Hb Monza: A novel extensive HBB duplication with preserved α-β subunit interaction and unstable hemoglobin phenotype.

IF 12.8 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Med Pub Date : 2024-12-14 DOI:10.1016/j.medj.2024.11.007
Ivan Civettini, Arianna Zappaterra, Paola Corti, Amedeo Messina, Andrea Aroldi, Andrea Biondi, Fabrizio Cavalca, Valentina Crippa, Francesca Crosti, Giulia Maria Ferrari, Federica Malighetti, Luca Mologni, Alberto Piperno, Daniele Ramazzotti, Chiara Scollo, Alfonso Zambon, Fabio Rossi, Carlo Gambacorti-Passerini
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引用次数: 0

Abstract

Background: Unstable hemoglobins are caused by single amino acid substitutions in the HBB gene, often affecting key histidine residues, leading to protein destabilization and hemolytic crises. In contrast, long HBB variants, exceeding 20 bp, are rare and associated with a β-thalassemia phenotype due to disrupted α-β chain interactions. We describe a family wherein four of six members carry a novel 23-amino-acid in-frame duplication of HBB (c.176_244dup), named hemoglobin (Hb) Monza. Despite its length, this duplication manifests as an unstable hemoglobin variant rather than a β-thalassemia phenotype.

Methods: A static 3D model of the Hb Monza β chain was generated using AlphaFold and SWISS-MODEL. Molecular dynamics (MD) simulations were performed with the Generalized Born implicit solvent model. After energy minimization and heating to 311 K (38°C), a 40 ns production run was conducted.

Findings: 3D modeling of Hb Monza revealed minimal structural changes in the Hb β chain, particularly in the key histidine residues and their interaction with the iron atom. Additionally, the static 3D model showed a preserved α-β interaction, explaining the absence of a β-thalassemia clinical phenotype. MD simulations under thermal stress revealed a notable increase in root-mean-square deviation compared to the wild-type β subunit, along with a loss of contacts with the heme, explaining the hemolytic crises during febrile episodes.

Conclusion: Despite the long duplication in HBB, Hb Monza retains functional α-β interaction while demonstrating instability under stressful conditions. This unique variant presents with an unstable Hb phenotype rather than a β-thalassemia phenotype.

Funding: No financial funding was received.

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Med
Med MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
17.70
自引率
0.60%
发文量
102
期刊介绍: Med is a flagship medical journal published monthly by Cell Press, the global publisher of trusted and authoritative science journals including Cell, Cancer Cell, and Cell Reports Medicine. Our mission is to advance clinical research and practice by providing a communication forum for the publication of clinical trial results, innovative observations from longitudinal cohorts, and pioneering discoveries about disease mechanisms. The journal also encourages thought-leadership discussions among biomedical researchers, physicians, and other health scientists and stakeholders. Our goal is to improve health worldwide sustainably and ethically. Med publishes rigorously vetted original research and cutting-edge review and perspective articles on critical health issues globally and regionally. Our research section covers clinical case reports, first-in-human studies, large-scale clinical trials, population-based studies, as well as translational research work with the potential to change the course of medical research and improve clinical practice.
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