Abstract
The epidermal growth factor (EGF)‐receptor ligand amphiregulin (AREG) is a potent growth factor implicated in proliferative skin diseases and in primary and metastatic epithelial cancers. AREG, synthesized as a propeptide, requires conversion to an active peptide by metalloproteases by a process known as ectodomain shedding. Although (ADAM17) a disintegrin and metalloprotease 17 is a key sheddase of AREG, ADAM8‐, ADAM15‐, and batimastat (broad metalloprotease inhibitor)‐sensitive metalloproteases have also been implicated in AREG shedding. In the present study, using a curly bare (Rhbdf2 cub) mouse model that shows loss‐of‐hair, enlarged sebaceous gland, and rapid cutaneous wound‐healing phenotypes mediated by enhanced Areg mRNA and protein levels, we sought to identify the principal ectodomain sheddase of AREG. To this end, we generated Rhbdf2 cub mice lacking ADAM17 specifically in the skin and examined the above phenotypes of Rhbdf2 cub mice. We find that ADAM17 deficiency in the skin of Rhbdf2 cub mice restores a full hair coat, prevents sebaceous gland enlargement, and impairs the rapid wound‐healing phenotype observed in Rhbdf2 cub mice. Furthermore, in vitro, stimulated shedding of AREG is abolished in Rhbdf2 cub mouse embryonic keratinocytes lacking ADAM17. Thus, our data support previous findings demonstrating that ADAM17 is the major ectodomain sheddase of AREG.
Highlights
Follow this and additional works at: https://mouseion.jax.org/stfb2018 Part of the Life Sciences Commons, and the Medicine and Health Sciences Commons
(ADAM17) a disintegrin and metalloprotease 17 is a key sheddase of AREG, ADAM8, ADAM15, and batimastat-sensitive metalloproteases have been implicated in AREG shedding
Results of in vivo studies implicate ADAM17 as the specific metalloprotease contributing to the ectodomain shedding of AREG [15], a potent growth factor implicated in proliferative skin diseases, and primary and metastatic epithelial cancers [16,17,18]
Summary
Follow this and additional works at: https://mouseion.jax.org/stfb2018 Part of the Life Sciences Commons, and the Medicine and Health Sciences Commons. In the present study, using a curly bare (Rhbdf2cub) mouse model that shows lossof-hair, enlarged sebaceous gland, and rapid cutaneous wound-healing phenotypes mediated by enhanced Areg mRNA and protein levels, we sought to identify the principal ectodomain sheddase of AREG. To this end, we generated Rhbdf2cub mice lacking ADAM17 in the skin and examined the above phenotypes of Rhbdf2cub mice. ADAM17, a disintegrin and metalloprotease 17; AREG, amphiregulin; EGFR, epidermal growth factor receptor; HB-EGF, heparin-binding EGF; mEFs, mouse embryonic fibroblasts; MEKs, mouse embryonic keratinocytes; Rhbdf2cub, curly bare; TGFa, transforming growth factor alpha
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