Abstract
K. pneumoniae is the predominant pathogen isolated from liver abscesses of diabetic patients in Asian countries. Although elevated blood glucose levels cause various immune problems, its effects on K. pneumoniae virulence are unknown. This study investigated the regulation of capsular polysaccharide (CPS) biosynthesis, a major determinant for K. pneumoniae virulence, in response to exogenous glucose. We found that K. pneumoniae produce more CPS in glucose-rich medium via reduction in cyclic AMP (cAMP) levels. Individual deletion of cyaA or crp, which respectively encode adenylate cyclase and cAMP receptor protein in K. pneumoniae, markedly increased CPS production, while deletion of cpdA, which encodes cAMP phosphodiesterase, decreased CPS production. These results indicate that K. pneumoniae CPS biosynthesis is controlled by the cAMP-dependent carbon catabolite repression (CCR). To investigate the underlying mechanism, quantitative real-time PCR and promoter-reporter assays were used to verify that the transcription of CPS biosynthesis genes, which are organized into 3 transcription units (orf1-2, orf3-15, and orf16-17), were activated by the deletion of crp. Sequence analysis revealed putative CRP binding sites located on Porf3-15 and Porf16-17, suggesting direct CRP-cAMP regulation on the promoters. These results were then confirmed by electrophoretic mobility shift assay. In addition, we found putative CRP binding sites located in the promoter region of rcsA, which encodes a cps transcriptional activator, demonstrating a direct repression of CRP-cAMP and PrcsA. The deletion of rcsA in mutation of crp partially reduced CPS biosynthesis and the transcription of orf1-2 but not of orf3-15 or orf16-17. These results suggest that RcsA participates in the CRP-cAMP regulation of orf1-2 transcription and influences CPS biosynthesis. Finally, the effect of glucose and CCR proteins on CPS biosynthesis also reflects bacterial resistance to serum killing. We here provide evidence that K. pneumoniae increases CPS biosynthesis for successful infection in response to exogenous glucose via cAMP-dependent CCR.
Highlights
Klebsiella pneumoniae is a Gram-negative pathogen which causes suppurative lesions, bacteremia, and urinary as well as respiratory tract infections mostly in patients with underlying diseases [1]
carbon catabolite repression (CCR) Proteins Affect capsular polysaccharide (CPS) Biosynthesis To confirm that K. pneumoniae CPS biosynthesis is regulated by cyclic AMP (cAMP), individual strains with deletion of cyaA and cpdA, which respectively encodes adenylate cyclase and cAMP phosphodiesterase from CG43S3, were constructed, and the effects of the deletions on CPS production were analysed
This result indicates that the cAMP receptor protein (CRP)-cAMP signalling pathway is involved in the regulation of CPS biosynthesis, and that CRP acts as a negative regulator of CPS biosynthesis
Summary
Klebsiella pneumoniae is a Gram-negative pathogen which causes suppurative lesions, bacteremia, and urinary as well as respiratory tract infections mostly in patients with underlying diseases [1]. In Asian countries, especially in Taiwan and Korea, K. pneumoniae is the predominant pathogen responsible for pyogenic liver abscess in diabetic patients [2,3,4]. Reports of Klebsiella liver abscess (KLA) in western countries have been accumulating [5]. Pyogenic liver abscess isolates often carry heavy CPS loads that could protect the bacteria from phagocytosis and killing by serum factors [6,7]. The capsular serotypes of K. pneumoniae have been classified into more than 77 known types [8,9]. In Taiwan, a high prevalence of the K1 and K2 serotypes of K. pneumoniae was documented in liver abscess of diabetes mellitus patients [10]. The exact mechanism of the tight association between K. pneumoniae, liver abscess, and diabetes mellitus remains unclear
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