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Project description:Men with melanoma have a significantly worse prognosis than women, and the biological underpinnings of this difference are unknown. The current study demonstrates that loss of the inactivated X chromosome in melanomas arising in females is strongly associated with poor distant metastasis free survival. High expression of the gonosomal PPP2R3B gene, a gene that escapes inactivation, is independently correlated with survival. PPP2R3B downregulates melanoma growth by negatively interfering with DNA replication and cell cycle progression through its role in stabilizing CDC6/CDT1 interaction during the replication origins firing and as such behaves functionally as a tumor suppressor gene. Fourty-nine fresh frozen primary melanoma samples were profiled by CGH array using sex-matched commercial DNA as reference.

Project description:Men with melanoma have a significantly worse prognosis than women, and the biological underpinnings of this difference are unknown. The current study demonstrates that loss of the inactivated X chromosome in melanomas arising in females is strongly associated with poor distant metastasis free survival. High expression of the gonosomal PPP2R3B gene, a gene that escapes inactivation, is independently correlated with survival. PPP2R3B downregulates melanoma growth by negatively interfering with DNA replication and cell cycle progression through its role in stabilizing CDC6/CDT1 interaction during the replication origins firing and as such behaves functionally as a tumor suppressor gene.

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Project description:Protein phosphatase 2A (PP2A) enzymes containing the regulatory subunit isoform B55α (PP2A-B55α) suppress HDAC5/MEF2 signalling in cardiac myocytes, implicating B55α in the transcriptional regulation of cardiac growth and fibrosis. The role of B55α in the heart has not been investigated. In this study, we generated and characterised two loss-of-function mouse models, with global or cardiomyocyte-specific disruption of the gene encoding B55α (Ppp2r2a). Mice with global homozygous knockout of B55α died in utero, but cardiac morphology was unremarkable compared with wildtype littermates. Mice with global heterozygous knockout of B55α had thinner left ventricular walls compared with wildtype mice at 12 months of age, an effect that was more pronounced in males. Mice with cardiomyocyte-specific deletion of B55α displayed normal cardiac morphology at 10-12 weeks of age, demonstrating that cardiomyocyte B55α is not required for postnatal heart growth. Despite no obvious morphological differences, gene expression analyses revealed extensive remodelling of the cardiac transcriptome in male, but not female, mice. In males, B55α knockout increased the expression of genes associated with extracellular matrix composition, and downregulated genes associated with mitochondrial energy production. This study reveals a sexually dimorphic role for B55α in postnatal cardiac transcriptional regulation and provides a foundation for future work investigating the role of B55α in cardiac stress settings.

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