Elucidation of spermidine interaction with nucleotide ATP by multiple NMR techniques.

Interaction of polyamines with nucleotides plays a key role in many biological processes. Here we use multiple NMR techniques to characterize interaction of spermidine with adenosine 5'-triphosphate (ATP). Two-dimensional (1)H-(15)N spectra obtained from gs-HMBC experiments at varied pH show significant shift of N-1 peak around pH 2.0-7.0 range, suggesting that spermidine binds to N-1 site of ATP base. The binding facilitates N-1 deprotonation, shifting its pK(a) from 4.3 to 3.4. By correlating (15)N and (31)P chemical shift data, it is clear that spermidine is capable of concurrently binding to ATP base and phosphate sites around pH 4.0-7.0. The self-diffusion constants derived from (1)H PFG-diffusion measurements provide evidence that binding of spermidine to ATP is in 1:1 ratio, and pH variations do not induce significant nucleotide self-association in our samples. (31)P spectral analysis suggests that at neutral pH, Mg(2+) ion competes with spermidine and shows stronger binding to ATP phosphates. From (31)P kinetic measurements of myosin-catalyzed ATP hydrolysis, it is found that binding of spermidine affects the stability and reactivity of ATP. These NMR results are important for advancing the studies on nucleotide-polyamine interaction and its impact on nucleotide structures and activities under varied conditions. Copyright 2009 John Wiley & Sons, Ltd.