Selectivity of Spermine Homologs on Triplex DNA Stabilization

Abstract

We synthesized seven homologs of spermine (H₂N(CH₂)₃NH(CH₂)_nNH(CH₂)₃NH₂, where n = 2-9; n = 4 for spermine) and studied their effects on melting temperature (T_m), conformation, and precipitation of poly(dA).2poly(dT). The triplex DNA melting temperature, T_m1 was 34.4°C in the presence of 150 mM KCI. Addition of spermine homologs increased T_m1 in a concentration-dependent and structure-dependent manner, with 3-6-3 (n = 6) exerting optimal stabilization. The dT_m1/dlog[polyamine] values were 9-24 for these compounds. The duplex melting temperature, T_m2 was insensitive to homolog concentration and structure, suggesting their ability to stabilize triplex DNA without altering the stability of the underlying duplex. Circular dichroism spectral studies revealed ψ-DNA formation in a concentration-dependent and structure-dependent manner. Phase diagrams were constructed showing the critical ionic/polyamine concentrations stabilizing different structures. These compounds also exerted structural specificity effects on precipitating triplex DNA. These data provide new insights into the ionic/structural determinants affecting triplex DNA stability and indicate that 3-6-3 is an excellent ligand to stabilize poly(dA).2poly(dT) triplex DNA under physiologic ionic conditions for antigene therapeutics.