WW domain-containing oxidoreductase: a candidate tumor suppressor (original) (raw)
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Molecular Functions of WWOX Potentially Involved in Cancer Development
Cells
The WW domain-containing oxidoreductase gene (WWOX) was cloned 21 years ago as a putative tumor suppressor gene mapping to chromosomal fragile site FRA16D. The localization of WWOX in a chromosomal region frequently altered in human cancers has initiated multiple current studies to establish its role in this disease. All of this work suggests that WWOX, due to its ability to interact with a large number of partners, exerts its tumor suppressive activity through a wide variety of molecular actions that are mostly cell specific.
Targeted deletion of Wwox reveals a tumor suppressor function
Proceedings of the National Academy of Sciences, 2007
The WW domain-containing oxidoreductase (WWOX) spans the second most common fragile site of the human genome, FRA16D, located at 16q23, and its expression is altered in several types of human cancer. We have previously shown that restoration of WWOX expression in cancer cells suppresses tumorigenicity. To investigate WWOX tumor suppressor function in vivo, we generated mice carrying a targeted deletion of the Wwox gene and monitored incidence of tumor formation. Osteosarcomas in juvenile Wwox ؊/؊ and lung papillary carcinoma in adult Wwox ؉/؊ mice occurred spontaneously. In addition, Wwox ؉/؊ mice develop significantly more ethyl nitrosourea-induced lung tumors and lymphomas in comparison to wild-type littermate mice. Intriguingly, these tumors still express Wwox protein, suggesting haploinsuffiency of WWOX itself is cancer predisposing. These results indicate that WWOX is a bona fide tumor suppressor.
WWOX: Its genomics, partners, and functions
Journal of Cellular Biochemistry, 2009
The WW domain-containing oxidoreductase (WWOX) spans one of the most active common fragile sites (CFSs) involved in cancer, FRA16D. WWOX encodes a 46-kDa protein that contains two N-terminal WW domains and a central short-chain dehydrogenase/reductase (SDR) domain. Through its WW domain, Wwox interacts with its partners and modulates their functions. Our data indicate that Wwox suppresses the transactivation function of several transcription factors implied in neoplasia by sequestering them in the cytoplasm. Work from our laboratory and other research groups have demonstrated that Wwox participates in a number of cellular processes including growth, differentiation, apoptosis, and tumor suppression. Targeted deletion of the Wwox gene in mice causes increased spontaneous and chemically induced tumor incidence supporting bona fide tumor suppressor function of WWOX. Moreover, generation of the Wwox-deficient mice uncovers, at least in part, some of the physiological in vivo functions of the WWOX gene. This review focuses on recent progress that elucidates Wwox functions in biology and pathology.
WWOX gene and gene product: tumor suppression through specific protein interactions
Future Oncology, 2010
The WWOX gene, an archetypal fragile gene, encompasses a chromosomal fragile site at 16q23.2, and encodes the approximately 46-kDa Wwox protein, with WW domains that interact with a growing list of interesting proteins. If the function of a protein is defined by the company it keeps, then Wwox is involved in numerous important signal pathways for bone and germ-cell development, cellular and animal growth and death, transcriptional control and suppression of cancer development. Because alterations to genes at fragile sites are exquisitely sensitive to replication stress-induced DNA damage, there has been an ongoing scientific discussion questioning whether such gene expression alterations provide a selective advantage for clonal expansion of neoplastic cells, and a parallel discussion on why important genes would be present at sites that are susceptible to inactivation. We offer some answers through a description of known WWOX functions.
WWOX, the tumour suppressor gene affected in multiple cancers
Journal of physiology and pharmacology : an official journal of the Polish Physiological Society, 2009
WWOX is a tumour suppressor gene affected in multiple cancers, especially in breast, prostate and ovary. This gene is located at the chromosomal area 16q23.3-24.1, which was identified as a common chromosomal fragile site FRA16D. WWOX turned out to possess tumour suppressor features despite the fact that the most basic (classical) way of tumour suppressor gene inactivation involves both alleles (e.g. through deletions, point mutations and promoter methylation), which is very rare event in a case of WWOX, occurring only in few cell lines. A large number of papers corroborate the phenomenon of correlation between the loss of WWOX expression and more aggressive/worse prognosis in many different types of tumours, for example breast cancer, nonsmall cell lung cancer, bladder cancer, gastric cancer or sporadic meningiomas. Ectopically increased WWOX expression promotes migration through basal membrane, however suppresses anchorage independent growth and induces normal-like colony formatio...
