Hai Song scite author profile

It is fundamentally important that signaling gradients provide positional information to govern morphogenesis of multicellular organisms. Morphogen gradients can generate different cell types in specific spatial order at distinct threshold concentrations. However, it is largely unknown whether and how signaling gradients also control cell polarities by acting as global cues. Here we show that Wnt signaling gradient provides directional information to a field of cells. Vangl2, a core component in planar cell polarity, forms Wnt-induced receptor complex with Ror2 to sense Wnt dosages. Wnts dose-dependently induce Vangl2 phosphorylation of Serine/Threonine residues and Vangl2 activities depend on its levels of phosphorylation. In the limb bud, Wnt5a signaling gradient controls limb elongation by establishing PCP in chondrocytes along the proximal-distal axis through regulating Vangl2 phosphorylation. Our studies have provided new insight to Robinow Syndrome, Brachydactyly Type B1 and spinal bifida which are caused by mutations in human ROR2, WNT5A or VANGL.

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Mammalian Mst1 and Mst2 kinases play essential roles in organ size control and tumor suppression

Song

Mak

Topol

et al. 2010

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

510

447

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Control of organ size by cell proliferation and survival is a fundamental developmental process, and its deregulation leads to cancer. However, the molecular mechanism underlying organ size control remains elusive in vertebrates. In Drosophila , the Hippo (Hpo) signaling pathway controls organ size by both restricting cell growth and proliferation and promoting cell death. Here we investigated whether mammals also require the Hpo pathway to control organ size and adult tissue homeostasis. We found that Mst1 and Mst2 , the two mouse homologs of the Drosophila Hpo , control the sizes of some, but not all organs, in mice, and Mst1 and Mst2 act as tumor suppressors by restricting cell proliferation and survival. We show that Mst1 and Mst2 play redundant roles, and removal of both resulted in early lethality in mouse embryos. Importantly, tumors developed in the liver with a substantial increase of the stem/progenitor cells by 6 months after removing Mst1 and Mst2 postnatally. We show that Mst1 and Mst2 were required in vivo to control Yap phosphorylation and activity. Interestingly, apoptosis induced by TNFα was blocked in the Mst1 and Mst2 double-mutant cells both in vivo and in vitro. As TNFα is a pleiotropic inflammatory cytokine affecting most organs by regulating cell proliferation and cell death, resistance to TNFα-induced cell death may also contribute significantly to tumor formation in the absence of Mst1 and Mst2 .

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Planar cell polarity breaks bilateral symmetry by controlling ciliary positioning

Song

Chen

et al. 2010

Nature

265

300

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Defining the three body axes is a central event of vertebrate morphogenesis. Establishment of left-right (L-R) asymmetry in development follows the determination of dorsal-ventral (D-V) and anterior-posterior (A-P) body axes1,2, though the molecular mechanism underlying precise L-R symmetry breaking in reference to the other two axes is still poorly understood. Here by removing both Vangl1 and Vangl2, the two mouse homologues of a Drosophila core planar cell polarity (PCP) gene Van Gogh (Vang), we have uncovered a previously unappreciated function of PCP in initial breaking of lateral symmetry. The leftward nodal flow across the posterior notochord (PNC, also referred to as “the node”) has been identified as the earliest event in the de novo formation of L-R asymmetry3,4.We found that PCP is essential in interpreting the A-P patterning information and linking it to L-R asymmetry. In the absence of Vangl1 and Vangl2, cilia are positioned randomly around the center of the PNC cells and nodal flow is turbulent, which results in disrupted L-R asymmetry. Importantly, PCP in mouse, unlike what has been implicated in other vertebrate species, is not required for ciliogenesis, cilium motility, Sonic hedgehog (Shh) signaling or apical docking of basal bodies in ciliated tracheal epithelial cells. Our data suggest that PCP acts earlier than the unidirectional nodal flow during bilateral symmetry breaking in vertebrates and provide insight into the functional mechanism of PCP in organizing the vertebrate tissues in development.

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Functional characterization of pulmonary neuroendocrine cells in lung development, injury, and tumorigenesis

Song

Yao

Lin

et al. 2012

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

264

247

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Pulmonary neuroendocrine cells (PNECs) are proposed to be the first specialized cell type to appear in the lung, but their ontogeny remains obscure. Although studies of PNECs have suggested their involvement in a number of lung functions, neither their in vivo significance nor the molecular mechanisms underlying them have been elucidated. Importantly, PNECs have long been speculated to constitute the cells of origin of human small-cell lung cancer (SCLC) and recent mouse models support this hypothesis. However, a genetic system that permits tracing the early events of PNEC transformation has not been available. To address these key issues, we developed a genetic tool in mice by introducing a fusion protein of Cre recombinase and estrogen receptor (CreER) into the calcitonin gene-related peptide (CGRP) locus that encodes a major peptide in PNECs. The CGRP CreER mouse line has enabled us to manipulate gene activity in PNECs. Lineage tracing using this tool revealed the plasticity of PNECs. PNECs can be colabeled with alveolar cells during lung development, and following lung injury, PNECs can contribute to Clara cells and ciliated cells. Contrary to the current model, we observed that elimination of PNECs has no apparent consequence on Clara cell recovery. We also created mouse models of SCLC in which CGRP CreER was used to ablate multiple tumor suppressors in PNECs that were simultaneously labeled for following their fate. Our findings suggest that SCLC can originate from differentiated PNECs. Together, these studies provide unique insight into PNEC lineage and function and establish the foundation of investigating how PNECs contribute to lung homeostasis, injury/repair, and tumorigenesis.progenitor | naphthalene | cell of origin | tumor suppressor gene

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Reciprocal inhibition of YAP/TAZ and NF-κB regulates osteoarthritic cartilage degradation

et al. 2018

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Osteoarthritis is one of the leading causes of pain and disability in the aged population due to articular cartilage damage. This warrants investigation of signaling mechanisms that could protect cartilage from degeneration and degradation. Here we show in a murine model of experimental osteoarthritis that YAP activation by transgenic overexpression or by deletion of its upstream inhibitory kinases Mst1/2 preserves articular cartilage integrity, whereas deletion of YAP in chondrocytes promotes cartilage disruption. Our work shows that YAP is both necessary and sufficient for the maintenance of cartilage homeostasis in osteoarthritis. Mechanistically, inflammatory cytokines, such as TNFα or IL-1β, trigger YAP/TAZ degradation through TAK1-mediated phosphorylation. Furthermore, YAP directly interacts with TAK1 and attenuates NF-κB signaling by inhibiting substrate accessibility of TAK1. Our study establishes a reciprocal antagonism between Hippo-YAP/TAZ and NF-κB signaling in regulating the induction of matrix-degrading enzyme expression and cartilage degradation during osteoarthritis pathogenesis.

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Hai Song

Wnt Signaling Gradients Establish Planar Cell Polarity by Inducing Vangl2 Phosphorylation through Ror2

Mammalian Mst1 and Mst2 kinases play essential roles in organ size control and tumor suppression

Planar cell polarity breaks bilateral symmetry by controlling ciliary positioning

Functional characterization of pulmonary neuroendocrine cells in lung development, injury, and tumorigenesis

Reciprocal inhibition of YAP/TAZ and NF-κB regulates osteoarthritic cartilage degradation

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