BACKGROUND: The recent availability of alpha-1,3-galatosyltransferase knockout pigs has eliminated anti-Gal antibodies to the galalpha1-3gal (alphagal epitope) as the major barrier to xenotransplantation. These alphagal epitope-negative animals can also be produced by somatic cell nuclear transfer of cells overexpressing endo-beta-galactosidase (EndoGalC), an enzyme capable of digesting the alphagal epitope. For this, selection of cells with highly reduced synthesis of alphagal epitope is a prerequisite. In this study, we developed a novel method of selection using isolectin BS-I-B(4)-conjugated saporin (IB4-SAP), a targeted cytotoxin, that is specific for the terminal alphagal epitope. METHODS: A mixture of alphagal epitope-expressing and non-expressing pig cells was obtained by transfection with an EndoGalC expression vector. These cells were incubated with a solution containing IB4-SAP for 2 h at 37 degrees C, and subsequently cultivated for over 2 months under general conditions. RESULTS: Almost all (98%) of surviving cells were completely negative for expression of alphagal epitope, as confirmed by cytochemical staining using fluorescence-labeled IB4. FACS analysis also confirmed that the IB4-SAP-treated cells exhibited a staining pattern similar to that of the IB4-negative human cells. Extended cultivation (more than 6 months) of these IB4-SAP-treated cells did not alter the above staining pattern. RT-PCR analysis revealed the presence of EndoGalC mRNA in these cells. CONCLUSIONS: This IB4-SAP-mediated method of selection of alphagal epitope-negative cells will provide an alternative to the present method of cytotoxicity-based selection using specific antibody and complement.
BACKGROUND: The recent availability of alpha-1,3-galatosyltransferase knockout pigs has eliminated anti-Gal antibodies to the galalpha1-3gal (alphagal epitope) as the major barrier to xenotransplantation. These alphagal epitope-negative animals can also be produced by somatic cell nuclear transfer of cells overexpressing endo-beta-galactosidase (EndoGalC), an enzyme capable of digesting the alphagal epitope. For this, selection of cells with highly reduced synthesis of alphagal epitope is a prerequisite. In this study, we developed a novel method of selection using isolectin BS-I-B(4)-conjugated saporin (IB4-SAP), a targeted cytotoxin, that is specific for the terminal alphagal epitope. METHODS: A mixture of alphagal epitope-expressing and non-expressing pig cells was obtained by transfection with an EndoGalC expression vector. These cells were incubated with a solution containing IB4-SAP for 2 h at 37 degrees C, and subsequently cultivated for over 2 months under general conditions. RESULTS: Almost all (98%) of surviving cells were completely negative for expression of alphagal epitope, as confirmed by cytochemical staining using fluorescence-labeled IB4. FACS analysis also confirmed that the IB4-SAP-treated cells exhibited a staining pattern similar to that of the IB4-negative human cells. Extended cultivation (more than 6 months) of these IB4-SAP-treated cells did not alter the above staining pattern. RT-PCR analysis revealed the presence of EndoGalC mRNA in these cells. CONCLUSIONS: This IB4-SAP-mediated method of selection of alphagal epitope-negative cells will provide an alternative to the present method of cytotoxicity-based selection using specific antibody and complement.