Abstract
The recent finding of an interaction between calmodulin (CaM) and the tobacco mitogen-activated protein kinase phosphatase-1 (NtMKP1) establishes an important connection between Ca(2+) signaling and the MAPK cascade, two of the most important signaling pathways in plant cells. Here we have used different biophysical techniques, including fluorescence and NMR spectroscopy as well as microcalorimetry, to characterize the binding of soybean CaM isoforms, SCaM-1 and -4, to synthetic peptides derived from the CaM binding domain of NtMKP1. We find that the actual CaM binding region is shorter than what had previously been suggested. Moreover, the peptide binds to the SCaM C-terminal domain even in the absence of free Ca(2+) with the single Trp residue of the NtMKP1 peptides buried in a solvent-inaccessible hydrophobic region. In the presence of Ca(2+), the peptides bind first to the C-terminal lobe of the SCaMs with a nanomolar affinity, and at higher peptide concentrations, a second peptide binds to the N-terminal domain with lower affinity. Thermodynamic analysis demonstrates that the formation of the peptide-bound complex with the Ca(2+)-loaded SCaMs is driven by favorable binding enthalpy due to a combination of hydrophobic and electrostatic interactions. Experiments with CaM proteolytic fragments showed that the two domains bind the peptide in an independent manner. To our knowledge, this is the first report providing direct evidence for sequential binding of two identical peptides of a target protein to CaM. Discussion of the potential biological role of this interaction motif is also provided.
Highlights
MARCH 2, 2007 VOLUME 282 NUMBER 9 cellular fluid is in the high micromolar to millimolar range
The CaM-binding domain was identified as a 52-amino acid sequence between the conserved gelsolin and Serrich domain in the middle of the NtMKP1 protein (Fig. 1), and Trp440 and Leu443 were identified as residues that are indispensable for the interaction with CaM [26]
We have studied the interactions of the most conserved and the most divergent CaM isoforms from soybean, SCaM-1 and SCaM-4, respectively, as well as mCaM, with peptides derived from the CaM-binding domain of NtMKP1
Summary
CaM, calmodulin; MAPK, mitogen-activated protein kinase; SCaM, soybean calmodulin; CaMBD, CaM binding domain; mCaM, mammalian calmodulin; mTR1C, proteolytic fragment 1–77 of mCaM; mTR2C, proteolytic fragment 78 –148 of mCaM; S1N, proteolytic fragment 1–75 of SCaM-1; S1C, proteolytic fragments 76 –148 and –148 of SCaM-1; S4C, proteolytic fragments 77–149 and –149 of SCaM-4; ITC, isothermal titration calorimetry; HSQC, heteronuclear single quantum coherence. Several studies have demonstrated that the different isoforms have dissimilar stimulatory effects on some mammalian target enzymes and different expression patterns in various plant tissue types, suggesting that they play unique roles in the many different Ca2ϩ signaling pathways of plants [23, 24] Another important signal transduction pathway in animals, yeasts, and plants is the mitogen-activated protein kinase cascade (MAPK cascade). Ohashi and co-workers [26] identified a putative MAPK phosphatase in Nicotiana tabacum (NtMKP1) as a novel plant-specific CaM-binding protein This result provides the first direct evidence for a molecular interaction between Ca2ϩCaM and a component of the MAPK signaling cascade in plants or any other species. This is the first reported evidence for sequential binding of two identical target peptides to CaM
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