Abstract
Phosphosignaling in bacteria is mediated by two distinct systems, the two-component systems (TCSs) and the protein Ser/Thr/Tyr, or O-phosphorylation systems. These two arms of phosphosignaling are currently thought to be largely independent from one another. We mined a deep Mycobacterium tuberculosis (Mtb) phosphoproteome and identified over 170 O-phosphorylation sites on histidine kinases and response regulators of TCSs, suggesting that the two signaling pathways extensively intersect. Several TCSs were phosphorylated on multiple sites, and many by multiple Ser/Thr protein kinases, suggesting convergent and cooperative regulatory interactions. To test in which way these O-phosphorylation sites affect TCS activity, we reconstituted the NarSL phosphorelay in vitro. The Ser/Thr protein kinase PknL phosphorylated the histidine kinase NarS and activated its autophosphorylating activity. A phosphoablative mutation at the PknL phosphorylation site Thr380 resulted in low autophosphorylating activity, whereas a phosphomimetic mutation strongly activated autophosphorylation. The phosphomimetic mutation also resulted in more efficient phosphotransfer from NarS to the response regulator NarL and suppression of gene expression. These data show control of NarSL signaling by STPKs through a phosphoswitch and point to extensive, functional crosstalk between TCSs and O-phosphorylation.