The Tripartite Architecture of the Eukaryotic Integral Membrane Protein Zinc Metalloprotease Ste24.

Ste24 enzymes, a family of eukaryotic integral membrane proteins, are zinc metalloproteases (ZMPs) originally characterized as "CAAX proteases" targeting prenylated substrates, including a-factor mating pheromone in yeast and prelamin A in humans. Recently, Ste24 was shown to also cleave non-prenylated substrates. Reduced activity of the human ortholog, HsSte24, is linked to multiple disease states (laminopathies), including progerias and lipid disorders. Ste24 possesses a unique "α-barrel" structure consisting of seven transmembrane (TM) α-helices encircling a large intramembranous cavity (~14 000 å³ ). The catalytic zinc, coordinated via a HExxH…E/H motif characteristic of gluzincin ZMPs, is positioned at one of the cavity's bases. The interrelationship between Ste24 as a gluzincin, a long-studied class of soluble ZMPs, and as a novel cavity-containing integral membrane protein protease has been minimally explored to date. Informed by homology to well-characterized soluble, gluzincin ZMPs, we develop a model of Ste24 that provides a conceptual framework for this enzyme family, suitable for development and interpretation of structure/function studies. The model consists of an interfacial, zinc-containing "ZMP Core" module surrounded by a "ZMP Accessory" module, both capped by a transmembrane helical "α-barrel" module of as yet unknown function. Multiple sequence alignment (MSA) of fifty-eight Ste24 orthologs revealed thirty-eight absolutely-conserved residues, apportioned unequally among the ZMP Core (eighteen), ZMP Accessory (thirteen), and α-barrel (seven) modules. This Tripartite Architecture representation of Ste24 provides a unified image of this enzyme family. This article is protected by copyright. All rights reserved.