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Lora, Jose; Weskamp, Gisela; Li, Thomas M.; Maretzky, Thorsten; Shola, Dorjee T. N.; Monette, Sebastien; Lichtenthaler, Stefan F.; Lu, Theresa T.; Yang, Chingwen und Blobel, Carl P. (2021): Targeted truncation of the ADAM17 cytoplasmic domain in mice results in protein destabilization and a hypomorphic phenotype. In: Journal of Biological Chemistry, Bd. 296, 100733 [PDF, 5MB]

Abstract

A disintegrin and metalloprotease 17 (ADAM17) is a cellsurface metalloprotease that serves as the principle sheddase for tumor necrosis factor alpha (TNF alpha), interleukin-6 receptor (IL6R), and several ligands of the epidermal growth factor receptor (EGFR), regulating these crucial signaling pathways. ADAM17 activation requires its transmembrane domain, but not its cytoplasmic domain, and little is known about the role of this domain in vivo. To investigate, we used CRISPR-Cas9 to mutate the endogenous Adam17 locus in mice to produce a mutant ADAM17 lacking its cytoplasmic domain (Adam17 Delta cyto). Homozygous Adam17 Delta cyto animals were born at a Mendelian ratio and survived into adulthood with slightly wavy hair and curled whiskers, consistent with defects in ADAM17/EGFR signaling. At birth, Adam17 Delta cyto mice resembled Adam17-/- mice in that they had open eyes and enlarged semilunar heart valves, but they did not have bone growth plate defects. The deletion of the cytoplasmic domain resulted in strongly decreased ADAM17 protein levels in all tissues and cells examined, providing a likely cause for the hypomorphic phenotype. In functional assays, Adam17 Delta cyto mouse embryonic fibroblasts and bone-marrow-derived macrophages had strongly reduced ADAM17 activity, consistent with the reduced protein levels. Nevertheless, ADAM17 Delta cyto could be stimulated by PMA, a well-characterized posttranslational activator of ADAM17, corroborating that the cytoplasmic domain of endogenous ADAM17 is not required for its rapid response to PMA. Taken together, these results provide the first evidence that the cytoplasmic domain of ADAM17 plays a pivotal role in vivo in regulating ADAM17 levels and function.

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