Elevating EGFR-MAPK program by a nonconventional Cdc42 enhances intestinal epithelial survival and regeneration
Xiao Zhang, … , Ivaylo I. Ivanov, Nan Gao
Xiao Zhang, … , Ivaylo I. Ivanov, Nan Gao
Published July 20, 2020
Citation Information: JCI Insight. 2020;5(16):e135923. https://doi.org/10.1172/jci.insight.135923.
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Research Article Gastroenterology Stem cells

Elevating EGFR-MAPK program by a nonconventional Cdc42 enhances intestinal epithelial survival and regeneration

Abstract

The regulatory mechanisms enabling the intestinal epithelium to maintain a high degree of regenerative capacity during mucosal injury remain unclear. Ex vivo survival and clonogenicity of intestinal stem cells (ISCs) strictly required growth response mediated by cell division control 42 (Cdc42) and Cdc42-deficient enteroids to undergo rapid apoptosis. Mechanistically, Cdc42 engaging with EGFR was required for EGF-stimulated, receptor-mediated endocytosis and sufficient to promote MAPK signaling. Proteomics and kinase analysis revealed that a physiologically, but nonconventionally, spliced Cdc42 variant 2 (V2) exhibited stronger MAPK-activating capability. Human CDC42-V2 is transcriptionally elevated in some colon tumor tissues. Accordingly, mice engineered to overexpress Cdc42-V2 in intestinal epithelium showed elevated MAPK signaling, enhanced regeneration, and reduced mucosal damage in response to irradiation. Overproducing Cdc42-V2 specifically in mouse ISCs enhanced intestinal regeneration following injury. Thus, the intrinsic Cdc42-MAPK program is required for intestinal epithelial regeneration, and elevating this signaling cascade is capable of initiating protection from genotoxic injury.

Authors

Xiao Zhang, Sheila Bandyopadhyay, Leandro Pires Araujo, Kevin Tong, Juan Flores, Daniel Laubitz, Yanlin Zhao, George Yap, Jingren Wang, Qingze Zou, Ronaldo Ferraris, Lanjing Zhang, Wenwei Hu, Edward M. Bonder, Pawel R. Kiela, Robert Coffey, Michael P. Verzi, Ivaylo I. Ivanov, Nan Gao

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Figure 4

Overexpressing Cdc42 V2 in mouse intestinal epithelium affects differentiation.

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Overexpressing Cdc42 V2 in mouse intestinal epithelium affects different...
(A) A schematic diagram showing the strategy of developing a Cdc42 V2Tg mouse allele, which conditionally expressed a Flag-tagged Cdc42-V2 in a Cre-dependent manner. A loxP-stop-loxP-3xFlag-V2-bGHpoly(A) cassette was inserted downstream of a chick actin (CAG) promoter. (B) Western blots for Flag detected Flag-V2 expression in duodenum, jejunum, ileum, and colon of V2Tg driven by Vil-Cre. HEK293 cells expressing Flag-V2 were used as positive controls. (C) Immunohistochemistry for Flag detected Flag-V2 expression in V2Tg mouse IECs. Images are representative of 3 independent mice per genotype. (D) Western blots for Cdc42 showed that the transgenic expression of V2 (upper band) in a V2Tg line was approximately 40% of endogenous Cdc42 (empty arrowhead). (E) H&E staining of mouse intestines. V2Tg small intestines showed longer villi and more crypts; KO showed blunted villi. (F) Alcian blue staining of mouse intestinal sections of indicated genotypes. (G) Quantification of cyclooxygenases 1–positive (Cox1+) cell number per crypt-villus unit. (H) Quantification of Alcian blue–positive cells per crypt-villus unit. (I) Immunofluorescence staining for lysozyme (red), E-cad (green), and DAPI (blue). (J) Alkaline phosphatase (AP) staining showed representative AP+ inclusion bodies in KO IECs. Scale bar: 100 μm. (K) Quantification of mislocalized Paneth cells. (L) Quantification of AP+ inclusion bodies. Data in G, H, K, and L were quantified from multiple intestinal sections of a total of 3 animals per genotype. Please also see Supplemental Figures 3 and 4.