2015
DOI: 10.1016/j.molstruc.2015.06.047
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Structural basis for the antipolymer activity of Hbζ2βs2trapped in a tense conformation

Abstract: The phenotypical severity of sickle-cell disease (SCD) can be mitigated by modifying mutant hemoglobin S (Hb S, Hb α2βs2) to contain embryonic ζ-globin in place of adult α-globin subunits (Hb ζ2βs2). Crystallographical analyses of liganded Hb ζζ2βs2, though, demonstrate a tense (T-state) quaternary structure that paradoxically predicts its participation in--rather than its exclusion from--pathological deoxyHb S polymers. We resolved this structure-function conundrum by examining the effects of α→ζ exchange on … Show more

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Cited by 3 publications
(4 citation statements)
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“…It is clear that ligand binding to Hb ζ 2 β 2 s is effected mostly by tertiary structural changes within the larger T-or R state structures, providing insights into the contributions of tertiary and quaternary structures to cooperative Hb-O 2 ligand binding, as well as validating the hypothesis that Hb ligand affinity can be decoupled from overall quaternary structure (Henry et al 2002;Yonetani et al 2002;Yonetani and Tsuneshige 2003;Yonetani and Kanaori 2013). Moreover, the structure explains Hb ζ 2 β 2 s antipolymer activities by favoring an alternate T state structure that is excluded from pathological deoxygenated Hb S polymers (Safo et al 2015).…”
Section: Fully Liganded Hb Structure Trapped In a Tense Conformationmentioning
confidence: 59%
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“…It is clear that ligand binding to Hb ζ 2 β 2 s is effected mostly by tertiary structural changes within the larger T-or R state structures, providing insights into the contributions of tertiary and quaternary structures to cooperative Hb-O 2 ligand binding, as well as validating the hypothesis that Hb ligand affinity can be decoupled from overall quaternary structure (Henry et al 2002;Yonetani et al 2002;Yonetani and Tsuneshige 2003;Yonetani and Kanaori 2013). Moreover, the structure explains Hb ζ 2 β 2 s antipolymer activities by favoring an alternate T state structure that is excluded from pathological deoxygenated Hb S polymers (Safo et al 2015).…”
Section: Fully Liganded Hb Structure Trapped In a Tense Conformationmentioning
confidence: 59%
“…The structure displayed a central water cavity, dimer interface and salt-bridge/hydrogenbond interactions, β-cleft, etc. that are more typical for a tense conformation (Safo et al 2013(Safo et al , 2015. It is clear that ligand binding to Hb ζ 2 β 2 s is effected mostly by tertiary structural changes within the larger T-or R state structures, providing insights into the contributions of tertiary and quaternary structures to cooperative Hb-O 2 ligand binding, as well as validating the hypothesis that Hb ligand affinity can be decoupled from overall quaternary structure (Henry et al 2002;Yonetani et al 2002;Yonetani and Tsuneshige 2003;Yonetani and Kanaori 2013).…”
Section: Fully Liganded Hb Structure Trapped In a Tense Conformationmentioning
confidence: 74%
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“…Targeting sickle hemoglobin for inhibitor design does not only aim to directly inhibit its aggregation into multi-stranded polymers, but also includes approaches that either result in the stabilization of the R conformation of the HbS molecule, or the destabilization of the T conformer [105,106]. Compounds whose antisickling properties are based on this concept include vanillin and pyridyl derivatives of vanillin, 5-hydroxymethylfurfural (5-HMF), and the recently approved voxelotor (GBT 440) [54,99,[106][107][108][109][110].…”
Section: Antisickling Effect and Hbs Conformationmentioning
confidence: 99%