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  • Title: Secretion of GOB metallo-beta-lactamase in Escherichia coli depends strictly on the cooperation between the cytoplasmic DnaK chaperone system and the Sec machinery: completion of folding and Zn(II) ion acquisition occur in the bacterial periplasm.
    Author: Morán-Barrio J, Limansky AS, Viale AM.
    Journal: Antimicrob Agents Chemother; 2009 Jul; 53(7):2908-17. PubMed ID: 19433552.
    Abstract:
    Metallo-beta-lactamases (MbetaLs) are zinc-dependent enzymes produced by many clinically relevant gram-negative pathogens that can hydrolyze most beta-lactam antibiotics. MbetaLs are synthesized in the bacterial cytoplasm as precursors and are secreted into the periplasm. Here, we report that the biogenesis process of the recently characterized MbetaL GOB-18 demands cooperation between a main chaperone system of the bacterial cytoplasm, DnaK, and the Sec secretion machinery. Using the expression of the complete gob-18 gene from the gram-negative opportunistic pathogen Elizabethkingia meningoseptica in Escherichia coli as a model system, we found that the precursor of this metalloenzyme is secreted by the Sec pathway and reduces cell susceptibility to different beta-lactam antibiotics. Moreover, acting with different J proteins such as cytoplasmic DnaJ and membrane-associated DjlA as cochaperones, DnaK plays an essential role in the cytoplasmic transit of the GOB-18 precursor to the Sec translocon. Our studies also revealed a less relevant role, that of assisting in GOB-18 secretion, for trigger factor, while no significant functions were found for other main cytoplasmic chaperones such as SecB or GroEL/ES. The overall findings indicate that the biogenesis of GOB-18 involves cytoplasmic interaction of the precursor protein mainly with DnaK, secretion by the Sec system, and final folding and incorporation of Zn(II) ions into the bacterial periplasm.
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