<p>Caspase&#xa0;5 (CASP5) is a member of the inflammatory caspase family of cysteine proteases that is involved in inflammation and cell death<sup><CitationRef AdditionalCitationIDS="CR2" CitationID="CR1">1</CitationRef>–<CitationRef CitationID="CR3">3</CitationRef></sup>. CASP5 shares the highest homology with inflammatory CASP4, but whereas CASP4 is essential for noncanonical inflammasome activation, CASP5 is dispensable<sup><CitationRef AdditionalCitationIDS="CR5" CitationID="CR4">4</CitationRef>–<CitationRef CitationID="CR6">6</CitationRef></sup>, and its function remains unknown. Here we show that CASP5 is restricted to the human intestinal epithelium and manifests as three isoforms—CASP5A, CASP5B and CASP5C—among which CASP5C uniquely promotes Wnt signalling, which is essential for epithelial development and regeneration<sup><CitationRef CitationID="CR7">7</CitationRef></sup>. We identified dishevelled, which bridges Wnt receptors to the β-catenin destruction complex<sup><CitationRef CitationID="CR8">8</CitationRef></sup>, as a prominent CASP5 binding partner in colonic epithelial cells. Dishevelled interacts with the CASP5 catalytic domain through its DEP&#xa0;(dishevelled, EGL-10 and pleckstrin) domain. Lacking the&#xa0;inhibitory caspase activation and recruitment domain (CARD) of CASP5A and&#xa0;CASP5B, CASP5C cleaves&#xa0;the central scaffold protein APC at Asp556 in the Armadillo&#xa0;repeat domain, destabilizing the β-catenin destruction complex and thereby enhancing Wnt signalling. CASP5C expression peaks in transit-amplifying cells, the Wnt-reliant progeny of intestinal stem cells<sup><CitationRef CitationID="CR7">7</CitationRef></sup>, whereas CASP5A and CASP5B predominate in mature enterocytes. Endogenous and ectopic CASP5C drive growth of colonic and small intestinal organoids, which is known to require proliferation of transit-amplifying cells<sup><CitationRef CitationID="CR9">9</CitationRef></sup>. Furthermore, CASP5C is selectively induced upon intestinal epithelial injury, and its&#xa0;expression is increased in inflammatory bowel disease. Thus, CASP5C is an enzymatic amplifier of Wnt signalling that cleaves APC to sustain proliferation of transit-amplifying cells amid a declining Wnt gradient, safeguarding epithelial renewal. These findings broaden the roles of inflammatory caspases beyond innate immunity, uncovering their contribution to tissue homeostasis.</p>

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Caspase 5c amplifies Wnt via APC cleavage to promote intestinal homeostasis

  • Baosen Jia,
  • Yuhua Shi,
  • Yourae Hong,
  • Chongbo Yang,
  • Dylan Roycroft,
  • Shahida Kamal,
  • Sushmita Mukherjee,
  • Beatrix Ueberheide,
  • Alex Grier,
  • Ellen Scherl,
  • Dana Lukin,
  • Randy Longman,
  • Vinita Jacob,
  • Laura Sahyoun,
  • Michael Mintz,
  • Jennifer Claytor,
  • Robbyn Sockolow,
  • Aliza Solomon,
  • Thomas Ciecierega,
  • Arielle Bergman,
  • Kimberley Chien,
  • Kenny Joselin Castro Ochoa,
  • Elliott Gordon,
  • Lily Barash,
  • Melissa Rose,
  • Kelly Garrett,
  • Fabrizio Michelassi,
  • Jeffrey Milsom,
  • David Artis,
  • Gregory Sonnenberg,
  • Caitlin Mason,
  • Victoria Ribeiro de Godoy,
  • Adriana Brcic-Susak,
  • Dario Garone,
  • Chloe Scott,
  • Lexi Tempera,
  • Mavee Witherspoon,
  • Maneeza Bilal,
  • Bing He,
  • Lauretta A. Lacko,
  • Steven M. Lipkin,
  • Sabine Tejpar,
  • J. Magarian Blander

摘要

Caspase 5 (CASP5) is a member of the inflammatory caspase family of cysteine proteases that is involved in inflammation and cell death13. CASP5 shares the highest homology with inflammatory CASP4, but whereas CASP4 is essential for noncanonical inflammasome activation, CASP5 is dispensable46, and its function remains unknown. Here we show that CASP5 is restricted to the human intestinal epithelium and manifests as three isoforms—CASP5A, CASP5B and CASP5C—among which CASP5C uniquely promotes Wnt signalling, which is essential for epithelial development and regeneration7. We identified dishevelled, which bridges Wnt receptors to the β-catenin destruction complex8, as a prominent CASP5 binding partner in colonic epithelial cells. Dishevelled interacts with the CASP5 catalytic domain through its DEP (dishevelled, EGL-10 and pleckstrin) domain. Lacking the inhibitory caspase activation and recruitment domain (CARD) of CASP5A and CASP5B, CASP5C cleaves the central scaffold protein APC at Asp556 in the Armadillo repeat domain, destabilizing the β-catenin destruction complex and thereby enhancing Wnt signalling. CASP5C expression peaks in transit-amplifying cells, the Wnt-reliant progeny of intestinal stem cells7, whereas CASP5A and CASP5B predominate in mature enterocytes. Endogenous and ectopic CASP5C drive growth of colonic and small intestinal organoids, which is known to require proliferation of transit-amplifying cells9. Furthermore, CASP5C is selectively induced upon intestinal epithelial injury, and its expression is increased in inflammatory bowel disease. Thus, CASP5C is an enzymatic amplifier of Wnt signalling that cleaves APC to sustain proliferation of transit-amplifying cells amid a declining Wnt gradient, safeguarding epithelial renewal. These findings broaden the roles of inflammatory caspases beyond innate immunity, uncovering their contribution to tissue homeostasis.