Disrupted apical exocytosis of cargo vesicles causes enteropathy in FHL5 patients with Munc18-2 mutations
Georg F. Vogel, … , Michael W. Hess, Lukas A. Huber
Georg F. Vogel, … , Michael W. Hess, Lukas A. Huber
Published July 20, 2017
Citation Information: JCI Insight. 2017;2(14):e94564. https://doi.org/10.1172/jci.insight.94564.
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Research Article Cell biology Gastroenterology

Disrupted apical exocytosis of cargo vesicles causes enteropathy in FHL5 patients with Munc18-2 mutations

Abstract

Familial hemophagocytic lymphohistiocytosis 5 (FHL5) is an autosomal recessive disease caused by mutations in STXBP2, coding for Munc18-2, which is required for SNARE-mediated membrane fusion. FHL5 causes hematologic and gastrointestinal symptoms characterized by chronic enteropathy that is reminiscent of microvillus inclusion disease (MVID). However, the molecular pathophysiology of FHL5-associated diarrhea is poorly understood. Five FHL5 patients, including four previously unreported patients, were studied. Morphology of duodenal sections was analyzed by electron and fluorescence microscopy. Small intestinal enterocytes and organoid-derived monolayers displayed the subcellular characteristics of MVID. For the analyses of Munc18-2–dependent SNARE-protein interactions, a Munc18-2 CaCo2–KO model cell line was generated by applying CRISPR/Cas9 technology. Munc18-2 is required for Slp4a/Stx3 interaction in fusion of cargo vesicles with the apical plasma membrane. Cargo trafficking was investigated in patient biopsies, patient-derived organoids, and the genome-edited model cell line. Loss of Munc18-2 selectively disrupts trafficking of certain apical brush-border proteins (NHE3 and GLUT5), while transport of DPPIV remained unaffected. Here, we describe the molecular mechanism how the loss of function of Munc18-2 leads to cargo-selective mislocalization of brush-border components and a subapical accumulation of cargo vesicles, as it is known from the loss of polarity phenotype in MVID.

Authors

Georg F. Vogel, Jorik M. van Rijn, Iris M. Krainer, Andreas R. Janecke, Carsten Posovszky, Marta Cohen, Claire Searle, Prevost Jantchou, Johanna C. Escher, Natalie Patey, Ernest Cutz, Thomas Müller, Sabine Middendorp, Michael W. Hess, Lukas A. Huber

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Figure 4

Loss of Munc18 disrupts enterocyte polarity.

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Loss of Munc18 disrupts enterocyte polarity. (A) Western blot showing Ca...
(A) Western blot showing CaCo2 WT, Munc18-KO (gMunc18), and Munc18-KO cells reverted with HS-tagged, gRNA-resistant Munc18 WT and d232 mutant. (B) Quantification of single lumen formation (bounds of boxes represent 25th/75th percentiles, lines within boxes indicate medians, and whiskers represent minimum/maximum; statistical significance was tested by Student’s t test; ***P < 0.005, n ≥ 100 cysts/experiment, 3 independent experiments). (C) Polarity is disrupted upon Munc18 depletion (gMunc18) in a 3D cyst formation assay in comparison to WT. Reexpression of HS-Munc18_gR reverts the phenotype, while HS-Munc18_gR-d232 does not. Actin is labeled in red an nuclei in blue; basal actin stain is seen in reaction to extracellular matrix (e.g., Matrigel). (D) Loss of Munc18 results in loss of apical microvilli (arrows) and subapical vesicle accumulation (arrowheads) in CaCo2 cells. Scale bar: 1 μm. (E) Reexpression of HS-Munc18_gR reverts the Munc18-KO phenotype. The brush-border microvilli are indicated with arrows. Scale bar: 10 μm (C); 1 μm (D).