Abstract
Recent recurrent outbreaks of Gram-negative bacteria show the critical need to target essential bacterial mechanisms to fight the increase of antibiotic resistance. Pathogenic Gram-negative bacteria have developed several strategies to protect themselves against the host immune response and antibiotics. One such strategy is to remodel the outer membrane where several genes are involved. yejM was discovered as an essential gene in E. coli and S. typhimurium that plays a critical role in their virulence by changing the outer membrane permeability. How the inner membrane protein YejM with its periplasmic domain changes membrane properties remains unknown. Despite overwhelming structural similarity between the periplasmic domains of two YejM homologues with hydrolases like arylsulfatases, no enzymatic activity has been previously reported for YejM. Our studies reveal an intact active site with bound metal ions in the structure of YejM periplasmic domain. Furthermore, we show that YejM has a phosphatase activity that is dependent on the presence of magnesium ions and is linked to its function of regulating outer membrane properties. Understanding the molecular mechanism by which YejM is involved in outer membrane remodeling will help to identify a new drug target in the fight against the increased antibiotic resistance.
Highlights
Recent recurrent outbreaks of Gram-negative bacteria show the critical need to target essential bacterial mechanisms to fight the increase of antibiotic resistance
We found that E. coli uses only type 1 and S. typhimurium only type 2 sequences, and other homologues used many combinations of various type of sequences (Supplemental Fig. 1), which further increases the accommodation of substrate and metal use in a variety of enzymatic functions
We have unveiled a new functional identity of the essential inner membrane protein YejM that is associated with changing the outer membrane (OM) during host infection
Summary
Recent recurrent outbreaks of Gram-negative bacteria show the critical need to target essential bacterial mechanisms to fight the increase of antibiotic resistance. Targeting specific mechanisms of antibiotic resistance is especially critical for Gramnegative bacteria such as Escherichia coli (E. coli) and Salmonella typhimurium (S. typhimurium) because of the recurrent outbreaks affecting s ociety[2,3,4] Pathogenic bacteria such as E. coli and S. typhimurium have developed several strategies to protect themselves against the host immune response and antibiotics. This is facilitated by various inner membrane enzymes such as phosphoethanolamine (PEA) transferases, namely EptA and mobilized colistin resistance (MCR) family of proteins belonging to the alkaline phosphatase s uperfamily[12,13,14]. The YejMPD is essential for the virulence of S. typhimurium; strains lacking YejMPD show no increase of cardiolipin in the OM, have increased permeability
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