Journal
CANADIAN JOURNAL OF MICROBIOLOGY
Volume 67, Issue 4, Pages 323-331Publisher
CANADIAN SCIENCE PUBLISHING
DOI: 10.1139/cjm-2020-0434
Keywords
glutamine synthetase; biofilm; K-m; glnA; methicillin-resistant; Staphylococcus aureus
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The spread of Staphylococcus aureus infections through biofilms is a major concern in hospital-acquired infections, with biofilm formation facilitated by glutamine biosynthesis playing a crucial role. Research has shown that multidrug-resistant strains of S. aureus exhibit higher biofilm units and glutamine synthetase activity.
The enormous spread of Staphylococcus aureus infections through biofilms is a major concern in hospital-acquired infections. Biofilm formation by S. aureus on any surface is facilitated by adjusting its redox status. This organism is a facultative anaerobe shift more towards reductive conditions by enhancing nitrogen metabolism where glutamine synthesis plays a key role. Glutamine is synthesized by glutamine synthetase (GS) encoded by the glnA gene. The gene was amplified by PCR from the chromosomal DNA of S. aureus, sequenced (HQ329146.1), and cloned. The pure recombinant GS exhibited Km of 11.06 +/- 0.05 mmol.L-1 for glutamate and 2.4 +/- 0.03 mmol.L-1 for ATP. The glnA gene sequence showed a high degree of variability with its human counterpart, while it was highly conserved in bacteria. Structural analysis revealed that the GS structure of S. aureus showed close homology with other Gram-positive bacteria and exhibited a high degree of variation with Escherichia coli GS. In the present study, we observed the increased presence of GS activity in multidrug-resistant strains of S. aureus with elevated biofilm units, grown in brain heart infusion broth; among them methicillin-resistant strains S. aureus LMV 3, 4, and 5 showed higher biofilm units. All these results explain the important role of glutamine biosynthesis with elevated biofilm units in the pathogenesis of S. aureus.
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