Elizabeth Smith scite author profile

The signal transduction adapter protein Disabled-2 (Dab2) is one of the two mammalian orthologs of the Drosophila Disabled. The brain-specific Disabled-1 (Dab1) functions in positional organization of brain cells during development. Dab2 is widely distributed and is highly expressed in many epithelial cell types. The dab2 gene was interrupted by in-frame insertion of beta-galactosidase (LacZ) in embryonic stem cells and transgenic mice were produced. Dab2 expression was first observed in the primitive endoderm at E4.5, immediately following implantation. The homozygous Dab2-deficient mutant is embryonic lethal (earlier than E6.5) due to defective cell positioning and structure formation of the visceral endoderm. In E5.5 dab2 (-/-) conceptus, visceral endoderm-like cells are present in the deformed primitive egg cylinder; however, the visceral endoderm cells are not organized, the cells of the epiblast have not expanded, and the proamniotic cavity fails to form. Disorganization of the visceral endodermal layer is evident, as cells with positive visceral endoderm markers are scattered throughout the dab2 (-/-) conceptus. Only degenerated remains were observed at E6.5 for dab2 (-/-) embryos, and by E7.5, the defective embryos were completely reabsorbed. In blastocyst in vitro culture, initially cells with characteristics of endoderm, trophectoderm, and inner cell mass were observed in the outgrowth of the hatched dab2 (-/-) blastocysts. However, the dab2 (-/-) endodermal cells are much more dispersed and disorganized than those from wild-type blastocysts, the inner cell mass fails to expand, and the outgrowth degenerates by day 7. Thus, Dab2 is required for visceral endodermal cell organization during early mouse development. The absence of an organized visceral endoderm in Dab2-deficient conceptus leads to the growth failure of the inner cell mass. We suggest that Dab2 functions in a signal pathway to regulate endodermal cell organization using endocytosis of ligands from the blastocoel cavity as a positioning cue.

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Disabled-2 Is an Epithelial Surface Positioning Gene

Yang¹,

Cai

Roland

et al. 2007

Journal of Biological Chemistry

116

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The formation of the primitive endoderm layer on the surface of the inner cell mass is one of the earliest epithelial morphogenesis in mammalian embryos. In mouse embryos deficient of Disabled-2 (Dab2), the primitive endoderm cells lose the ability to position on the surface, resulting in defective morphogenesis. Embryonic stem cells lacking Dab2 are also unable to position on the surface of cell aggregates and fail to form a primitive endoderm outer layer in the embryoid bodies. The cellular function of Dab2, a cargo-selective adaptor, in mediating endocytic trafficking of clathrin-coated vesicles is well established. We show here that Dab2 mediates directional trafficking and polarized distribution of cell surface proteins such as megalin and E-cadherin and propose that loss of polarity is the underlying mechanism for the loss of epithelial cell surface positioning in Dab2-deficient embryos and embryoid bodies. Thus, the findings indicate that Dab2 is a surface positioning gene and suggest a novel mechanism of epithelial cell surface targeting.Epithelial cells are positioned on the outer surface of organs or the inner surface of glandular structures and are involved in diverse physiological functions. Simple epithelia consist of monolayered cells that form a sheet through cell-cell adherens junctions and attach to a basement membrane that lies underneath (1). Epithelial cells are polarized with the apical surface exposed, or free from cell-cell contact and the basal side lying in contact with a basement membrane or stromal cells. The cellfree apical space and basal contact are unique hallmarks of an epithelium and are likely positioning cues for the surface localization of the epithelial cells (2), although the molecular details and genes critical for epithelial cell surface positioning are yet uncertain and undefined. The concept that cues are required for epithelial surface positioning is also reinforced by observations of the disorganized growth of carcinomas. Carcinoma cells can be viewed as epithelial cells that have lost their ability to perceive surface positioning cues, and the neoplastic cells no longer obey the constraint imposed by tissue organization (3).The early embryos of vertebrates, especially mammalian species, have great plasticity, and significant cell dispersal, movement, and migration occur before their final positioning and acquisition of cell fates (4). Shown in the classical cell sorting experiments by Townes and Holtfreter (5), early embryonic amphibian cells of epidermis, endoderm, mesoderm, and neural plate, if dispersed, are able to segregate spontaneously upon aggregation, indicating cell positioning is an autonomous property.The primitive endoderm of mammalian early embryos is the first typical epithelial cell type derived that is capable of producing a basement membrane (6). Recent understanding is that the primitive endoderm cells arise from the differentiation of the pluripotent cells of the inner cell mass and migrate out to the surface to form the primitive endoderm layer (7...

