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- Generating asymmetries in the early vertebrate embryo: the role of the Cerberus-like familyPublication . Belo, José A.; Silva, Ana C.; Borges, Ana; Filipe, Mário; Bento, Margaret; Gonçalves, Lisa; Vitorino, Marta; Salgueiro, Ana Marisa; Texeira, Vera; Tavares, Ana T.; Marques, SaraOne fundamental aspect of vertebrate embryonic development is the formation of the body plan. For this process, asymmetries have to be generated during early stages of development along the three main body axes: Anterior-Posterior, Dorso-Ventral and Left-Right. We have been studying the role of a novel class of molecules,the Cerberus/Dan gene family. These are dedicated secreted antagonists of three major signaling pathways: Nodal, BMP and Wnt. Our studies contribute to the current view that the fine tuning of signaling is controlled by a set of inhibitory molecules rather than by activators. In this context, the Cerberus-like molecules emerge as key players in the regulation and generation of asymmetries in the early vertebrate embryo.
- The activity of the Nodal antagonist Cerl-2 in the mouse node is required for correct L/R body axisPublication . Marques, Sara; Borges, Ana; Silva, Ana Cristina; Freitas, Sandra; Cordenonsi, M.; Belo, José A.Correct establishment of the left/right (L/R) body asymmetry in the mouse embryo requires asymmetric activation of the evolutionarily conserved Nodal signaling cascade in the left lateral plate mesoderm (L-LPM). Furthermore, the presence of Nodal in the node is essential for its own expression in the L-LPM. Here, we have characterized the function of cerl-2, a novel Nodal antagonist, which displays a unique asymmetric expression on the right side of the mouse node. cerl-2 knockout mice display multiple laterality defects including randomization of the L/R axis. These defects can be partially rescued by removing one nodal allele. Our results demonstrate that Cerl-2 plays a key role in restricting the Nodal signaling pathway toward the left side of the mouse embryo by preventing its activity in the right side.