Molecular modeling of the human hemoglobin-haptoglobin complex sheds light on the protective mechanisms of haptoglobin.
Hemoglobin (Hb) plays a critical role in human physiological function by transporting O2. Hb is safe and inert within the confinement of the red blood cell but becomes reactive and toxic upon hemolysis. Haptoglobin (Hp) is an acute-phase serum protein that scavenges Hb and the resulting Hb-Hp comple...
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2014
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th-mahidol.21012023-04-12T15:24:35Z Molecular modeling of the human hemoglobin-haptoglobin complex sheds light on the protective mechanisms of haptoglobin. Chanin Nantasenamat Virapong Prachayasittikul Leif Bulow Mahidol University. Faculty of Medical Technology Biochemistry simulations Blood chemistry Computational biology Computational chemistry Macromolecular assemblies Macromolecular structure analysis Molecular dynamics Molecular mechanics Protein interactions Protein structure Hemoglobin (Hb) plays a critical role in human physiological function by transporting O2. Hb is safe and inert within the confinement of the red blood cell but becomes reactive and toxic upon hemolysis. Haptoglobin (Hp) is an acute-phase serum protein that scavenges Hb and the resulting Hb-Hp complex is subjected to CD163-mediated endocytosis by macrophages. The interaction between Hb and Hp is extraordinarily strong and largely irreversible. As the structural details of the human Hb-Hp complex are not yet available, this study reports for the first time on insights of the binding modalities and molecular details of the human Hb-Hp interaction by means of protein-protein docking. Furthermore, residues that are pertinent for complex formation were identified by computational alanine scanning mutagenesis. Results revealed that the surface of the binding interface of Hb-Hp is not flat and protrudes into each binding partner. It was also observed that the secondary structures at the Hb-Hp interface are oriented as coils and α-helices. When dissecting the interface in more detail, it is obvious that several tyrosine residues of Hb, particularly β145Tyr, α42Tyr and α140Tyr, are buried in the complex and protected from further oxidative reactions. Such finding opens up new avenues for the design of Hp mimics which may be used as alternative clinical Hb scavengers. 2014-01-07T05:58:20Z 2017-06-20T16:24:50Z 2014-01-07T05:58:20Z 2017-06-20T16:24:50Z 2013-04 Article Plos One. Vol.8, No.4 (2013), 1-11 10.1371/journal.pone.0062996 1932-6203 https://repository.li.mahidol.ac.th/handle/123456789/2101 eng Mahidol University PLoS ONE application/pdf Mahidol University |
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Biochemistry simulations Blood chemistry Computational biology Computational chemistry Macromolecular assemblies Macromolecular structure analysis Molecular dynamics Molecular mechanics Protein interactions Protein structure |
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Biochemistry simulations Blood chemistry Computational biology Computational chemistry Macromolecular assemblies Macromolecular structure analysis Molecular dynamics Molecular mechanics Protein interactions Protein structure Chanin Nantasenamat Virapong Prachayasittikul Leif Bulow Molecular modeling of the human hemoglobin-haptoglobin complex sheds light on the protective mechanisms of haptoglobin. |
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Hemoglobin (Hb) plays a critical role in human physiological function by transporting O2. Hb is safe and inert within the confinement of the red blood cell but becomes reactive and toxic upon hemolysis. Haptoglobin (Hp) is an acute-phase serum protein that scavenges Hb and the resulting Hb-Hp complex is subjected to CD163-mediated endocytosis by macrophages. The interaction between Hb and Hp is extraordinarily strong and largely irreversible. As the structural details of the human Hb-Hp complex are not yet available, this study reports for the first time on insights of the binding modalities and molecular details of the human Hb-Hp interaction by means of protein-protein docking. Furthermore, residues that are pertinent for complex formation were identified by computational alanine scanning mutagenesis. Results revealed that the surface of the binding interface of Hb-Hp is not flat and protrudes into each binding partner. It was also observed that the secondary structures at the Hb-Hp interface are oriented as coils and α-helices. When dissecting the interface in more detail, it is obvious that several tyrosine residues of Hb, particularly β145Tyr, α42Tyr and α140Tyr, are buried in the complex and protected from further oxidative reactions. Such finding opens up new avenues for the design of Hp mimics which may be used as alternative clinical Hb scavengers. |
| author2 |
Mahidol University. Faculty of Medical Technology |
| author_facet |
Mahidol University. Faculty of Medical Technology Chanin Nantasenamat Virapong Prachayasittikul Leif Bulow |
| format |
Article |
| author |
Chanin Nantasenamat Virapong Prachayasittikul Leif Bulow |
| author_sort |
Chanin Nantasenamat |
| title |
Molecular modeling of the human hemoglobin-haptoglobin complex sheds light on the protective mechanisms of haptoglobin. |
| title_short |
Molecular modeling of the human hemoglobin-haptoglobin complex sheds light on the protective mechanisms of haptoglobin. |
| title_full |
Molecular modeling of the human hemoglobin-haptoglobin complex sheds light on the protective mechanisms of haptoglobin. |
| title_fullStr |
Molecular modeling of the human hemoglobin-haptoglobin complex sheds light on the protective mechanisms of haptoglobin. |
| title_full_unstemmed |
Molecular modeling of the human hemoglobin-haptoglobin complex sheds light on the protective mechanisms of haptoglobin. |
| title_sort |
molecular modeling of the human hemoglobin-haptoglobin complex sheds light on the protective mechanisms of haptoglobin. |
| publisher |
Mahidol University |
| publishDate |
2014 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/2101 |
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1781414544834297856 |