A zebrafish
            <i>bmyb</i>
            mutation causes genome instability and increased cancer susceptibility

Shepard, Jennifer L.; Amatruda, James F.; Stern, Howard M.; Subramanian, Aravind; Finkelstein, David; Ziai, James; Finley, K. Rose; Pfaff, Kathleen L.; Hersey, Candace; Zhou, Yi; Barut, Bruce A.; Freedman, Matthew L.; Lee, Charles; Spitsbergen, Jan M.; Neuberg, Donna; Weber, Gerhard; Golub, Todd R.; Glickman, Jonathan N.; Kutok, Jeffery L.; Aster, Jon C.; Zon, Leonard I.

doi:10.1073/pnas.0506583102

Cited by 154 publications

(170 citation statements)

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“…Drosophila researchers have developed tools for rapid characterization of tumor genes (Potter et al, 2000), and forward genetic approaches in the zebra fish have uncovered cancer pathways (Shepard et al, 2005). Studies of the mouse, in particular, have highlighted the intricacy of cancer: unraveling the faceted interface between the tumor cells and their "host" organism, and the subtle genetic interactions that influence individual susceptibility to disease (Balmain, 2002;Van Dyke and Jacks, 2002).…”

Section: Order In Living Organismsmentioning

confidence: 99%

Order, Disorder, Death: Lessons from a Superorganism

Amdam¹,

Seehuus²

2006

Advances in Cancer Research

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Animal models contribute to the understanding of molecular mechanism of cancer, revealing complex roles of altered cellular-signaling networks and deficient surveillance systems. Analogous pathologies are documented in an unconventional model organism that receives attention in research on systems theory, evolution, and aging. The honeybee (Apis mellifera) colony is an advanced integrative unit, a "superorganism" in which order is controlled via complex signaling cascades and surveillance schemes. A facultatively sterile caste, the workers, regulates patterns of growth, differentiation, homeostasis, and death. Workers differentiate into temporal phenotypes in response to dynamic social cues; chemosensory signals that can translate into dramatic physiological responses, including programmed cell death. Temporal worker forms function together, and effectively identify and terminate abnormal colony members ranging from embryos to adults. As long as this regulatory system is operational at a colony level, the unit survives and propagates. However, if the worker phenotypes that collectively govern order become too few or change into malignant forms that bypass control mechanisms to replicate aberrantly; order is replaced by disorder that ultimately leads to the destruction of the society. In this chapter we describe fundamental properties of honeybee social organization, and explore conditions that lead to states of disorder. Our hope is that this chapter will be an inspirational source for ongoing and future work in the field of cancer research.

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Section: Order In Living Organismsmentioning

confidence: 99%

Order, Disorder, Death: Lessons from a Superorganism

Amdam¹,

Seehuus²

2006

Advances in Cancer Research

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“…B-MYB target genes have been found that promote cell cycle progression or resistance to apoptosis, although B-MYB effects might also occur through other mechanisms (Oh and Reddy, 1999;Sala, 2005). While the above described studies support the hypothesis that B-MYB is a proto-oncogene, a recent report shows that an inactivating mutation of B-MYB in zebrafish actually promotes chemical carcinogenesis as a consequence of genomic destabilization (Shepard et al, 2005). Thus, an interesting scenario is emerging where increased B-MYB expression or its inactivating mutations can both result in tumorigenesis.…”

mentioning

confidence: 69%

Isolation and functional assessment of common, polymorphic variants of the B-MYB proto-oncogene associated with a reduced cancer risk

Schwab¹,

Bussolari

Corvetta

et al. 2007

Oncogene

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The B-MYB proto-oncogene is a transcription factor belonging to the MYB family that is frequently overexpressed or amplified in different types of human malignancies. While it is suspected that B-MYB plays a role in human cancer, there is still no direct evidence of its causative role. Looking for mutations of the B-MYB gene in human cell lines and primary cancer samples, we frequently isolated two nonsynonymous B-MYB polymorphic variants (rs2070235 and rs11556379). Compared to the wild-type protein, the B-MYB isoforms display altered conformation, impaired regulation of target genes and decreased antiapoptotic activity, suggesting that they are hypomorphic variants of the major allele. Importantly, the B-MYB polymorphisms are common; rs2070235 and rs11556379 are found, depending on the ethnic background, in 10-50% of human subjects. We postulated that, if B-MYB activity is important for transformation, the presence of common, hypomorphic variants might modify cancer risk. Indeed, the B-MYB polymorphisms are underrepresented in 419 cancer patients compared to 230 controls (odds ratio 0.53; (95%) confidence interval 0.385-0.755; P ¼ 0.001). This data imply that a large fraction of the human population is carrier of B-MYB alleles that might be associated with a reduced risk of developing neoplastic disease.

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“…In addition, although loss of heterozygosity is expected to be the frequent mechanism in humans to explain the cancer predisposition in individuals with heterozygous tumor suppressor mutations (54), it was hardly ever observed in the comparable zebrafish mutants: not in apc (12), not in all mutant lines of the retroviral insertion screen (24), only once in the whole set of genomic instability mutants (25), twice in the separase mutant (interestingly, these particular mutants did not show a polyploidy phenotype; ref. 13), and never in the bmyb mutant (14). An interesting study in this respect is the N-nitrosodimethylamine induction of liver tumors in triploid and diploid zebrafish (9).…”

Section: Cancer Incidence and Onsetmentioning

confidence: 99%

“…Homozygous mutant embryos are therefore lethal, and heterozygotes are, due to haploinsufficiency or loss of heterozygosity, predisposed to cancer later in life. Two mutants from this screen have been reported thus far, a loss-of-function mutation in bmyb (14) and a loss-of-function mutation in separase (13), genes that both had not previously been unequivocally implicated in cancer. Homozygous mutant embryos of both displayed mitotic defects and genomic instability, whereas heterozygous adults showed a marginal increase (2-to 2.5-fold) in cancer incidence when treated with N-methyl-N ¶-nitro-N-nitrosoguanidine.…”

Section: Mutants From Forward Genetic Screensmentioning

confidence: 99%

“…N-Methyl-N ¶-nitro-N-nitrosoguanidine can also induce different tumor types, mainly liver and testicular neoplasms, as well as hemangio(sarco)mas and others (11). Some of these carcinogenic treatments have been applied to mutants with a genetic predisposition to cancer but a low spontaneous tumor incidence to show an increased sensitivity of mutants compared with treated wild-type animals (12)(13)(14). Not surprisingly, the alkylating mutagen N-ethyl-N-nitrosourea, which introduces point mutations and is commonly used in forward and reverse genetic screens, has also been found to induce cancer.…”

Section: Treatment With Mutagensmentioning

confidence: 99%

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