TY - JOUR N1 - Copyright of this article belongs to Springer. ID - open1687 UR - http://link.springer.com/article/10.1007%2Fs00775-014-1145-2 IS - 6 A1 - Kumar, Sandeep A1 - Sharma, Deepak A1 - Kumar, Rajesh A1 - Kumar, Rajesh Y1 - 2014/08// N2 - The contribution of electrostatic interactions to the stability of ovotransferrin-Fe(3+) (oTf-Fe(3+)) complex has been assessed by equilibrium experiments that measure iron retention level of diferric-ovotransferrin (Fe2oTf) as a function of pH and urea in the presence of salts (NaCl, Na2SO4, NaBr, NaNO3) and sucrose at 25 °C. As [salt] is increased, the pH-midpoint for iron release increases monoexponentially and plateau at ~0.4(±0.05) M NaCl/NaBr/NaNO3 or ~0.15(±0.03) M Na2SO4. However, at pH 7.4, the urea-midpoints for iron release (based on fluorescence emission at 340 nm) and for unfolding of Fe2oTf and apo-ovotransferrin (based on ellipticity values at 222 and 282 nm) decrease at low salt concentrations [?0.1(±0.02) M Na2SO4 or ?0.35(±0.15) M NaCl], but increase at higher salt concentrations. Furthermore, Na2SO4 has a greater effect than NaCl in increasing the urea-midpoints for iron release and unfolding. These results indicate that at low salt concentrations, the electrostatic effects destabilize the oTf-Fe(3+) complex and also decrease the structural stability of the proteins. In contrast, at higher concentrations, salt ions behave according to Hofmeister series. At pH 5.6, as [salt] is increased, the rate constants for reductive iron release (Fe(2+) release) and urea denaturation-induced iron release (Fe(3+) release) from the N-lobe of oTf (FeNoTf) increase monoexponentially and plateau at ~0.4(±0.1) M NaNO3/NaCl or ~0.2(±0.05) M Na2SO4. These results suggest that the anion-binding-induced conformational change as well as the electrostatic screening of surface Coulombic interactions plays important role in accelerating the iron release from FeNoTf under endosomal pH conditions. PB - Springer JF - Journal of biological inorganic chemistry VL - 19 KW - Iron release; Electrostatic interactions; Anion-binding Conformational change; Structural stability SN - 1432-1327 TI - Electrostatic effects control the stability and iron release kinetics of ovotransferrin. SP - 1009 EP - 24 ER -