Yuri Bushkin

Further biochemical data on Qa-2.

The Qa-2 differentiation alloantigen is coded by a gene situated between the D and Tla loci of the murine major histocompatibility complex (H-2). Qa-2-bearing protein was isolated by immunoprecipitation and found to be composed of subunits of 40 000 and 12 000 daltons by SDS polyacrylamide gel electrophoresis (PAGE). The 12 000 dalton material was identified as β2-microglobulin (β2M) by its molecular weight (SDS PAGE), charge (isoelectric focusing), antigenicity (reactivity with xenogenic anti-β 2M), and genetics. The 40 000 dalton mol. wt. of Qa-2 heavy chain is 5 000 daltons less than that of D and K molecules (45 000 daltons). The quantity of Qa-2 isolated by immunoprecipitation was found to vary in a strain-specific fashion and as much as a 15-fold difference was observed.

Immunoprecipitation of human H-Y antigen.

SummaryIn the absence of beta-2-microglobulin and MHC-determined cell surface antigens, cultured cells of the Burkitt lymphoma, Daudi, secrete testis-inducing H-Y antigen into the surrounding medium. We have precipitated Daudi-secreted H-Y antigen by two methods, one using mouse H-Y antibody and goat anti-mouse Ig, and the other using mouse H-Y antibody and Sepharose beads coated with protein A. The estimated molecular weight of the specific immunoprecipitate was 15,000–18,000 Daltons.

Biochemical characterization of the human t6 antigen: A comparison between T6 and murine TL

The human T6 antigen was studied by two monoclonal antibodies: OKT6 and Leu-6. A third monoclonal antibody, C56 (developed in our laboratory), was found to have similar properties to those of OKT6. On SDS-PAGE, all three antibodies precipitated a 48,000-12,000-dalton heterodimer. Two-dimensional gel electrophoresis and chymotryptic peptide map analysis revealed that these antibodies precipitated in identical 48,000-dalton heavy chain which was distinguishable from the HLA-A,B,C heavy chains. The single 12,000-dalton light chain precipitated with OKT6 antibody was shown to be distinct from beta 2-microglobulin by its pI. The two light chains precipitated with Leu-6 antibody were resolved by charge into beta 2-microglobulin and the more basic 12,000-dalton peptide identical to that precipitated with OKT6. In addition to beta 2-microglobulin, the latter component (presumably beta t) was also found in the light-chain fraction precipitated from the thymocytes with a monoclonal antibody recognizing the framework of HLA-A,B,C heavy chains. Using chymotryptic peptide mapping, no polymorphism was detected among the heavy chains of the T6 antigen isolated from thymocytes of four individuals. All three monoclonal antibodies failed to precipitate murine TL from ASL1 leukemia cell lysates. Similarly, none of the six monoclonal and two conventional anti-TL antibodies reacted with T6. Although a high degree of homology was found by peptide map analysis among the TL molecules encoded by the Tlaa, Tlad and Tlae alleles, a comparison between their peptide maps and that of T6 revealed no similarity. Despite previous suggestions that T6 is homologous to murine TL, the present biochemical studies do not support this hypothesis.

Biochemical characterization of A p43,12 complex: comparison with human and murine class I molecules

A monoclonal antibody designated as C21 reacting with a p43,12 complex was developed against human thymocytes. It stained predominantly the early hematopoietic cells of the lymphoid lineage and also thymocytes, peripheral B-cells and activated T- and B-cells similarly to OKT10. The heavy chain of this antigen was a glycoprotein of Mr 43,000 (p43). Sequential immunoprecipitation with C21 and OKT10 antibodies indicated that they both reacted with an identical heavy-chain molecule. This observation was further documented by two-dimensional analysis. Monoclonal antibody C21 was used to probe a p43,12 complex further. Structural polymorphism of the p43 heavy chain isolated from T- and B-cells of different individuals was not detected by chymotryptic peptide mapping, although molecules from these cell types possessed a different charge on two-dimensional gels. An unusual observation was made regarding this complex on MOLT4 cells. The light chain co-precipitated from these cells was 12,000 daltons and had a pI distinct from that of beta 2-microglobulin but similar to the pI of the beta t molecule. Comparison between chymotryptic peptide maps of the p43 heavy chain and those of the human and murine class I molecules such as HLA, T6, H-2K, Qa-2 and TL revealed no apparent homology. We have shown, however, that the peptide backbone of p43, as studied by both tunicamycin treatment of cells and endoglycosidase F digestion of immunoprecipitates, was identical in size to that of murine Qa-1. These results suggest that the p43 antigen may be homologous to murine Qa-1 or another class I antigen encoded in the murine TL:Qa region.