Characterization of WWOX inactivation in murine mammary gland development
Journal of Cellular Physiology, 2013
The WW domain-containing oxidoreductase (WWOX) is commonly inactivated in multiple human cancers, including breast cancer. Wwox null mice die prematurely precluding adult tumor analysis. Nevertheless, aging Wwox-heterozygous mice at C3H genetic background develop higher incidence of mammary tumors. We recently generated a Wwox conditional knockout mouse in which loxp sites flank exon 1 in the Wwox allele and showed that total ablation of WWOX in these mice resembles that of conventional targeting of Wwox. Here, we report the characterization of WWOX ablation in mouse mammary gland using MMTV-Cre transgenic line. We demonstrated that WWOX ablation leads to impaired mammary ductal growth. Moreover, targeted deletion of WWOX is associated with increased levels of fibronectin, a component of the extracellular matrix. In addition, we showed that shRNA knockdown of WWOX in MCF10A breast epithelial cells dramatically increased fibronectin and is associated with enhanced cell survival and impaired growth in three-dimensional culture Matrigel assay. Taken together our results are consistent with a critical role for WWOX in normal breast development and tumorigenesis.
Conditional inactivation of the mouse Wwox tumor suppressor gene recapitulates the null phenotype
2012
WW domain-containing oxidoreductase (WWOX) is highly conserved in both human and murine. WWOX spans the second most common human chromosomal fragile site, FRA16D, and is commonly inactivated in multiple human cancers. Modeling WWOX inactivation in mice revealed a complex phenotype including postnatal lethality, defects in bone metabolism and steroidogenesis and tumor suppressor function resulting in osteosarcomas. For better understanding of WWOX roles in different tissues at distinct stages of development and in pathological conditions, Wwox conditional knockout mice were generated in which loxp sites flank exon 1 in the Wwox allele. We demonstrated that Cre-mediated recombination using EIIA-Cre, a Cre line expressed in germline, results in postnatal lethality by age of 3 weeks and decreased bone mineralization resembling total ablation of WWOX as in conventional null mice. This animal model will be useful to study distinct roles of WWOX in multiple tissues at different ages.
WW domain containing oxidoreductase gene expression is altered in non-small cell lung cancer
Cancer research, 2003
WWOX (WW domain containing oxidoreductase), a putative tumor suppressor gene that maps to the common fragile site FRA16D on chromosome 16q23.3-24.1, is altered in breast, esophageal, and ovarian cancer. Because the FRA3B/FHIT locus at 3p14.2 is a preferential target for genetic changes caused by tobacco smoke, we intended to evaluate the status of the FRA16D/WWOX gene in non-small cell lung cancer; we have analyzed 27 paired normal and tumor lung tissues and 8 lung cancer cell lines for WWOX alterations by reverse transcriptase-PCR, loss of heterozygosity, and mutation analysis. Transcripts missing WWOX exons were detected in 7 primary tumors (7 of 27; 25.9%) and 5 of 8 cell lines. In addition, loss of heterozygosity at the WWOX locus was observed in 10 primary tumors (10 of 27; 37.0%). We conclude that WWOX alterations occur in a significant fraction of lung cancers and may contribute to the pathogenesis of non-small cell lung cancer.
The fragile genesFHIT andWWOX are inactivated coordinately in invasive breast carcinoma
Cancer, 2004
BACKGROUND. FHIT and WWOX are a tumor suppressor and a candidate suppressor that encompass the FRA3B and FRA16D fragile sites at chromosomes 3p14.2 and 16q23.3-24.1, respectively. Reduced or absent Fhit expression has been reported in two-thirds of invasive breast tumors in association with adverse prognostic factors. Loss of 16q has been reported frequently in low-grade, invasive breast tumors.