Ligand-dependent Notch signaling strength orchestrates lateral induction and lateral inhibition in the developing inner ear

Petrović, Jelena; Formosa-Jordan, Pau; Luna-Escalante, Juan C.; Abelló, Gina; Ibañes, Marta; Neves, Joana; Giráldez, Fernando

doi:10.1242/dev.108100

Cited by 113 publications

(176 citation statements)

References 72 publications

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“…Here, we introduced a specially designed theoretical framework to study Notch signaling through both Delta and Jagged which incorporates the effect of the asymmetries between these two key ligands. An earlier attempt included both Delta and Jagged in Notch signaling system (9). Although it explains some of their own experimental results, it does not include some fundamental features of Notch signaling, such as cis-inhibition between Notch and Delta (14), cis-inhibition between Notch and Jagged (37), and the effect of glycosyltransferase Fringe that causes an asymmetry between Notch-Delta and Notch-Jagged signaling (34,35).…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, both cells can act as both Receiver (R) and Sender (S)--or the two cells acquire similar fates. This mechanism, known as lateral induction, is implicated, for example, in mammalian inner-ear development (8,9), control of epidermal stem cell clusters (10), as well as inner cardiac development (11). Therefore, Delta and Jagged affect the collective cell-fate decisions in a group of cells quite differently.…”

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confidence: 99%

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Jagged–Delta asymmetry in Notch signaling can give rise to a Sender/Receiver hybrid phenotype

Boareto

Jolly

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

131

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Notch signaling pathway mediates cell-fate determination during embryonic development, wound healing, and tumorigenesis. This pathway is activated when the ligand Delta or the ligand Jagged of one cell interacts with the Notch receptor of its neighboring cell, releasing the Notch Intracellular Domain (NICD) that activates many downstream target genes. NICD affects ligand production asymmetrically––it represses Delta, but activates Jagged. Although the dynamical role of Notch–Jagged signaling remains elusive, it is widely recognized that Notch–Delta signaling behaves as an intercellular toggle switch, giving rise to two distinct fates that neighboring cells adopt––Sender (high ligand, low receptor) and Receiver (low ligand, high receptor). Here, we devise a specific theoretical framework that incorporates both Delta and Jagged in Notch signaling circuit to explore the functional role of Jagged in cell-fate determination. We find that the asymmetric effect of NICD renders the circuit to behave as a three-way switch, giving rise to an additional state––a hybrid Sender/Receiver (medium ligand, medium receptor). This phenotype allows neighboring cells to both send and receive signals, thereby attaining similar fates. We also show that due to the asymmetric effect of the glycosyltransferase Fringe, different outcomes are generated depending on which ligand is dominant: Delta-mediated signaling drives neighboring cells to have an opposite fate; Jagged-mediated signaling drives the cell to maintain a similar fate to that of its neighbor. We elucidate the role of Jagged in cell-fate determination and discuss its possible implications in understanding tumor–stroma cross-talk, which frequently entails Notch–Jagged communication.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Jagged–Delta asymmetry in Notch signaling can give rise to a Sender/Receiver hybrid phenotype

Boareto

Jolly

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

131

217

View full text Add to dashboard Cite

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“…This model brings interesting insights about patterning formation by Notch-Delta signaling circuit and many extensions of this model have been developed over the past years [12,39,40,41]. One particularly interesting extension of Collier's model was proposed by Petrovic et al [12].…”

Section: The Collier Modelmentioning

confidence: 98%

“…One particularly interesting extension of Collier's model was proposed by Petrovic et al [12]. Their model was the first framework to include both ligands Delta and Jagged, and their simulations was useful to understand some of their experimental results in the context of inner ear development [12].…”

Section: The Collier Modelmentioning

confidence: 99%

“…On the other hand, two cells interacting via Notch-Jagged can act as both Sender and Receiver as they have (high Jagged (ligand), high Notch (receptor)) on their surface. This cell-fate convergence mechanism is known as lateral induction ( Figure 1C) and is crucial during cardiac development, inner ear development, and the formation of a smooth muscle wall around a nascent artery [11,12,13,14].…”

Section: Introductionmentioning

confidence: 99%

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Tópicos em sinalização celular e bioinformática: Princípios de funcionamento do circuito de sinalização Notch e aprendizagem supervisionada variacional de relevância

Amaral¹

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The quest for restoring hearing: Understanding ear development more completely

et al. 2015

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Neurosensory hearing loss is a growing problem of super-aged societies. Cochlear implants can restore some hearing, but rebuilding a lost hearing organ would be superior. Research has discovered many cellular and molecular steps to develop a hearing organ but translating those insights into hearing organ restoration remains unclear. We cannot make various hair cell types and arrange them into their specific patterns surrounded by the right type of supporting cells in the right numbers. Our overview of the topologically highly organized and functionally diversified cellular mosaic of the mammalian hearing organ highlights what is known and unknown about its development. Following this analysis, we suggest critical steps to guide future attempts toward restoration of a functional OC. We argue that generating mutant mouse lines that mimic human pathology to fine-tune attempts toward long-term functional restoration are needed to go beyond the hope generated by restoring single hair cells.

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Ligand-dependent Notch signaling strength orchestrates lateral induction and lateral inhibition in the developing inner ear

Cited by 113 publications

References 72 publications

Jagged–Delta asymmetry in Notch signaling can give rise to a Sender/Receiver hybrid phenotype

Jagged–Delta asymmetry in Notch signaling can give rise to a Sender/Receiver hybrid phenotype

Tópicos em sinalização celular e bioinformática: Princípios de funcionamento do circuito de sinalização Notch e aprendizagem supervisionada variacional de relevância

The quest for restoring hearing: Understanding ear development more completely

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