Cytophaga hutchinsonii gldN, Encoding a Core Component of the Type IX Secretion System, Is Essential for Ion Assimilation, Cellulose Degradation, and Cell Motility

The type IX secretion system (T9SS), which is involved in pathogenicity, motility, and utilization of complex biopolymers, is a novel protein secretion system confined to the phylum Bacteroidetes. Cytophaga hutchinsonii, a common cellulolytic soil bacterium belonging to the phylum Bacteroidetes, can rapidly digest crystalline cellulose using a novel strategy. In this study, the deletion mutant of chu_0174 (gldN) was obtained using PY6 medium supplemented with Stanier salts. GldN was verified to be a core component of C. hutchinsonii T9SS, and is indispensable for cellulose degradation, motility, and secretion of C-terminal domain (CTD) proteins. Notably, the Delta gldN mutant showed significant growth defects in Ca2+- and Mg2+-deficient media. These growth defects could be relieved by the addition of Ca2+ or Mg2+. The intracellular concentrations of Ca2+ and Mg2+ were markedly reduced in Delta gldN. These results demonstrated that GldN is essential for the acquisition of trace amounts of Ca2+ and Mg2+, especially for Ca2+. Moreover, an outer membrane efflux protein, CHU_2807, which was decreased in abundance on the outer membrane of Delta gldN, is essential for normal growth in PY6 medium. The reduced intracellular accumulation of Ca2+ and Mg-2+ in the Delta 2807 mutant indicated that CHU_2807 is involved in the uptake of trace amounts of Ca2+ and Mg2+. This study provides in-sights into the role of T9SS in metal ion assimilation in C. hutchinsonii. IMPORTANCE The widespread Gram-negative bacterium Cytophaga hutchinsonii uses a novel but poorly understood strategy to utilize crystalline cellulose. Recent studies showed that a T9SS exists in C. hutchinsonii and is involved in cellulose degradation and motility. However, the main components of the C. hutchinsonii T9SS and their functions are still unclear. Our study characterized the function of GldN, which is a core component of the T9SS. GldN was proved to play vital roles in cellulose degradation and cell motility. Notably, GldN is essential for the acquisition of Ca2+ and Mg2+ ions under Ca2+- and Mg2+-deficient conditions, revealing a link between the T9SS and the metal ion transport system. The outer membrane abundance of CHU_2807, which is essential for Ca2+ and Mg2+ uptake in PY6 medium, was affected by the deletion of GldN. This study demonstrated that the C. hutchinsonii T9SS has extensive functions, including cellulose degradation, motility, and metal ion assimilation, and contributes to further understanding of the function of the T9SS in the phylum Bacteroidetes.