Binding Properties of the Calcium-Activated F2 Isoform of Lethocerus Troponin C

[Image: see text] While in most muscles contraction is triggered by calcium effluxes, insect flight muscles are also activated by mechanical stretch. We are interested in understanding the role that the troponin C protein, usually the calcium sensor, plays in stretch activation. In the flight muscles of Lethocerus, a giant water bug often used as a model system, there are two isoforms of TnC, F1 and F2, present in an approximately 10:1 ratio. F1 TnC is responsible for activating the muscle following a stretch, whereas F2 TnC produces a sustained contraction, the magnitude of which depends on the concentration of Ca(2+) in the fiber. We have previously shown that F1 TnC binds only one Ca(2+) ion in its C-terminal domain and that interaction with troponin H, the insect ortholog of troponin I, is insensitive to Ca(2+). Here, we have studied the effect of Ca(2+) and Mg(2+) on the affinities of the interaction of F2 TnC with troponin H peptides. We show that the presence of two Ca(2+) ions, one in each of the globular domains, increases the affinity for TnH by at least 1 order of magnitude. The N lobe has a lower affinity for Ca(2+), but it is also sensitive to Mg(2+). The C lobe is insensitive to Mg(2+) as previously demonstrated by mutations of the individual EF-hands. The interaction with TnH seems also to have significant structural differences from that observed for the F1 TnC isoform. We discuss how our findings could account for stretch activation.