Browsing by Person "Brugger, Amelie"

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    dmrt2 and myf5 link early somitogenesis to left-right axis determination in Xenopus laevis
    (2022) Tingler, Melanie; Brugger, Amelie; Feistel, Kerstin; Schweickert, Axel
    The vertebrate left-right axis is specified during neurulation by events occurring in a transient ciliated epithelium termed left-right organizer (LRO), which is made up of two distinct cell types. In the axial midline, central LRO (cLRO) cells project motile monocilia and generate a leftward fluid flow, which represents the mechanism of symmetry breakage. This directional fluid flow is perceived by laterally positioned sensory LRO (sLRO) cells, which harbor non-motile cilia. In sLRO cells on the left side, flow-induced signaling triggers post-transcriptional repression of the multi-pathway antagonist dand5. Subsequently, the co-expressed Tgf-β growth factor Nodal1 is released from Dand5-mediated repression to induce left-sided gene expression. Interestingly, Xenopus sLRO cells have somitic fate, suggesting a connection between LR determination and somitogenesis. Here, we show that doublesex and mab3-related transcription factor 2 (Dmrt2), known to be involved in vertebrate somitogenesis, is required for LRO ciliogenesis and sLRO specification. In dmrt2 morphants, misexpression of the myogenic transcription factors tbx6 and myf5 at early gastrula stages preceded the misspecification of sLRO cells at neurula stages. myf5 morphant tadpoles also showed LR defects due to a failure of sLRO development. The gain of myf5 function reintroduced sLRO cells in dmrt2 morphants, demonstrating that paraxial patterning and somitogenesis are functionally linked to LR axis formation in Xenopus.
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    MMP21 behaves as a fluid flow transported morphogen to impart laterality during development
    (2025) Ott, Tim; Brugger, Amelie; Szenker-Ravi, Emmanuelle; Kurrle, Yvonne; Aberle, Olivia; Tisler, Matthias; Blum, Martin; Whalen, Sandra; Bouvagnet, Patrice; Reversade, Bruno; Schweickert, Axel
    Heterotaxy (HTX) is frequently caused by deleterious variants in the gene encoding Matrix metallopeptidase 21 (MMP21). However, the underlying pathomechanism has not been ascertained. In this study, we report on a novel HTX-associated MMP21 knockout allele in humans and investigate the peptidase’s role during laterality development using Xenopus embryos as animal model. The targeted inactivation of mmp21 in f0 mutant Xenopus successfully phenocopied the human HTX condition, yet the cilia-driven leftward fluid flow, which initiates asymmetric gene activity at the left-right organizer (LRO), was unaltered in mmp21 null frogs. Instead, our analysis of downstream events revealed that flow response, the left-sided repression of dand5, could not take place. Remarkably, gain-of-function experiments demonstrated that Mmp21 spreads over LRO cells and triggers flow response. Additionally, Mmp21 functions upstream of Cirop, another metallopeptidase, which we found specifically localized to LRO cilia. Thus, our findings suggest that Mmp21 may be the long-sought morphogen, which is actively transported by the leftward fluid flow to Cirop-laden cilia, in order to specify the left side of the embryo.