Abstract
Edema factor (EF), a toxin from Bacillus anthracis (anthrax), possesses adenylyl cyclase activity and requires the ubiquitous Ca2+-sensor calmodulin (CaM) for activity. CaM can exist in three major structural states: an apo state with no Ca2+ bound, a two Ca2+ state with its C-terminal domain Ca2+-loaded, and a four Ca2+ state in which the lower Ca2+ affinity N-terminal domain is also ligated. Here, the interaction of EF with the three Ca2+ states of CaM has been examined by NMR spectroscopy and changes in the Ca2+ affinity of CaM in the presence of EF have been determined by flow dialysis. Backbone chemical shift perturbations of CaM show that EF interacts weakly with the N-terminal domain of apoCaM. The C-terminal CaM domain only engages in the interaction upon Ca2+ ligation, rendering the overall interaction much tighter. In the presence of EF, the C-terminal domain binds Ca2+ with higher affinity, but loses binding cooperativity, whereas the N-terminal domain exhibits strongly reduced Ca2+ affinity. As judged by chemical shift differences, the N-terminal CaM domain remains bound to EF upon subsequent Ca2+ ligation. This Ca2+ dependence of the EF-CaM interaction differs from that observed for most other CaM targets, which normally interact only with the Ca2+-bound CaM domains and become active following the transition to the four Ca2+ state.
Highlights
Edema factor (EF), a toxin from Bacillus anthracis proteins “protective antigen” and “lethal factor” it constitutes, possesses adenylyl cyclase activity and requires the ubiquitous Ca2؉-sensor calmodulin (CaM) for activity
By comparing CaM 1H-15N NMR resonance intensities in the presence and absence of EF, our data indicate that EF binds the N-terminal domain of apoCaM in a manner that parallels the interaction observed in the crystal structure of 2Ca2ϩ1⁄7CaM1⁄7EF, i.e. when the Ca2ϩ-bound C-terminal domain is interacting with EF
With the calcium-free C-terminal CaM domain not binding to EF, we speculate it may sterically interfere with optimal N-terminal CaM domain interaction with EF
Summary
Vol 278, No 31, Issue of August 1, pp. 29261–29266, 2003 Printed in U.S.A. Calcium Dependence of the Interaction between Calmodulin and Anthrax Edema Factor*□S. As judged by chemical shift differences, the N-terminal CaM domain remains bound to EF upon subsequent Ca2؉ ligation This Ca2؉ dependence of the EF-CaM interaction differs from that observed for most other CaM targets, which normally interact only with the Ca2؉-bound CaM domains and become active following the transition to the four Ca2؉ state. Both the N- and C-terminal domains of CaM are essential for EF activity; only the Ca2ϩ binding ability of the C-terminal CaM domain is required for EF activity [14]. The present study examines the interaction of EF with the three major Ca2ϩ states of CaM by NMR spectroscopy, with the aim to investigate whether and how the apo- and 4Ca2ϩ-loaded NMR data indicate that CaM retains specific binding affinity for EF at all levels of Ca2ϩ ligation
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