Juvenile hormone inhibits adult cuticle formation in Drosophila melanogaster through Kr‐h1/Dnmt2‐mediated DNA methylation of Acp65A promoter

Abstract Differentiation of imaginal epidermal cells of Drosophila melanogaster to form adult cuticles occurs at approximately 40–93 h after puparium formation. Juvenile hormone (JH) given at pupariation results in formation of a second pupal cuticle in the abdomen instead of the adult cuticle. Although the adult cuticle gene Acp65A has been reported to be down‐regulated following JH treatment, the regulatory mechanism remains unclear. Here, we found that the JH primary response gene Krüppel homologue 1 ( Kr‐h1 ) plays a vital role in the repression of adult cuticle formation through the mediation of JH action. Overexpression of Kr‐h1 mimicked—while knocking down of Kr‐h1 attenuated—the inhibitory action of JH on the formation of the adult abdominal cuticle. Further, we found that Kr‐h1 inhibited the transcription of Acp65A by directly binding to the consensus Kr‐h1 binding site (KBS) within the Acp65A promoter region. Moreover, the DNA methyltransferase Dnmt2 was shown to interact with Kr‐h1, combined with the KBS to promote the DNA methylation of sequences around the KBS, in turn inhibiting the transcription of Acp65A . This study advances our understanding of the molecular basis of the “status quo” action of JH on the Drosophila adult metamorphosis.