Laura J. Bayston scite author profile

Squamous cell carcinomas (SCCs) are one of the most frequent forms of human malignancy, but, other than TP53 mutations, few causative somatic aberrations have been identified. We identified NOTCH1 or NOTCH2 mutations in ∼75% of cutaneous SCCs and in a lesser fraction of lung SCCs, defining a spectrum for the most prevalent tumor suppressor specific to these epithelial malignancies. Notch receptors normally transduce signals in response to ligands on neighboring cells, regulating metazoan lineage selection and developmental patterning. Our findings therefore illustrate a central role for disruption of microenvironmental communication in cancer progression. NOTCH aberrations include frameshift and nonsense mutations leading to receptor truncations as well as point substitutions in key functional domains that abrogate signaling in cell-based assays. Oncogenic gain-of-function mutations in NOTCH1 commonly occur in human T-cell lymphoblastic leukemia/lymphoma and B-cell chronic lymphocytic leukemia. The bifunctional role of Notch in human cancer thus emphasizes the context dependency of signaling outcomes and suggests that targeted inhibition of the Notch pathway may induce squamous epithelial malignancies.cancer genetics | genomic | cellular signaling

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Type IV collagens regulate BMP signalling in Drosophila

Wang

Harris

Bayston

et al. 2008

Nature

306

341

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Dorsal-ventral patterning in vertebrate and invertebrate embryos is mediated by a conserved system of secreted proteins that establishes a bone morphogenetic protein (BMP) gradient. Although the Drosophila embryonic Decapentaplegic (Dpp) gradient has served as a model to understand how morphogen gradients are established, no role for the extracellular matrix has been previously described. Here we show that type IV collagen extracellular matrix proteins bind Dpp and regulate its signalling in both the Drosophila embryo and ovary. We provide evidence that the interaction between Dpp and type IV collagen augments Dpp signalling in the embryo by promoting gradient formation, yet it restricts the signalling range in the ovary through sequestration of the Dpp ligand. Together, these results identify a critical function of type IV collagens in modulating Dpp in the extracellular space during Drosophila development. On the basis of our findings that human type IV collagen binds BMP4, we predict that this role of type IV collagens will be conserved.

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Dishevelled limits Notch signalling through inhibition of CSL

Collu

Hidalgo-Sastre

Acar

et al. 2012

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Notch and Wnt are highly conserved signalling pathways that are used repeatedly throughout animal development to generate a diverse array of cell types. However, they often have opposing effects on cell-fate decisions with each pathway promoting an alternate outcome. Commonly, a cell receiving both signals exhibits only Wnt pathway activity. This suggests that Wnt inhibits Notch activity to promote a Wnt-ON/Notch-OFF output; but what might underpin this Notch regulation is not understood. Here, we show that Wnt acts via Dishevelled to inhibit Notch signalling, and that this crosstalk regulates cell-fate specification in vivo during Xenopus development. Mechanistically, Dishevelled binds and directly inhibits CSL transcription factors downstream of Notch receptors, reducing their activity. Furthermore, our data suggest that this crosstalk mechanism is conserved between vertebrate and invertebrate homologues. Thus, we identify a dual function for Dishevelled as an inhibitor of Notch signalling and an activator of the Wnt pathway that sharpens the distinction between opposing Wnt and Notch responses, allowing for robust cell-fate decisions.

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Medea SUMOylation restricts the signaling range of the Dpp morphogen in the Drosophila embryo

Miles¹,

Jaffray²,

Campbell³

et al. 2008

Genes Dev.

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Morphogens are secreted signaling molecules that form concentration gradients and control cell fate in developing tissues. During development, it is essential that morphogen range is strictly regulated in order for correct cell type specification to occur. One of the best characterized morphogens is Drosophila Decapentaplegic (Dpp), a BMP signaling molecule that patterns the dorsal ectoderm of the embryo by activating the Mad and Medea (Med) transcription factors. We demonstrate that there is a spatial and temporal expansion of the expression patterns of Dpp target genes in SUMO pathway mutant embryos. We identify Med as the primary SUMOylation target in the Dpp pathway, and show that failure to SUMOylate Med leads to the increased Dpp signaling range observed in the SUMO pathway mutant embryos. Med is SUMO modified in the nucleus, and we provide evidence that SUMOylation triggers Med nuclear export. Hence, Med SUMOylation provides a mechanism by which nuclei can continue to monitor the presence of extracellular Dpp signal to activate target gene expression for an appropriate duration. Overall, our results identify an unusual strategy for regulating morphogen range that, rather than impacting on the morphogen itself, targets an intracellular transducer. Med and its vertebrate ortholog Smad4 have been found to constitutively shuttle between the nucleus and cytoplasm in a signal-independent manner (Pierreux et al. 2000;Yao et al. 2008). Smad4 contains both a nuclear localization signal (NLS) and a CRM-1-dependent nuclear export signal (NES), and it has been proposed that the relative strengths of these two signals within a tissue regulate the amount of shuttling. Smad4, which shuttles into the nucleus in the absence of signal, is unable to activate transcription (Pierreux et al. 2000), possibly due to recruitment of a repressive complex harboring the SnoN oncoprotein (Stroschein et al. 1999).The small ubiquitin-like modifier protein SUMO is conjugated to its substrate through the sequential activities of E1, E2, and E3 enzymes. Ubc-9, the essential E2 enzyme, catalyzes the conjugation of SUMO to the target lysine, typically located in a ⌿KxE consensus motif (where ⌿ is a large hydrophobic residue and x is any residue) (Hay 2005). An extended SUMO motif compris-

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Laura J. Bayston

Loss-of-function mutations in Notch receptors in cutaneous and lung squamous cell carcinoma

Type IV collagens regulate BMP signalling in Drosophila

Dishevelled limits Notch signalling through inhibition of CSL

Medea SUMOylation restricts the signaling range of the Dpp morphogen in the Drosophila embryo

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