BACKGROUND: It has been demonstrated recently that α1,3-galactosidase from Bacteroides fragilis can efficiently convert human group B red blood cells (RBC) to group O cells. In addition, in vitro data indicated that the enzymatic conversion process did not affect the physiological or metabolic parameters of the RBC. The aim of this study was to investigate the lifespan of enzyme- treated RBC in vivo in the circulation. MATERIALS AND METHODS: This was an experimental, randomised study. The rat was selected as the experimental subject because it expresses α-1,3galactosyl on its RBC. The efficiency of Galα1,3Gal epitope removal from RBC treated with α1,3-galactosidase was tested before the transfusion experiment to track the survival of RBC in the circulation. The animals were divided into three groups and injected via the tail vein with native, mock-treated or enzyme-treated RBC labelled with fluorescein isothiocyanate. The survival rates of the fluorescently labelled RBC were monitored by flow cytometry. RESULTS: Flow cytometry showed that α-galactosidase (0.02 mg/mL for RBC with a haematocrit of 30%) efficiently removed Galα1,3Gal epitopes from rat erythrocytes, although small amounts of remaining Galα1,3Gal epitopes were still detected. The in vivo data demonstrated that the half-life of enzyme-treated RBC was a little shorter than that of native RBC. However, the 24-hour survival fractions of native, mock-treated and enzyme-treated RBC were virtually identical. Most importantly, the enzyme-treated RBC, like the native RBC, were still detectable 35 days after transfusion. DISCUSSION: Our results indicate that α-glycosidase treatment had little effect on the in vivo survival kinetics of RBC. These data add further support to the feasibility of translating enzymatic conversion technology into clinical practice.
BACKGROUND: It has been demonstrated recently that α1,3-galactosidase from Bacteroides fragilis can efficiently convert human group B red blood cells (RBC) to group O cells. In addition, in vitro data indicated that the enzymatic conversion process did not affect the physiological or metabolic parameters of the RBC. The aim of this study was to investigate the lifespan of enzyme- treated RBC in vivo in the circulation. MATERIALS AND METHODS: This was an experimental, randomised study. The rat was selected as the experimental subject because it expresses α-1,3galactosyl on its RBC. The efficiency of Galα1,3Gal epitope removal from RBC treated with α1,3-galactosidase was tested before the transfusion experiment to track the survival of RBC in the circulation. The animals were divided into three groups and injected via the tail vein with native, mock-treated or enzyme-treated RBC labelled with fluorescein isothiocyanate. The survival rates of the fluorescently labelled RBC were monitored by flow cytometry. RESULTS: Flow cytometry showed that α-galactosidase (0.02 mg/mL for RBC with a haematocrit of 30%) efficiently removed Galα1,3Gal epitopes from rat erythrocytes, although small amounts of remaining Galα1,3Gal epitopes were still detected. The in vivo data demonstrated that the half-life of enzyme-treated RBC was a little shorter than that of native RBC. However, the 24-hour survival fractions of native, mock-treated and enzyme-treated RBC were virtually identical. Most importantly, the enzyme-treated RBC, like the native RBC, were still detectable 35 days after transfusion. DISCUSSION: Our results indicate that α-glycosidase treatment had little effect on the in vivo survival kinetics of RBC. These data add further support to the feasibility of translating enzymatic conversion technology into clinical practice.
Authors: M S Kruskall; J P AuBuchon; K Y Anthony; L Herschel; C Pickard; R Biehl; M Horowitz; D J Brambilla; M A Popovsky Journal: Transfusion Date: 2000-11 Impact factor: 3.157
Authors: Martin L Olsson; Cheryl A Hill; Humberto de la Vega; Qiyong P Liu; Mark R Stroud; Jean Valdinocci; Steven Moon; Henrik Clausen; Margot S Kruskall Journal: Transfus Clin Biol Date: 2004-02 Impact factor: 1.406
Authors: Qiyong P Liu; Gerlind Sulzenbacher; Huaiping Yuan; Eric P Bennett; Greg Pietz; Kristen Saunders; Jean Spence; Edward Nudelman; Steven B Levery; Thayer White; John M Neveu; William S Lane; Yves Bourne; Martin L Olsson; Bernard Henrissat; Henrik Clausen Journal: Nat Biotechnol Date: 2007-04-01 Impact factor: 54.908
Authors: Qiyong P Liu; Huaiping Yuan; Eric P Bennett; Steven B Levery; Edward Nudelman; Jean Spence; Greg Pietz; Kristen Saunders; Thayer White; Martin L Olsson; Bernard Henrissat; Gerlind Sulzenbacher; Henrik Clausen Journal: J Biol Chem Date: 2008-01-28 Impact factor: 5.157