Abstract
DNA gyrase is an essential bacterial enzyme required for the maintenance of chromosomal DNA topology. This enzyme is the target of several protein toxins encoded in toxin-antitoxin (TA) loci as well as of man-made antibiotics such as quinolones. The genome of Vibrio cholerae, the cause of cholera, contains three putative TA loci that exhibit modest similarity to the RK2 plasmid-borne parDE TA locus, which is thought to target gyrase although its mechanism of action is uncharacterized. Here we investigated the V. cholerae parDE2 locus. We found that this locus encodes a functional proteic TA pair that is active in Escherichia coli as well as V. cholerae. ParD2 co-purified with ParE2 and interacted with it directly. Unlike many other antitoxins, ParD2 could prevent but not reverse ParE2 toxicity. ParE2, like the unrelated F-encoded toxin CcdB and quinolones, targeted the GyrA subunit and stalled the DNA-gyrase cleavage complex. However, in contrast to other gyrase poisons, ParE2 toxicity required ATP, and it interfered with gyrase-dependent DNA supercoiling but not DNA relaxation. ParE2 did not bind GyrA fragments bound by CcdB and quinolones, and a set of strains resistant to a variety of known gyrase inhibitors all exhibited sensitivity to ParE2. Together, our findings suggest that ParE2 and presumably its many plasmid- and chromosome-encoded homologues inhibit gyrase in a different manner than previously described agents.
Highlights
Toxin-antitoxin (TA)3 loci encode a toxic protein and an antitoxin, either RNA or protein, that can neutralize the toxin activity
ParE2 and ParD2 Interact—Protein antitoxins typically neutralize their cognate toxins by binding to them and inhibiting their ability to interact with their respective cellular targets (30 –33), We investigated whether ParD2 interacts with ParE2 in vivo by testing whether epitope-tagged versions of these proteins would co-purify from E. coli BL21 co-expressing ParE2-Myc and His-ParD2 (JY307)
Our findings revealed that the parDE2 locus found in the superintegron of V. cholerae chromosome II encodes a functional proteic TA pair
Summary
Toxin-antitoxin (TA)3 loci encode a toxic protein (the toxin) and an antitoxin, either RNA or protein, that can neutralize the toxin activity. These data suggest that parE2 encodes a toxin whose target is conserved between V. cholerae and E. coli and whose activity can be neutralized by ParD2. ParE2 and ParD2 Interact—Protein antitoxins typically neutralize their cognate toxins by binding to them and inhibiting their ability to interact with their respective cellular targets (30 –33), We investigated whether ParD2 interacts with ParE2 in vivo by testing whether epitope-tagged versions of these proteins would co-purify from E. coli BL21 co-expressing ParE2-Myc and His-ParD2 (JY307).
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
