xenograft (derived from an intracranial model of glioblastoma multiforme) examined. We studied the expression of eleven other large CFS genes in the same panel of brain tumor cell lines and xenografts and found reduced expression of multiple large CFS genes in these samples. In this report we show that there is selective loss of specific large CFS genes in different cancers that does not appear to be mediated by the relative instability within different CFS regions. Further, the inactivation of multiple large CFS genes in xenografts and brain tumor cell lines may help to explain why this type of cancer is highly aggressive and associated with a poor clinical outcome.

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0611: Selective Inactivation of Multiple Large Common Fragile Site Genes in Ovarian and Endometrial Cancers

Smith

McAvoy

Ganapathiraju

et al. 2006

Int J Gynecol Cancer

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S. Ganapathiraju

Long, abundantly expressed non-coding transcripts are altered in cancer

Non-random inactivation of large common fragile site genes in different cancers

<i>DMD</i> and <i>IL1RAPL1</i>: two large adjacent genes localized within a common fragile site (FRAXC) have reduced expression in cultured brain tumors

0611: Selective Inactivation of Multiple Large Common Fragile Site Genes in Ovarian and Endometrial Cancers

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