Sascha E. Dho scite author profile

The amiloride‐sensitive epithelial sodium channel (ENaC) plays a major role in sodium transport in kidney and other epithelia, and in regulating blood pressure. The channel is composed of three subunits (alphabetagamma) each containing two proline‐rich sequences (P1 and P2) at its C‐terminus. The P2 regions in human beta and gammaENaC, identical to the rat betagammarENaC, were recently shown to be deleted in patients with Liddle's syndrome (a hereditary form of hypertension), leading to hyperactivation of the channel. Using a yeast two‐hybrid screen, we have now identified the rat homologue of Nedd4 (rNedd4) as the binding partner for the P2 regions of beta and gammarENaC. rNedd4 contains a Ca2+ lipid binding (CaLB or C2) domain, three WW domains and a ubiquitin ligase (Hect) domain. Our yeast two‐hybrid and in vitro binding studies revealed that the rNedd4‐WW domains mediate this association by binding to the P2 regions, which include the PY motifs (XPPXY) of either betarENaC (PPPNY) or gammarENaC (PPPRY). SH3 domains were unable to bind these sequences. Moreover, mutations to Ala of Pro616 or Tyr618 within the betarENaC P2 sequence (to PPANY or PPPNA, respectively), recently described in Liddle's patients, led to abrogation of rNedd4‐WW binding. Nedd4‐WW domains also bound to the proline‐rich C‐terminus (containing the sequence PPPAY) of alpharENaC, and endogenous Nedd4 co‐immunoprecipitated with alpharENaC expressed in MDCK cells. These results demonstrate that the WW domains of rNedd4 bind to the PY motifs deleted from beta or gammaENaC in Liddle's syndrome patients, and suggest that Nedd4 may be a regulator (suppressor) of the epithelial Na+ channel.

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aPKC-mediated phosphorylation regulates asymmetric membrane localization of the cell fate determinant Numb

Smith

Lau

Rahmani

et al. 2007

EMBO J

198

238

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In Drosophila, the partition defective (Par) complex containing Par3, Par6 and atypical protein kinase C (aPKC) directs the polarized distribution and unequal segregation of the cell fate determinant Numb during asymmetric cell divisions. Unequal segregation of mammalian Numb has also been observed, but the factors involved are unknown. Here, we identify in vivo phosphorylation sites of mammalian Numb and show that both mammalian and Drosophila Numb interact with, and are substrates for aPKC in vitro. A form of mammalian Numb lacking two protein kinase C (PKC) phosphorylation sites (Numb2A) accumulates at the cell membrane and is refractory to PKC activation. In epithelial cells, mammalian Numb localizes to the basolateral membrane and is excluded from the apical domain, which accumulates aPKC. In contrast, Numb2A is distributed uniformly around the cell cortex. Mutational analysis of conserved aPKC phosphorylation sites in Drosophila Numb suggests that phosphorylation contributes to asymmetric localization of Numb, opposite to aPKC in dividing sensory organ precursor cells. These results suggest a model in which phosphorylation of Numb by aPKC regulates its polarized distribution in epithelial cells as well as during asymmetric cell divisions.

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Numb Regulates Post-endocytic Trafficking and Degradation of Notch1

McGill

Dho

Weinmaster

et al. 2009

Journal of Biological Chemistry

184

185

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LNX functions as a RING type E3 ubiquitin ligase that targets the cell fate determinant Numb for ubiquitin-dependent degradation

et al. 2002

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LNX is a RING ®nger and PDZ domain containing protein that interacts with the cell fate determinant Numb. To investigate the function of LNX, we tested its RING ®nger domain for ubiquitin ligase activity. The isolated RING ®nger domain was able to function as an E2-dependent, E3 ubiquitin ligase in vitro and mutation of a conserved cysteine residue within the RING domain abolished its activity, indicating that LNX is the ®rst described PDZ domain-containing member of the E3 ubiquitin ligase family. We have identi®ed Numb as a substrate of LNX E3 activity in vitro and in vivo. In addition to the RING ®nger, a region of LNX, including the Numb PTB domainbinding site and the ®rst PDZ domain, is required for Numb ubiquitylation. Expression of wild-type but not mutant LNX causes proteasome-dependent degradation of Numb and can enhance Notch signalling. These results suggest that the levels of mammalian Numb protein and therefore, by extension, the processes of asymmetric cell division and cell fate determination may be regulated by ubiquitin-dependent proteolysis.

