Metalation of Extracytoplasmic Proteins and Bacterial Cell Envelope Homeostasis

Cell physiology requires innumerable metalloenzymes supported by the selective import of metal ions. Within the crowded cytosol, most enzymes acquire their cognate cofactors from a buffered labile pool. Metalation of membrane-bound and secreted exoenzymes is more problematic since metal concentrations are highly variable outside the cell. Here, we focus on metalloenzymes involved in cell envelope homeostasis. Peptidoglycan synthesis often relies on Zn-dependent hydrolases, and metal-dependent (3-lactamases play important roles in antibiotic resistance. In gram-positive bacteria, lipoteichoic acid synthesis requires Mn, with TerC family Mn exporters in a supporting role. For some exoenzymes, metalation occurs in the cytosol, and metalated enzymes are exported through the TAT secretion system. For others, metalation is facilitated by metal exporters, metallochaperones, or partner proteins that enhance metal affinity. To help ensure function, some metalloenzymes can function with multiple metals. Thus, cells employ a diversity of strategies to ensure metalation of enzymes functioning outside the cytosol.