The conserved transcriptional regulator CdnL is required for metabolic homeostasis and morphogenesis in Caulobacter

• Bacterial growth and division require regulated synthesis of the macromolecules used to expand and replicate components of the cell. Transcription of housekeeping genes required for metabolic homeostasis and cell proliferation is guided by the sigma factor sigma(70). The conserved CarD-like transcriptional regulator, CdnL, associates with promoter regions where sigma(70) localizes and stabilizes the open promoter complex. However, the contributions of CdnL to metabolic homeostasis and bacterial physiology are not well understood. Here, we show that Caulobacter crescentus cells lacking CdnL have severe morphological and growth defects. Specifically, Delta cdnL cells grow slowly in both rich and defined media, and are wider, more curved, and have shorter stalks than WT cells. These defects arise from transcriptional downregulation of most major classes of biosynthetic genes, leading to significant decreases in the levels of critical metabolites, including pyruvate, alpha-ketoglutarate, ATP, NAD(+), UDP-N-acetyl-glucosamine, lipid II, and purine and pyrimidine precursors. Notably, we find that Delta cdnL cells are glutamate auxotrophs, and Delta cdnL is synthetic lethal with other genetic perturbations that limit glutamate synthesis and lipid II production. Our findings implicate CdnL as a direct and indirect regulator of genes required for metabolic homeostasis that impacts morphogenesis through availability of lipid II and other metabolites. Author summary To grow and divide, bacteria must accumulate precursor molecules to support duplication and expansion of cellular materials. One mechanism by which bacteria do this is by regulating the expression of genes whose products are important for production of these molecules. How gene expression is maintained or altered to support synthesis of appropriate molecules to balance growth with nutrient availability is not fully understood. In this paper, we describe the role of a regulator of gene expression called CdnL in maintaining levels of molecules required for bacterial growth and reproduction. CdnL broadly impacts the levels of genes required for most biosynthetic processes. CdnL's broad impact on transcription has downstream consequences on growth rate, cell shape, and nutrient requirements for growth. We report that CdnL is particularly important for maintaining levels of the amino acid glutamate and the cell wall precursor lipid II, each of which is critical for supporting proper growth and cell morphology. Our results implicate CdnL as a broadly conserved regulator of metabolic homeostasis, growth, and cell shape in bacteria.

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NATURVETENSKAP  -- Biologi -- Mikrobiologi (hsv//swe)

NATURAL SCIENCES  -- Biological Sciences -- Microbiology (hsv//eng)

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