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Characterization of Four Mammalian Numb Protein Isoforms

Dho¹,

French²,

Woods³

et al. 1999

Journal of Biological Chemistry

172

118

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Numb is a membrane-associated, phosphotyrosine binding (PTB) domain-containing protein that functions as an intrinsic determinant of cell fate during Drosophila development. We have identified four isoforms of mammalian Numb with predicted molecular masses of 65, 66, 71, and 72 kDa that are generated by alternative splicing of the Numb mRNA. The different isoforms result from the presence of two sequence inserts within the PTB domain and the central region of the protein.The endogenous expression pattern of these isoforms, examined using specific antisera, varied in different tissues and cell lines. In addition, differentiation of P19 cells with retinoic acid leads to the specific loss of expression of the 71-and 72-kDa Numb proteins, suggesting that the expression of certain forms of Numb protein is regulated in a cell type-specific manner.Expression of Numb proteins fused to green fluorescent protein revealed that the form of the PTB domain with the alternatively spliced insert constitutively associated with the plasma membrane in polarized MadinDarby canine kidney cells. In contrast, the isoform without the insert was cytoplasmic, suggesting that different PTB domain isoforms may regulate the subcellular localization of Numb proteins. The membrane localization may be due, in part, to differential affinity for acidic phospholipids. The distinct expression and localization patterns of the different mammalian Numb isoforms suggest that they have distinct functional properties.

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The Cell Fate Determinant Numb Interacts with EHD/Rme-1 Family Proteins and Has a Role in Endocytic Recycling

Smith

Dho

Donaldson

et al. 2004

MBoC

101

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The adaptor protein Numb is necessary for the cell fate specification of progenitor cells in the Drosophila nervous system. Numb is evolutionarily conserved and previous studies have provided evidence for a similar functional role during mammalian development. The Numb protein has multiple protein-protein interaction regions including a phosphotyrosine binding (PTB) domain and a carboxy-terminal domain that contains conserved interaction motifs including an EH (Eps15 Homology) domain binding motif and alpha-adaptin binding site. In this study we identify the EHD/Rme-1/Pincher family of endocytic proteins as Numb interacting partners in mammals and Drosophila. The EHD/Rme-1 proteins function in recycling of plasma membrane receptors internalized by both clathrin-mediated endocytosis and a clathrin-independent pathway regulated by ADP ribosylation factor 6 (Arf6). Here we report that Numb colocalizes with endogenous EHD4/Pincher and Arf6 and that Arf6 mutants alter Numb subcellular localization. In addition, we present evidence that Numb has a novel function in endosomal recycling and intracellular trafficking of receptors.

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The Mammalian Numb Phosphotyrosine-binding Domain

Dho¹,

Jacob²,

Wolting³

et al. 1998

Journal of Biological Chemistry

110

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Hepoxilin A3 induces changes in cytosolic calcium, intracellular pH and membrane potential in human neutrophils

Dho¹,

Grinstein

Corey

et al. 1990

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The effects of hepoxilin A3 (HxA3), a 12-lipoxygenase metabolite of arachidonic acid, on cytosolic calcium ([Ca2+]i), intracellular pH (pHi), transmembrane potential and right-angle light scattering in human neutrophils were investigated. A rapid, transient elevation of [Ca2+]i was observed with HxA3 which was dependent on the concentration used. The effect of HxA3 on [Ca2+]i was blocked by pertussis toxin, suggesting involvement of receptors coupled to GTP-binding proteins. Experiments in Ca2(+)-free medium and using intracellular Ca2+ chelators indicated that HxA3 mobilized Ca2+ from intracellular stores. At similar concentrations, HxA3 altered pHi, producing an initial acidification followed by an alkalinization. The initial acidification was decreased in cells loaded with a Ca2+ chelator. In the presence of N-ethyl-N-(1-methylethyl)amino amiloride, an inhibitor of the Na+/H+ antiport, HxA3 induced a greater acidification but failed to elicit the recovery phase, suggesting that the latter is due to activation of the antiport. HxA3 also depolarized the membrane potential, although this effect was small. A decrease in right-angle light scattering, qualitatively similar to that observed with chemotactic peptides, was seen with HxA3, indicating that the 12-lipoxygenase metabolite can induce shape changes in neutrophils. At the concentrations used for the above effects, HxA3 was unable to generate a respiratory burst. These findings suggest that hepoxilins, which are formed by stimulated neutrophils, may have a role as messengers in neutrophil activation.

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Sascha E. Dho

WW domains of Nedd4 bind to the proline-rich PY motifs in the epithelial Na+ channel deleted in Liddle's syndrome.

aPKC-mediated phosphorylation regulates asymmetric membrane localization of the cell fate determinant Numb

Numb Regulates Post-endocytic Trafficking and Degradation of Notch1

LNX functions as a RING type E3 ubiquitin ligase that targets the cell fate determinant Numb for ubiquitin-dependent degradation

Characterization of Four Mammalian Numb Protein Isoforms

The Cell Fate Determinant Numb Interacts with EHD/Rme-1 Family Proteins and Has a Role in Endocytic Recycling

The Mammalian Numb Phosphotyrosine-binding Domain

Hepoxilin A3 induces changes in cytosolic calcium, intracellular pH and membrane potential in human neutrophils

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