Numb Inhibits the Recycling of Sanpodo in Drosophila Sensory Organ Precursor

Cotton, Mathieu; Benhra, Najate; Borgne, Roland Le

doi:10.1016/j.cub.2013.02.020

Cited by 43 publications

(86 citation statements)

References 35 publications

(63 reference statements)

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“…A recent study suggested that Numb suppresses Notch activity either by facilitating lysosomal degradation of Notch or by reducing its recycling to the plasma membrane [23]. Numb also antagonizes the Notch pathway via facilitating the endocytosis of Drosophila sanpodo, which is a membrane protein that is required for Notch activation [24]. These findings suggest that Numb suppresses Notch activity by regulating endosomal trafficking.…”

Section: Introductionmentioning

confidence: 67%

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Numb regulates vesicular docking for homotypic fusion of early endosomes via membrane recruitment of Mon1b

Shao

Liu

et al. 2016

Cell Res

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Numb is an endocytic protein that plays crucial roles in diverse cellular processes such as asymmetric cell division, cell migration and differentiation. However, the molecular mechanism by which Numb regulates endocytic trafficking is poorly understood. Here, we demonstrate that Numb is a docking regulator for homotypic fusion of early endosomes (EEs). Numb depletion causes clustered but unfused EEs, which can be rescued by overexpressing cytosolic Numb 65 and Numb 71 but not plasma membrane-attached Numb 66 or Numb 72. Time-lapse analysis reveals that paired vesicles tend to tether but not fuse with each other in the absence of Numb. We further show that Numb binds to another docking regulator, Mon1b, and is required for the recruitment of cytosolic Mon1b to the EE membrane. Consistent with this, deletion of Mon1b causes similar defects in EE fusion. Our study thus identifies a novel mechanism by which Numb regulates endocytic sorting by mediating EE fusion.

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Section: Introductionmentioning

confidence: 67%

“…Numb carries out these functions via regulating endocytic trafficking of several key molecules, such as Notch, sanpodo, cadherins and integrins [4,7,9,14,17,18,23,24,26,51,52]. Although in all these contexts Numb functions as an endocytic adaptor protein, the exact role of Numb in endocytic trafficking remains an open question.…”

Section: Discussionmentioning

confidence: 99%

Numb regulates vesicular docking for homotypic fusion of early endosomes via membrane recruitment of Mon1b

Shao

Liu

et al. 2016

Cell Res

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“…The cell fate determinant Neuralized, which is unequally inherited by the pIIb cell at cytokinesis (Le Borgne and Schweisguth, 2003), promotes the basal-to-apical transcytosis of Delta in epithelial cells (Benhra et al, 2010). Furthermore, the new adherens junctions at the apical side have also been proposed to act as a platform for Notch signalling during cytokinesis because Notch accumulates there in SOPs that have been depleted of the clathrin adaptor complex AP-1, and loss of AP-1 results in Notch gain of function (Benhra et al, 2011;Cotton et al, 2013). These data raise the possibility that Notch can also be activated at the apical interface above the midbody (Fig.…”

Section: Cell-cell Signalling At the New Membrane Interfacementioning

confidence: 99%

“…SOPs divide asymmetrically along the antero-posterior axis to produce an anterior pIIb cell and a posterior pIIa cell (Gho and Schweisguth, 1998;Schweisguth et al, 1996). Cell fate acquisition relies on the differential activation of the transmembrane receptor Notch through its ligand Delta; Notch is activated in the pIIa cell and inhibited in the pIIb cell by Numb, which, in turn, is unequally inherited by this cell during mitosis (Cotton et al, 2013;Couturier et al, 2013;Couturier et al, 2012;Frise et al, 1996;Guo et al, 1996;Rhyu et al, 1994). Furthermore, Notch and Delta are internalized into a subset of multivesicular endosomes, marked with Smad anchor for receptor activation (Sara), which unequally partitions into the pIIa cell during cytokinesis (Coumailleau et al, 2009).…”

Section: Cell-cell Signalling At the New Membrane Interfacementioning

confidence: 99%

Epithelial cell division – multiplying without losing touch

Bras

Borgne

2014

Journal of Cell Science

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Epithelia are compact tissues comprising juxtaposed cells that function as mechanical and chemical barriers between the body and the environment. This barrier relies, in part, on adhesive contacts within adherens junctions, which are formed and stabilized by Ecadherin and catenin proteins linked to the actomyosin cytoskeleton. During development and throughout adult life, epithelia are continuously growing or regenerating, largely as a result of cell division. Although persistence of adherens junctions is needed for epithelial integrity, these junctions are continually remodelled during cell division. In this Commentary, we will focus on cytokinesis, the final step of mitosis, a multiparty phenomenon in which the adherens junction belt plays an essential role and during which a new cell-cell interface is generated between daughter cells. This new interface is the site of intense remodelling, where new adhesive contacts are assembled and cell polarity is transmitted from mother to daughter cells, ultimately becoming the site of cell signalling.

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“…Notch is constantly endocytosed (McGill et al, 2009), and the signaling outcome arising from this internalized pool of Notch is carefully controlled by several factors. On the one hand, the protein Numb is a conserved inhibitor of the pathway that acts at this level (Cotton et al, 2013;Couturier et al, 2013Couturier et al, , 2014Reichardt and Knoblich, 2013). This factor interacts with components of the AP-2 complex and prevents endosome-to-plasma membrane recycling of Notch; in addition, Numb also promotes the lysosomal degradation of the receptor (McGill et al, 2009).…”

Section: Discussionmentioning

confidence: 99%