2006
DOI: 10.1021/bi0604734
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Inhibition of Hemoglobin S Polymerization in Vitro by a Novel 15-mer EF-Helix β73 Histidine-Containing Peptide

Abstract: Our mutational studies on HbS showed that the HbS β73His variant (β6Val and β73His) promoted polymerization, while HbS β73Leu (β6Val and β73Leu) inhibited polymerization. Based on these results, we speculated that EF-helix peptides containing β73His interact with β4Thr in HbS and compete with HbS, resulting in inhibition of HbS polymerization. We, therefore, studied inhibitory effects of 15-, 11-, 7-and 3-mer EF-helix peptides containing β73His on HbS polymerization. The delay time prior to HbS polymerization … Show more

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Cited by 9 publications
(5 citation statements)
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“…An understanding of the initiation of polymerization, including the process of multifiber formation in a single domain containing double- or 14-stranded fibers of HbS or its variants, based on protein−protein interactions of HbS polymers is critical to gaining a full understanding of polymer formation in SCD and in designing structure-based anti-HbS polymerization hemoglobins and peptides , . This knowledge also may improve our understanding of diseases in which protein fibers are formed (e.g., cataracts, Alzheimer’s, Huntington’s, and prion diseases) , .…”
mentioning
confidence: 99%
“…An understanding of the initiation of polymerization, including the process of multifiber formation in a single domain containing double- or 14-stranded fibers of HbS or its variants, based on protein−protein interactions of HbS polymers is critical to gaining a full understanding of polymer formation in SCD and in designing structure-based anti-HbS polymerization hemoglobins and peptides , . This knowledge also may improve our understanding of diseases in which protein fibers are formed (e.g., cataracts, Alzheimer’s, Huntington’s, and prion diseases) , .…”
mentioning
confidence: 99%
“…Such knowledge will lead to a better understanding of deoxy-HbS fiber formation with domains and oxy-HbC crystal formation in vivo , which may aid in the design of structure-based anti-HbS polymerization molecules, including hemoglobin variants and peptides based on protein-protein interactions of HbS polymers [30, 31]. …”
Section: Discussionmentioning
confidence: 99%
“…The β73His 15-mer peptide is believed to interact with β4Thr and thus disrupt the hydrogen bonding between β4Thr and β'73Asp, and also hydrophobic interactions involving β6Val due to its spatial proximity. However, it should be mentioned that a peptide/HbS ratio of 3:1 was needed to obtain a noteworthy delay in HbS polymerization [131]. While it is likely that different hemoglobin binding sites were employed by these peptides, they represent about 70% improvement in potency over the peptides studied in earlier works [121,122,127].…”
Section: Peptide Length and Hbs Polymerization Inhibitionmentioning
confidence: 94%
“…Akbar et al studied the effects of 15-, 11-, 7-, and 3-mer peptides derived from one of the helices of the β-globin chain of hemoglobin. In the case of the 15-mer peptide, the sequence comprised the β-globin residues 65−79 with sequence KKVLGAFS[H/L]GLAHLD, where, at position 73, the β73His and β73Leu mutations were included instead of the native β73Asp, as, in HbS, these mutations were previously observed to inhibit HbS aggregation [131]. The shorter peptides with 3, 7, and 11 residues failed to inhibit polymerization, suggesting the importance of secondary structure and multiple contact points for the observed inhibitory activity.…”
Section: Peptide Length and Hbs Polymerization Inhibitionmentioning
confidence: 99%