The CUTIN SYNTHASE enzyme family was a key driver of cuticle emergence in land plants

The plant cuticle is a key adaptation acquired during the colonization of land. It forms a hydrophobic barrier at the interface with the environment, fulfilling essential protective and developmental functions. Despite its evolutionary significance and central role in land plant biology, the determinants that drove the emergence of the cuticle remain poorly understood. Here, we show that the CUTIN SYNTHASE (CUS) enzyme family, which synthesises the lipidic polyester that forms the structural framework of the cuticle in flowering plants, originated in a common ancestor of land plants, concomitant with terrestrialization. Using the moss Physcomitrium patens, we further demonstrate that CUS function is conserved among land plants. Inactivation of CUS genes disrupts gametophore development, the first tissue forming a cuticle during the moss life cycle, and compromises cuticle integrity. We also show that P. patens CUS enzymes localize to the apoplast, where they mediate the formation of a 10,16-dihydroxyhexadecanoic acid polyester using 2-mono-(10,16-dihydroxyhexadecanoyl)glycerol as substrate. Overall, our results reveal the conservation of CUS catalytic and physiological functions over 500 million years and support a pivotal role for this enzyme family in the emergence of the cuticle in an ancestral land plant during terrestrialization. SIGNIFICANCEThe cuticle is a hallmark of land plants that fulfills essential roles, ranging from protection to development. Elucidating the mechanisms underlying its emergence and formation therefore has the potential to reveal fundamental aspects of land plant evolution and biology. Here, we show that the CUTIN SYNTHASE (CUS) enzyme family, which catalyzes the formation of the cuticle framework in flowering plants, arose in an ancestor of land plants during terrestrialization. Using the moss Physcomitrium patens, we further demonstrate that CUS function has been conserved for 500 million years across bryophytes and tracheophytes. We propose that the emergence of the CUS family was a key event in establishing the plant cuticle during terrestrialization.