Xuanyu Min scite author profile

Self-assortation of progenitor cells during development is essential for establishment of distinct tissue identity. This is exemplified in the eye, where the early optic cup is divided into the neural retina (NR) in the center and the ciliary margin (CM) in the periphery. Previous studies have demonstrated that Wnt signaling is required for specification of the CM, but here we show that genetic ablation of Wnt signaling mediator β-catenin in the peripheral optic cup failed to prevent the formation of the CM-derived ciliary body and iris in adult animals. Mosaic analysis revealed that this was only partially due to loss of adherens junctions among β-catenin deficient cells, which were preferentially excluded from the CM. Even in β-catenin mutant cells that can maintain adherens junctions, their inability to mediate Wnt signaling resulted in a change from P-cadherin to N-cadherin expression. We showed that this cadherin switch was sufficient to segregate otherwise identical cells into separate clusters. As a result, the ciliary body and iris were still formed after inactivation of Wnt signaling in the peripheral retina. These results showed that the dual functions of β-catenin in adherens junction and Wnt signaling are required for the passive cell competition to constitute retinal compartments.

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Lacrimal gland budding requires PI3K-dependent suppression of EGF signaling

Wang

Tao

Hannan

et al. 2021

Sci. Adv.

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The patterning of epithelial buds is determined by the underlying signaling network. Here, we study the cross-talk between phosphoinositide 3-kinase (PI3K) and Ras signaling during lacrimal gland budding morphogenesis. Our results show that PI3K is activated by both the p85-mediated insulin-like growth factor (IGF) and Ras-mediated fibroblast growth factor (FGF) signaling. On the other hand, PI3K also promotes extracellular signal–regulated kinase (ERK) signaling via a direct interaction with Ras. Both PI3K and ERK are upstream regulators of mammalian target of rapamycin (mTOR), and, together, they prevent expansion of epidermal growth factor (EGF) receptor expression from the lacrimal gland stalk to the bud region. We further show that this suppression of EGF signaling is necessary for induction of lacrimal gland buds. These results reveal that the interplay between PI3K, mitogen-activated protein kinase, and mTOR mediates the cross-talk among FGF, IGF, and EGF signaling in support of lacrimal gland development.

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Phase transition specified by a binary code patterns the vertebrate eye cup

Balasubramanian

Min

Quinn

et al. 2021

Preprint

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The developing vertebrate eye cup is partitioned into the neural retina (NR), the retinal pigmented epithelium (RPE) and the ciliary margin (CM). By single cell analysis, we showed that a gradient of FGF signaling regulates demarcation and subdivision of the CM and controls its stem cell-like property of self-renewal, differentiation and survival. This regulation by FGF is balanced by an evolutionarily conserved Wnt signaling gradient induced by the lens ectoderm and the periocular mesenchyme, which specifies the CM and the distal RPE. These two morphogen gradients converge in the CM where FGF signaling promotes Wnt signaling by stabilizing β-catenin in a GSK3β-independent manner. We further showed that activation of Wnt signaling converts the NR to either the CM or the RPE depending on the level of FGF signaling. Conversely, activation of FGF transforms the RPE to the NR or CM dependent on Wnt activity. We demonstrated that the default fate of the eye cup is the NR, but synergistic FGF and Wnt signaling promotes CM formation both in vivo and in retinal organoid culture of human iPS cells. Our study reveals that the vertebrate eye develops through phase transition determined by a combinatorial code of FGF and Wnt signaling.

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Xuanyu Min

Phase transition specified by a binary code patterns the vertebrate eye cup

Wnt signaling regulates passive cell competition in the retina by inducing differential cell adhesion

Lacrimal gland budding requires PI3K-dependent suppression of EGF signaling

Phase transition specified by a binary code patterns the vertebrate eye cup

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