TY - JOUR T1 - An integrated approach unravels a crucial structural property for the function of the insect steroidogenic Halloween protein Noppera-bo JF - bioRxiv DO - 10.1101/781070 SP - 781070 AU - Kotaro Koiwai AU - Kazue Inaba AU - Kana Morohashi AU - Sora Enya AU - Reina Arai AU - Hirotatsu Kojima AU - Takayoshi Okabe AU - Yuuta Fujikawa AU - Hideshi Inoue AU - Ryunosuke Yoshino AU - Takatsugu Hirokawa AU - Koichiro Kato AU - Kaori Fukuzawa AU - Yuko Shimada-Niwa AU - Akira Nakamura AU - Fumiaki Yumoto AU - Toshiya Senda AU - Ryusuke Niwa Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/09/27/781070.abstract N2 - Ecdysteroids are the principal insect steroid hormones essential for insect development and physiology. In the last 18 years, several enzymes responsible for ecdysteroid biosynthesis, encoded by Halloween genes, have been identified and well characterized, both genetically and biochemically. However, none of these proteins have yet been characterized at the tertiary structure level. Here, we report an integrated in silico, in vitro, and in vivo analyses of the Halloween glutathione S-transferase (GST) protein, Noppera-bo (Nobo). We determine crystal structures of Drosophila melanogaster Nobo (DmNobo) complexed with glutathione and 17β-estradiol, a DmNobo inhibitor. 17β-estradiol almost fully occupied the putative ligand-binding pocket, and a prominent hydrogen bond formed between Asp113 of DmNobo and 17β-estradiol. Asp113 is essential for inhibiting DmNobo enzymatic activity by 17β-estradiol, as 17β-estradiol does not inhibit and physically interacts less with the Asp113Ala DmNobo point mutant. Asp113 is highly conserved among Nobo proteins, but not among other GSTs, implying that Asp113 is important for endogenous Nobo function. Indeed, a homozygous nobo allele possessing the Asp113Ala point mutation exhibits embryonic lethality with undifferentiated cuticle structure, a phenocopy of complete loss-of-function nobo homozygotes. These results suggest that the nobo family of GST proteins has acquired a unique amino acid residue, which seems to be essential for binding an endogenous sterol substrate to regulate ecdysteroid biosynthesis. This is the first study to reveal the structural characteristics of insect steroidogenic Halloween proteins. This study also provides basic insight into applied entomology for developing a new type of insecticides that specifically inhibit ecdysteroid biosynthesis.Significance Statement Insect molting and metamorphosis are drastic and dynamic biological processes and, therefore, have fascinated many scientists. Ecdysteroids represent one class of insect hormones that are indispensable for inducing molting and metamorphosis. It is well known that proteins responsible for catalyzing ecdysteroid biosynthesis reactions are encoded by “Halloween” genes, most of which have names of ghosts and phantoms. However, no studies have focused on the structural properties of these biosynthetic proteins. In this study, we addressed this unsolved issue and successfully unraveled a structural property that is crucial for the function of the fruit fly Halloween protein, Noppera-bo (a Japanese faceless ghost). This is the first study to reveal the structural characteristics of an insect steroidogenic Halloween protein. ER -