Monodisperse 130 kDa and 260 kDa Recombinant Human Hemoglobin Polymers as Scaffolds for Protein Engineering of Hemoglobin-Based Oxygen Carriers

Monodisperse 130 kDa and 260 kDa Recombinant Human Hemoglobin Polymers as Scaffolds for Protein Engineering of Hemoglobin-Based Oxygen Carriers

A recombinant 130 kDa dihemoglobin which is made up of a single-chain tetra-α globin and four β globins has been expressed as a soluble protein in E. coli. The sequence of the single chain tetra-α is: αI-Gly-αII-(SerGlyGly)5Ser-αIII-Gly-αIV. This dihemoglobin has been purified and characterized in v...

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Main Authors: Jacqueline F. Aitken, Spencer J. Anthony-Cahill, Douglas D. Lemon, Michael P. Doyle, David A. Marquardt, Jeffrey S. Davidson, Janet K. Epp
Format: Article
Language:English
Published: MDPI AG 2012-01-01
Series:Journal of Functional Biomaterials
Subjects:
polyhemoglobin
dihemoglobin
tetrahemoglobin
hemoglobin engineering
extravasation
pressor response
Online Access:http://www.mdpi.com/2079-4983/3/1/61/
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spelling doaj-b6b0f95ce22843058a5eaa16856d72712020-11-24T23:35:32ZengMDPI AGJournal of Functional Biomaterials2079-49832012-01-0131617810.3390/jfb3010061Monodisperse 130 kDa and 260 kDa Recombinant Human Hemoglobin Polymers as Scaffolds for Protein Engineering of Hemoglobin-Based Oxygen CarriersJacqueline F. AitkenSpencer J. Anthony-CahillDouglas D. LemonMichael P. DoyleDavid A. MarquardtJeffrey S. DavidsonJanet K. EppA recombinant 130 kDa dihemoglobin which is made up of a single-chain tetra-α globin and four β globins has been expressed as a soluble protein in E. coli. The sequence of the single chain tetra-α is: αI-Gly-αII-(SerGlyGly)5Ser-αIII-Gly-αIV. This dihemoglobin has been purified and characterized in vitro by size exclusion chromatography, electrospray mass spectroscopy, equilibrium oxygen binding, and analytical ultracentrifugation. The observed values of P50 and nmax for the dihemoglobin are slightly lower than those observed for the recombinant hemoglobin rHb1.1 (a “monohemoglobin” comprised of two β globins and an αI-Gly-αII diα-globin chain). Titration of the deoxy form of dihemoglobin with CO shows that all eight heme centers bind ligand. In vivo, dihemoglobin showed increased circulating halflife and a reduced pressor response in conscious rats when compared to rHb1.1. These observations suggest that dihemoglobin is an oxygen carrying molecule with desirable in vivo properties and provides a platform for an isooncotic hemoglobin solution derived solely from a recombinant source. A 260 kDa tetrahemoglobin has also been produced by chemical crosslinking of a dihemoglobin that contains a Lys16Cys mutation in the C-terminal α-globin subunit. Tetrahemoglobin also shows reduced vasoactivity in conscious rats that is comparable to that observed for dihemoglobin.http://www.mdpi.com/2079-4983/3/1/61/polyhemoglobindihemoglobintetrahemoglobinhemoglobin engineeringextravasationpressor response
collection DOAJ
language English
format Article
sources DOAJ
author Jacqueline F. Aitken
Spencer J. Anthony-Cahill
Douglas D. Lemon
Michael P. Doyle
David A. Marquardt
Jeffrey S. Davidson
Janet K. Epp
spellingShingle Jacqueline F. Aitken
Spencer J. Anthony-Cahill
Douglas D. Lemon
Michael P. Doyle
David A. Marquardt
Jeffrey S. Davidson
Janet K. Epp
Monodisperse 130 kDa and 260 kDa Recombinant Human Hemoglobin Polymers as Scaffolds for Protein Engineering of Hemoglobin-Based Oxygen Carriers
Journal of Functional Biomaterials
polyhemoglobin
dihemoglobin
tetrahemoglobin
hemoglobin engineering
extravasation
pressor response
author_facet Jacqueline F. Aitken
Spencer J. Anthony-Cahill
Douglas D. Lemon
Michael P. Doyle
David A. Marquardt
Jeffrey S. Davidson
Janet K. Epp
author_sort Jacqueline F. Aitken
title Monodisperse 130 kDa and 260 kDa Recombinant Human Hemoglobin Polymers as Scaffolds for Protein Engineering of Hemoglobin-Based Oxygen Carriers
title_short Monodisperse 130 kDa and 260 kDa Recombinant Human Hemoglobin Polymers as Scaffolds for Protein Engineering of Hemoglobin-Based Oxygen Carriers
title_full Monodisperse 130 kDa and 260 kDa Recombinant Human Hemoglobin Polymers as Scaffolds for Protein Engineering of Hemoglobin-Based Oxygen Carriers
title_fullStr Monodisperse 130 kDa and 260 kDa Recombinant Human Hemoglobin Polymers as Scaffolds for Protein Engineering of Hemoglobin-Based Oxygen Carriers
title_full_unstemmed Monodisperse 130 kDa and 260 kDa Recombinant Human Hemoglobin Polymers as Scaffolds for Protein Engineering of Hemoglobin-Based Oxygen Carriers
title_sort monodisperse 130 kda and 260 kda recombinant human hemoglobin polymers as scaffolds for protein engineering of hemoglobin-based oxygen carriers
publisher MDPI AG
series Journal of Functional Biomaterials
issn 2079-4983
publishDate 2012-01-01
description A recombinant 130 kDa dihemoglobin which is made up of a single-chain tetra-α globin and four β globins has been expressed as a soluble protein in E. coli. The sequence of the single chain tetra-α is: αI-Gly-αII-(SerGlyGly)5Ser-αIII-Gly-αIV. This dihemoglobin has been purified and characterized in vitro by size exclusion chromatography, electrospray mass spectroscopy, equilibrium oxygen binding, and analytical ultracentrifugation. The observed values of P50 and nmax for the dihemoglobin are slightly lower than those observed for the recombinant hemoglobin rHb1.1 (a “monohemoglobin” comprised of two β globins and an αI-Gly-αII diα-globin chain). Titration of the deoxy form of dihemoglobin with CO shows that all eight heme centers bind ligand. In vivo, dihemoglobin showed increased circulating halflife and a reduced pressor response in conscious rats when compared to rHb1.1. These observations suggest that dihemoglobin is an oxygen carrying molecule with desirable in vivo properties and provides a platform for an isooncotic hemoglobin solution derived solely from a recombinant source. A 260 kDa tetrahemoglobin has also been produced by chemical crosslinking of a dihemoglobin that contains a Lys16Cys mutation in the C-terminal α-globin subunit. Tetrahemoglobin also shows reduced vasoactivity in conscious rats that is comparable to that observed for dihemoglobin.
topic polyhemoglobin
dihemoglobin
tetrahemoglobin
hemoglobin engineering
extravasation
pressor response
url http://www.mdpi.com/2079-4983/3/1/61/
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