Electron Microscopy of Immune Disruption of Leptospires: Action of Complement and Lysozyme

Abstract

Sequential disruption of the sheath of avirulent leptospires of the serotype canicola with antibody and complement was monitored by electron microscopy. Loosening and separation of the sheath from the protoplasmic cylinder was observed as early as 2 min after exposure to complement. Virulent leptospires of this serotype were morphologically intact after 1 hr of exposure to antibody and complement. Similarly, treatment of leptospires of the serotype patoc with normal serum and complement severely damaged the sheath structure. Removal of the sheath of both serotypes permitted lysozyme to act on the wall of the protoplasmic cylinder. Thus, morphological evidence for the location of the mucopeptide-containing structure of these leptospires was obtained. Viable leptospires with intact sheaths were resistant to lysozyme alone. Sections and negatively stained preparations of sheaths of serotypes canicola and patoc revealed three dense layers with two intermediate light zones and an overall thickness of about 110 A. A periodicity of 40 A was observed in sheath fragments produced by complement. The 70 A wallmembrane complex of leptospires of both serotypes consisted of two dense layers with an intermediate light zone. Structures apparent after removal of the outer sheath included membranous bodies or mesosomes, axial filaments attached to terminal knobs at opposite ends of the cell, and electron-dense intracellular bodies.