Slow transitions between two conformational states of band 3 (AE1) modulate divalent anion transport and DBDS binding to a second site on band 3 which is activated by lowering the pH (pK approximately 5.0).

The Veterans Administration Medical Center and Departments of Internal Medicine and Biochemistry and Molecular Biology, University of Nebraska Medical Center, 984510 Nebraska Medical Center, Omaha, NE 68198-4510, USA. jsalhan@attglobal.net

Blood cells, molecules & diseases 2004 May-Jun

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Evidence is emerging which indicates that the anion transport activity of band 3 may be regulated. I review the molecular basis for regulation of the anion transport function of band 3 in terms of evidence showing that divalent anion transport involves a slow "hysteretic" transition between two functional states, mediated by interactions between subunits within band 3 oligomers. In addition, I briefly describe recent work from my laboratory where we have discovered a novel manifestation of slow conformational changes in band 3. This involves 4,4'-dibenzamido-2,2'-stilbenedisulfonate (DBDS) binding to a second, proton-activated site distinct from the primary stilbenedisulfonate site. This site is exposed on the outer aspect of band 3 when the pH is lowered (pK approximately 5.0). This is the same pK as the protonation site on band 3 involved in divalent anion-proton co-transport (APCT) [J. Gen. Physiol. 79 (1982) 87]. Significantly, we have found that DBDS binding to this proton-activated site has unusually slow kinetics, and increasing DBDS concentration causes a decrease in the apparent pseudo-first-order rate constant. These results suggest that a slow conformational pre-equilibrium is the rate limiting step in DBDS binding to the proton-activated site on band 3 observed at low pH. Our results support an allosteric two-state model for regulation of divalent anion transport by band 3 oligomers involving a slow conformational transition and interactions between subunits [Biochemistry 31 (1992) 7301].

Citation

James M Salhany. Slow transitions between two conformational states of band 3 (AE1) modulate divalent anion transport and DBDS binding to a second site on band 3 which is activated by lowering the pH (pK approximately 5.0). Blood cells, molecules & diseases. 2004 May-Jun;32(3):372-8