RECEPTOR-INDUCED SWITCH IN SITE-SITE COOPERATIVITY DURING IRON RELEASE BY TRANSFERRIN

Iron removal by PP(i) from the N- and C-terminal binding sites of both free and receptor-complexed transferrin, when the partner site remains occupied with kinetically inert Co(III), has been studied at pH 7.4 and 5.6, at 25-degrees-C. At extracellular pH, 7.4, the C-terminal site of free mixed-metal proteins is slightly more labile than its N-terminal counterpart in releasing iron to 0.05 M PP(i). The rate and extent of iron removal are retarded from both sites when transferrins are receptor-bound. At endosomal pH, 5.6, the two sites exhibit greater kinetic heterogeneity in iron release to 0.005 M PP(i). The N-terminal site is 6 times more facile in relinquishing iron than the C-terminal site when mixed-metal transferrins are free. However, the two sites are affected oppositely upon binding to the receptor. Iron release from the C-terminal site of receptor-complexed Co(N)-transferrin-Fe(C) is 4 times faster than that from receptor-free protein. In contrast, iron removal from the N-terminal site of receptor-complexed Fe(N)-transferrin-Co(C) is slowed by a factor of 2 compared to that from free protein. These results help explain our previous observation of a receptor-induced switch in site lability during iron removal from diferric transferrin at pH 5.6 (Bali & Aisen, 1991). Site-site cooperative interactions between the two sites of doubly-occupied transferrin during iron release are altered upon binding to receptor at pH 5.6. Iron in the otherwise weaker binding site of the N-terminal lobe is stabilized, while iron in the relatively stable binding site of the C-terminal lobe is labilized.