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GPI anchoring leads to sphingolipid-dependent retention of endocytosed proteins in the recycling endosomal compartment

et al. 2001

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Glycosylphosphatidylinositol (GPI) anchoring is important for the function of several proteins in the context of their membrane traf®cking pathways. We have shown previously that endocytosed GPIanchored proteins (GPI-APs) are recycled to the plasma membrane three times more slowly than other membrane components. Recently, we found that GPIAPs are delivered to endocytic organelles, devoid of markers of the clathrin-mediated pathway, prior to their delivery to a common recycling endosomal compartment (REC). Here we show that the rate-limiting step in the recycling of GPI-APs is their slow exit from the REC; replacement of the GPI anchor with a transmembrane protein sequence abolishes retention in this compartment. Depletion of endogenous sphingolipid levels using sphingolipid synthesis inhibitors or in a sphingolipid-synthesis mutant cell line speci®cally enhances the rate of endocytic recycling of GPI-APs to that of other membrane components. We have shown previously that endocytic retention of GPI-APs is also relieved by cholesterol depletion. These ®ndings strongly suggest that functional retention of GPI-APs in the REC occurs via their association with sphingolipid and cholesterol-enriched sorting platforms or`rafts'.

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Restoration of positioning control following Disabled-2 expression in ovarian and breast tumor cells

et al. 2000

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Differential requirement for Dab2 in the development of embryonic and extra-embryonic tissues

et al. 2013

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BackgroundDisabled-2 (Dab2) is an endocytic adaptor protein involved in clathrin-mediated endocytosis and cargo trafficking. Since its expression is lost in several cancer types, Dab2 has been suggested to be a tumor suppressor. In vitro studies indicate that Dab2 establishes epithelial cell polarity and organization by directing endocytic trafficking of membrane glycoproteins. Dab2 also modulates cellular signaling pathways by mediating the endocytosis and recycling of surface receptors and associated signaling components. Previously, two independent gene knockout studies have been reported, with some discrepancies in the observed embryonic phenotypes. To further clarify the in vivo roles of Dab2 in development and physiology, we designed a new floxed allele to delete dab2 gene.ResultsThe constitutive dab2 deleted embryos showed a spectrum in the degree of endoderm disorganization in E5.5 and no mutant embryos persisted at E9.5. However, the mice were grossly normal when dab2 deletion was restricted to the embryo proper and the gene was retained in extraembryonic tissues using Meox2-Cre and Sox2-Cre. Adult Dab2-deficient mice had a small but statistically significant increase in serum cholesterol levels.ConclusionThe study of the new dab2 mutant allele in embryos and embryoid bodies confirms a role for Dab2 in extraembryonic endoderm development and epithelial organization. Experimental results with embryoid bodies suggest that additional endocytic adaptors such as Arh and Numb could partially compensate for Dab2 loss. Conditional deletion indicates that Dab2 is dispensable for organ development, when the vast majority of the embryonic cells are dab2 null. However, Dab2 has a physiological role in the endocytosis of lipoproteins and cholesterol metabolism.

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Cell autonomous sorting and surface positioning in the formation of primitive endoderm in embryoid bodies

Rula

Cai

Moore

et al. 2007

Genesis

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The differentiation and formation of the primitive endoderm in early embryos can be mimicked in vitro by the aggregation of embryonic stem cells to form embryoid bodies. We present morphological evidence that primitive endoderm cells often first locate in the interior of embryoid bodies and subsequently migrate to the surface. Cell mixing experiments indicate that surface positioning is an intrinsic property of endoderm epithelial cells. Moreover, Disabled-2 (Dab2) is required for surface sorting and positioning of the endoderm cells: when Dab2 expression was eliminated, the differentiated endoderm epithelial cells distributed throughout the interior of the embryoid bodies. Surprisingly, E-cadherin is dispensable for primitive endoderm differentiation and surface sorting in embryoid bodies. These results support the model that primitive endoderm cells first emerge in the interior of the inner cell mass and are subsequently sorted to the surface to form the primitive endoderm.

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Elizabeth Smith

Global-Scale Patterns of Forest Fragmentation

Fragmentation of Continental United States Forests

Disabled-2 Is Essential for Endodermal Cell Positioning and Structure Formation during Mouse Embryogenesis

Disabled-2 Is an Epithelial Surface Positioning Gene

GPI anchoring leads to sphingolipid-dependent retention of endocytosed proteins in the recycling endosomal compartment

Restoration of positioning control following Disabled-2 expression in ovarian and breast tumor cells

Differential requirement for Dab2 in the development of embryonic and extra-embryonic tissues

Cell autonomous sorting and surface positioning in the formation of primitive endoderm in embryoid bodies

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