Cytoplasmic contractile injection systems mediate cell death in Streptomyces

Abstract

Contractile injection systems (CISs) are bacteriophage tail-like structures that mediate bacterial cell-cell interactions. While CISs are highly abundant across diverse bacterial phyla, representative gene clusters in Gram-positive organisms remain poorly studied.

Here we characterize a CIS in the Gram-positive multicellular model organism Streptomyces coelicolor and show, that in contrast to most other CISs, S. coelicolor CIS (CIS^Sc) mediate cell death in response to stress and impact cellular development. CIS^Sc are expressed in the cytoplasm of vegetative hyphae and not released into the medium. Our cryo-electron microscopy structure enabled the engineering of non-contractile and fluorescently tagged CIS^Sc assemblies. Cryo-electron tomography showed that CIS^Sc contraction is linked to reduced cellular integrity. Fluorescence light microscopy furthermore revealed that CIS^Sc contraction mediates cell death upon encountering different types of stress. Finally, the absence of functional CIS^Sc had an impact on hyphal differentiation and secondary metabolite production.

Our results provide new functional insights into CISs in Gram-positive organisms and a framework for studying novel intracellular roles, including regulated cell death and life cycle progression in multicellular bacteria.