Raksha Mudbhary scite author profile

Wnt ligands signal through b-catenin and are critically involved in cell fate determination and stem/progenitor self-renewal. Wnts also signal through b-catenin-independent or noncanonical pathways that regulate crucial events during embryonic development. The mechanism of noncanonical receptor activation and how Wnts trigger canonical as opposed to noncanonical signaling have yet to be elucidated. We demonstrate here that prototype canonical Wnt3a and noncanonical Wnt5a ligands specifically trigger completely unrelated endogenous coreceptors-LRP5/6 and Ror1/2, respectively-through a common mechanism that involves their Wnt-dependent coupling to the Frizzled (Fzd) coreceptor and recruitment of shared components, including dishevelled (Dvl), axin, and glycogen synthase kinase 3 (GSK3). We identify Ror2 Ser 864 as a critical residue phosphorylated by GSK3 and required for noncanonical receptor activation by Wnt5a, analogous to the priming phosphorylation of low-density receptor-related protein 6 (LRP6) in response to Wnt3a. Furthermore, this mechanism is independent of Ror2 receptor Tyr kinase functions. Consistent with this model of Wnt receptor activation, we provide evidence that canonical and noncanonical Wnts exert reciprocal pathway inhibition at the cell surface by competition for Fzd binding. Thus, different Wnts, through their specific coupling and phosphorylation of unrelated coreceptors, activate completely distinct signaling pathways.[Keywords: Ror1/2; LRP5/6; Wnt3a; Wnt5a; receptor activation; noncanonical Wnt signaling] Supplemental material is available at http://www.genesdev.org.

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UHRF1 Overexpression Drives DNA Hypomethylation and Hepatocellular Carcinoma

Mudbhary

et al. 2014

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SUMMARY UHRF1 is an essential regulator of DNA methylation that is highly expressed in many cancers. Here, we use transgenic zebrafish, cultured cells and human tumors to demonstrate that UHRF1 is an oncogene. UHRF1 overexpression in zebrafish hepatocytes destabilizes and delocalizes DNMT1, causes DNA hypomethylation and Tp53-mediated senescence. Hepatocellular carcinoma (HCC) emerges when senescence is bypassed. tp53 mutation both alleviates senescence and accelerates tumor onset. Human HCCs recapitulate this paradigm, as UHRF1 overexpression defines a subclass of aggressive HCCs characterized by genomic instability, TP53 mutation and abrogation of the TP53-mediated senescence program. We propose that UHRF1 overexpression is a mechanism underlying DNA hypomethylation in cancer cells and that senescence is a primary means of restricting tumorigenesis due to epigenetic disruption.

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Cdk5rap2 regulates centrosome function and chromosome segregation in neuronal progenitors

et al. 2010

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SUMMARYMicrocephaly affects ~1% of the population and is associated with mental retardation, motor defects and, in some cases, seizures. We analyzed the mechanisms underlying brain size determination in a mouse model of human microcephaly. The Hertwig's anemia (an) mutant shows peripheral blood cytopenias, spontaneous aneuploidy and a predisposition to hematopoietic tumors. We found that the an mutation is a genomic inversion of exon 4 of Cdk5rap2, resulting in an in-frame deletion of exon 4 from the mRNA. The finding that CDK5RAP2 human mutations cause microcephaly prompted further analysis of Cdk5rap2 an/an mice and we demonstrated that these mice exhibit microcephaly comparable to that of the human disease, resulting from striking neurogenic defects that include proliferative and survival defects in neuronal progenitors. Cdk5rap2 an/an neuronal precursors exit the cell cycle prematurely and many undergo apoptosis. These defects are associated with impaired mitotic progression coupled with abnormal mitotic spindle pole number and mitotic orientation. Our findings suggest that the reduction in brain size observed in humans with mutations in CDK5RAP2 is associated with impaired centrosomal function and with changes in mitotic spindle orientation during progenitor proliferation.

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UHRF1 depletion causes a G2/M arrest, activation of DNA damage response and apoptosis

et al. 2011

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SYNOPSIS Ubiquitin-like protein, containing PHD and RING finger domains-1 (UHRF1) is required for cell cycle progression and epigenetic regulation. In this study, we show that depleting cancer cells of UHRF1 causes activation of the DNA damage response pathway, cell cycle arrest in G2/M and apoptosis dependent on caspase-8. The DNA damage response in cells depleted of UHRF1 is illustrated by: phosphorylation of histone H2AX on serine 139, phosphorylation of CHK2 on threonine 68, phosphorylation of CDC25 on serine 216 and phosphorylation of CDK1 on tyrosine 15. Moreover, we find that UHRF1 accumulates at sites of DNA damage suggesting that the cell cycle block in UHRF1 depleted cells is due to an important role in damage repair. The consequence of UHRF1 depletion is apoptosis: cells undergo activation of caspases 8 and 3 and depletion of caspase-8 prevents cell death induced by UHRF1 knock-down. Interestingly, the cell cycle block and apoptosis occurs in p53 containing and deficient cells. From these studies we conclude that UHRF1 links epigenetic regulation with DNA replication.

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Raksha Mudbhary

Canonical and noncanonical Wnts use a common mechanism to activate completely unrelated coreceptors

UHRF1 Overexpression Drives DNA Hypomethylation and Hepatocellular Carcinoma

Cdk5rap2 regulates centrosome function and chromosome segregation in neuronal progenitors

UHRF1 depletion causes a G2/M arrest, activation of DNA damage response and apoptosis

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