Janina Hendrick scite author profile

Membrane trafficking is known to be coordinated by small GTPases, but the identity of their regulators, the guanine nucleotide exchange factors (GEFs) and GTPase-activating proteins (GAPs) that ensure balanced GTPase activation at different subcellular sites is largely elusive. Here, we show in living cells that deleted in liver cancer 3 (DLC3, also known as STARD8) is a functional Rho-specific GAP protein, the loss of which enhances perinuclear RhoA activity. DLC3 is recruited to Rab8-positive membrane tubules and is required for the integrity of the Rab8 and Golgi compartments. Depletion of DLC3 impairs the transport of internalized transferrin to the endocytic recycling compartment (ERC), which is restored by the simultaneous downregulation of RhoA and RhoB. We further demonstrate that DLC3 loss interferes with epidermal growth factor receptor (EGFR) degradation associated with prolonged receptor signaling. Taken together, these findings identify DLC3 as a novel component of the endocytic trafficking machinery, wherein it maintains organelle integrity and regulates membrane transport through the control of Rho activity.

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The polarity protein Scribble positions DLC3 at adherens junctions to regulate Rho signaling

Hendrick

Franz‐Wachtel

Moeller

et al. 2016

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The spatial regulation of cellular Rho signaling by GAP proteins is still poorly understood. By performing mass spectrometry, we here identify the polarity protein Scribble as a scaffold for the RhoGAP protein DLC3 (also known as StarD8) at cell-cell adhesions. This mutually dependent interaction is mediated by the PDZ domains of Scribble and a PDZ ligand (PDZL) motif in DLC3. Both Scribble depletion and PDZL deletion abrogated DLC3 junctional localization. Using a RhoA biosensor and a targeted GAP domain, we demonstrate that DLC3 activity locally regulates RhoA-ROCK signaling at and Scribble localization to adherens junctions, and is required for their functional integrity. In a 3D model of cyst development, we furthermore show that DLC3 depletion impairs polarized morphogenesis, phenocopying the effects observed upon Scribble knockdown. We thus propose a new function for Scribble in Rho regulation that entails positioning of DLC3 GAP activity at cell junctions in polarized epithelial cells.

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The polarity protein Scribble positions DLC3 at adherens junctions to regulate Rho signaling

Hendrick

Franz‐Wachtel

Moeller

et al. 2016

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Quantitative immunofluorescence in single Saccharomyces cerevisiae cells

1989

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We have developed a staining procedure that allows the simultaneous determination of intracellular amounts of DNA and an antigen in Saccharomyces cerevisiae with a single laser flow cytometer. The antigen, P-galactosidase from a cloned lac2 gene, is inducible and is detected with an indirect immunofluorescent stain. Cell preparation procedures, specifically cell fixation and cell wall removal, have significant effects on measured levels of immunofluorescence and have been optimized to prevent cell loss and maximize immunofluorescence. Average immunofluorescent levels of cell populations expressing different levels of P-galactosidase show excellent correlation with measurements of average p-galactosidase activity per cell based on cleavage of o-nitrophenyl-P-D-galactopyranoside. Experiments with yeast populations containing various numbers of copies of the cloned gene indicate that the relationship between immunofluorescence and antigen content also holds at the single-cell level. Correlated measurements of DNA and 0-galactosidase content on a single-cell level permit the investigation of cellular enzyme content as a function of cell cycle position under various conditions. The procedure can be easily modified to detect other antigens by changing the primary antibody used.

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Janina Hendrick

The Rho-specific GAP protein DLC3 coordinates endocytic membrane trafficking

The polarity protein Scribble positions DLC3 at adherens junctions to regulate Rho signaling

The polarity protein Scribble positions DLC3 at adherens junctions to regulate Rho signaling

Quantitative immunofluorescence in single Saccharomyces cerevisiae cells

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