ABSTRACT
This study looked into a family involving a rare mother-child ABO blood type inconsistency and explored its genetic and molecular basis. In the family, the mother had type AB blood and the father was blood type B and they gave birth to a baby of blood type O. Their blood types were phenotypically identified by using different techniques, including micro-column gel test, immune inhibition test, absorption and elution tests. The sequences of all 7 exons of ABO allele from the core family members were determined by using PCR and clone-based sequencing. The loci of mutated gene were compared against normal human genes. The result showed that the mother's erythrocytes were agglutinable with monoclonal anti-A antibody (2+) and had agglutination reaction with anti-B antibody (4+). The mother's serum registered agglutination action with standard blood type A cells. The findings showed an ABO inconsistency. When domestic antibodies were used, the mother's erythrocytes yielded agglutination reaction with humanized anti-B serum (4+) and anti-B monoclonal antibody but were non-agglutinable with humanized anti-A serum and anti-A monoclonal antibody. Upon absorption and elution, the titer of anit-A antibody was 128 both before and after the absorption test, with no significant difference found between pre- and post-absorption values. Our results confirmed that the mother's allelic gene was type B and contained type A. The father's blood type was type B, and son's blood type was type O. Clone-based sequencing revealed that the mother carried a heterozygous gene of B101.01 (ntA640→G)/O01, which contained an M214→V mutation that could express a weak expression of antigen A, resulting in blood type AB. However, their son did not have the M214→V mutation, which yielded a false ABO-inconsistency between him and his mother. We were led to conclude that type B gene with a M214→V mutation can encode both antigen B and weak antigen B that can lead to false ABO-inconsistencies.
Subject(s)
Adult , Female , Humans , Pregnancy , ABO Blood-Group System , Genetics , Allergy and Immunology , Base Sequence , DNA Primers , Maternal-Fetal Exchange , Molecular Sequence Data , Mutation , Polymerase Chain Reaction , Sequence Analysis, DNA , Sequence Homology, Nucleic AcidABSTRACT
This study looked into a family involving a rare mother-child ABO blood type inconsistency and explored its genetic and molecular basis. In the family, the mother had type AB blood and the father was blood type B and they gave birth to a baby of blood type O. Their blood types were phenotypically identified by using different techniques, including micro-column gel test, immune inhibition test, absorption and elution tests. The sequences of all 7 exons of ABO allele from the core family members were determined by using PCR and clone-based sequencing. The loci of mutated gene were compared against normal human genes. The result showed that the mother's erythrocytes were agglutinable with monoclonal anti-A antibody (2+) and had agglutination reaction with anti-B antibody (4+). The mother's serum registered agglutination action with standard blood type A cells. The findings showed an ABO inconsistency. When domestic antibodies were used, the mother's erythrocytes yielded agglutination reaction with humanized anti-B serum (4+) and anti-B monoclonal antibody but were non-agglutinable with humanized anti-A serum and anti-A monoclonal antibody. Upon absorption and elution, the titer of anit-A antibody was 128 both before and after the absorption test, with no significant difference found between pre- and post-absorption values. Our results confirmed that the mother's allelic gene was type B and contained type A. The father's blood type was type B, and son's blood type was type O. Clone-based sequencing revealed that the mother carried a heterozygous gene of B101.01 (ntA640→G)/O01, which contained an M214→V mutation that could express a weak expression of antigen A, resulting in blood type AB. However, their son did not have the M214→V mutation, which yielded a false ABO-inconsistency between him and his mother. We were led to conclude that type B gene with a M214→V mutation can encode both antigen B and weak antigen B that can lead to false ABO-inconsistencies.
ABSTRACT
<p><b>OBJECTIVE</b>To obtain streptavidin-tagged human interleukin-21 (hIL21) fusion protein and evaluate its bioactivities.</p><p><b>METHODS</b>hIL21-SA-pET21 and pET24a-SA- hIL21 plasmids were constructed and expressed in BL21(DE3) host bacteria. The hIL21-SA and SA- hIL21 fusion protein were purified through Ni-NTA affinity chromatography and refolded by dialysis. Flow cytometry was used to detect hIL21-SA and SA- hIL21 fusion protein on the biotinylated MB49 tumor cells. MTT assay was used to evaluate the effect of the fusion protein on the proliferation of human peripheral blood lymphocytes (PBLs) stimulated by Anti-CD3.</p><p><b>RESULTS</b>The recombinant fusion proteins were highly expressed in BL21(DE3) at about 30% of the total bacterial proteins. The two fusion proteins exhibited bifunctional activities, i.e. both biotin-binding property and hIL21 activity and SA-mediated high-affinity binding to biotinylated cell surfaces (with anchoring modified rate of about 95.18% and 96.91%).</p><p><b>CONCLUSION</b>We have successfully obtained bifunctional fusion protein hIL21-SA and SA- hIL21,which will provide a basis for further study of tumor biotherapy using the proteins.</p>