Cinnamoyl lipids as novel signaling molecules modulate the physiological metabolism of cross-phylum microorganisms

Abstract

Signaling systems of microorganisms are responsible for regulating the physiological and metabolic processes and also play vital roles in the communications of cells. Identifying signaling molecules mediating the cross-talks is challenging yet highly desirable for comprehending the microbial interactions. Here, we demonstrate that a pathogenic Gram-negative Chromobacterium violaceum exerts significant influence on the morphological differentiation and secondary metabolism of Gram-positive Streptomyces. The physiological metabolisms are directly modulated by three novel cinnamoyl lipids (CVCL1, 2, and 3) from C. violaceum CV12472, whose biosynthesis is under the control of N-acylhomoserine lactone signaling system. Furthermore, a receptor of CVCLs in Streptomyces ansochromogenes 7100 is determined to be SabR1, the cognate receptor of γ-butenolide signaling molecules. This study reveals an unprecedented mode of microbial interactions, and the quorum sensing signaling systems in these two groups of bacteria can be bridged via CVCLs, suggesting that CVCLs can modulate the physiological metabolism of cross-phylum microorganisms.