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Tangential flow filtration facilitated fractionation and PEGylation of low and highâmolecular weight polymerized hemoglobins and their biophysical properties
- Source :
- Biotechnol Bioeng
- Publication Year :
- 2021
- Publisher :
- Wiley, 2021.
-
Abstract
- Various types of hemoglobin (Hb)-based oxygen carriers (HBOCs) have been developed as red blood cell substitutes for treating blood loss when blood is not available. Among those HBOCs, glutaraldehyde polymerized Hbs have attracted significant attention due to their facile synthetic route, and ability to expand the blood volume and deliver oxygen. Hemopure®, Oxyglobin®, and PolyHeme® are the most well-known commercially developed glutaraldehyde polymerized Hbs. Unfortunately, only Oxyglobin® was approved by the FDA for veterinary use in the United States, while Hemopure® and PolyHeme® failed phase III clinical trials due to their ability to extravasate from the blood volume into the tissue space which facilitated nitric oxide scavenging and tissue deposition of iron, which elicited vasoconstriction, hypertension and oxidative tissue injury. Fortunately, conjugation of poly (ethylene glycol) (PEG) on the surface of Hb is capable of reducing the vasoactivity of Hb by creating a hydration layer surrounding the Hb molecule, which increases its hydrodynamic diameter and reduces tissue extravasation. Several commercial PEGylated Hbs (MP4®, Sanguinate®, Euro-PEG-Hb) have been developed for clinical use with a longer circulatory half-life and improved safety compared to Hb. However, all of these commercial products exhibited relatively high oxygen affinity compared to Hb, which limited their clinical use. To dually address the limitations of prior generations of polymerized and PEGylated Hbs, this current study describes the PEGylation of polymerized bovine Hb (PEG-PolybHb) in both the tense (T) and relaxed (R) quaternary state via thiol-maleimide chemistry to produce an HBOC with low or high oxygen affinity. The biophysical properties of PEG-PolybHb were measured and compared with those of commercial polymerized and PEGylated HBOCs. T-state PEG-PolybHb possessed higher hydrodynamic volume and P50 than previous generations of commercial PEGylated Hbs. Both T- and R-state PEG-PolybHb exhibited significantly lower haptoglobin binding rates than the precursor PolybHb, indicating potentially reduced clearance by CD163 + monocytes and macrophages. Thus, T-state PEG-PolybHb is expected to function as a promising HBOC due to its low oxygen affinity and enhanced stealth properties afforded by the PEG hydration shell.
- Subjects :
- Surface Properties
Bioengineering
Blood volume
Applied Microbiology and Biotechnology
Article
Polyethylene Glycols
Hemoglobins
chemistry.chemical_compound
Blood Substitutes
PEG ratio
medicine
Animals
Haptoglobin binding
Molecular Weight
Oxygen
Kinetics
Red blood cell
medicine.anatomical_structure
chemistry
PEGylation
Biophysics
Cattle
Glutaraldehyde
Hemoglobin
Ethylene glycol
Filtration
Biotechnology
Subjects
Details
- ISSN :
- 10970290 and 00063592
- Volume :
- 119
- Database :
- OpenAIRE
- Journal :
- Biotechnology and Bioengineering
- Accession number :
- edsair.doi.dedup.....d35b39c72d8fd137876a370abab5783d