TY - JOUR
T1 - Self-regulation of the head-inducing properties of the Spemann organizer
AU - Inui, Masafumi
AU - Montagner, Marco
AU - Ben-Zvi, Danny
AU - Martello, Graziano
AU - Soligo, Sandra
AU - Manfrin, Andrea
AU - Aragona, Mariaceleste
AU - Enzo, Elena
AU - Zacchigna, Luca
AU - Zanconato, Francesca
AU - Azzolin, Luca
AU - Dupont, Sirio
AU - Cordenonsi, Michelangelo
AU - Piccolo, Stefano
N1 - Israel Academy of Sciences and Humanities; TOYOBO Biotechnology Foundation; Uehara Memorial Foundation; Seventh Framework Programme Marie Curie International Incoming Fellowship; Cariparo PhD Fellowship; Istituto Superiore di Sanita Nazionale "Giovani Ricercatori"; Associazione Italiana per la Ricerca sul Cancro; AIRC; University of Padua; Cariparo Foundation; Comitato Promotore Telethon GrantsWe thank O. Wessely for comments on the manuscript. D.B.-Z. is supported by the Adams Fellowship Program of the Israel Academy of Sciences and Humanities and M.I. has been supported by TOYOBO Biotechnology Foundation, Uehara Memorial Foundation, and the Seventh Framework Programme Marie Curie International Incoming Fellowship. E.E is a recipient of a Cariparo PhD Fellowship. This work is supported by Istituto Superiore di Sanita Nazionale "Giovani Ricercatori" (to G.M.), Associazione Italiana per la Ricerca sul Cancro - My first AIRC grant (AIRC-MFAG) (to M.C.), AIRC grants (to S.D.) and by University of Padua "Strategic-Grant," Cariparo Foundation " Excellence-Grant", AIRC, and Comitato Promotore Telethon Grants (to S.P.).
PY - 2012/9/18
Y1 - 2012/9/18
N2 - The Spemann organizer stands out from other signaling centers of the embryo because of its broad patterning effects. It defines development along the anteroposterior and dorsoventral axes of the vertebrate body, mainly by secreting antagonists of growth factors. Qualitative models proposed more than a decade ago explain the organizer's region-specific inductions (i.e., head and trunk) as the result of different combinations of antagonists. For example, head induction is mediated by extracellular inhibition of Wnt, BMP, and Nodal ligands. However, little is known about how the levels of these antagonists become harmonized with those of their targets and with the factors initially responsible for germ layers and organizer formation, including Nodal itself. Here we show that key ingredients of the head-organizer development, namely Nodal ligands, Nodal antagonists, and ADMP ligands reciprocally adjust each other's strength and range of activity by a self-regulating network of interlocked feedback and feedforward loops. A key element in this cross-talk is the limited availability of ACVR2a, for which Nodal and ADMP must compete. By trapping Nodal extracellularly, the Nodal antagonists Cerberus and Lefty are permissive for ADMP activity. The system self-regulates because ADMP/ACVR2a/Smad1 signaling in turn represses the expression of the Nodal antagonists, reestablishing the equilibrium. In sum, this work reveals an unprecedented set of interactions operating within the organizer that is critical for embryonic patterning.
AB - The Spemann organizer stands out from other signaling centers of the embryo because of its broad patterning effects. It defines development along the anteroposterior and dorsoventral axes of the vertebrate body, mainly by secreting antagonists of growth factors. Qualitative models proposed more than a decade ago explain the organizer's region-specific inductions (i.e., head and trunk) as the result of different combinations of antagonists. For example, head induction is mediated by extracellular inhibition of Wnt, BMP, and Nodal ligands. However, little is known about how the levels of these antagonists become harmonized with those of their targets and with the factors initially responsible for germ layers and organizer formation, including Nodal itself. Here we show that key ingredients of the head-organizer development, namely Nodal ligands, Nodal antagonists, and ADMP ligands reciprocally adjust each other's strength and range of activity by a self-regulating network of interlocked feedback and feedforward loops. A key element in this cross-talk is the limited availability of ACVR2a, for which Nodal and ADMP must compete. By trapping Nodal extracellularly, the Nodal antagonists Cerberus and Lefty are permissive for ADMP activity. The system self-regulates because ADMP/ACVR2a/Smad1 signaling in turn represses the expression of the Nodal antagonists, reestablishing the equilibrium. In sum, this work reveals an unprecedented set of interactions operating within the organizer that is critical for embryonic patterning.
KW - Morphogen gradients
KW - Xenopus leavis
UR - http://www.scopus.com/inward/record.url?scp=84866558681&partnerID=8YFLogxK
U2 - https://doi.org/10.1073/pnas.1203000109
DO - https://doi.org/10.1073/pnas.1203000109
M3 - مقالة
C2 - 22949641
SN - 0027-8424
VL - 109
SP - 15354
EP - 15359
JO - Proceedings of the National Academy of Sciences of the United States of America
JF - Proceedings of the National Academy of Sciences of the United States of America
IS - 38
ER -