Direct cDNA cloning of the rearranged immunoglobulin variable region.

A major problem in the study of multigene families is the effort required to clone and sequence these genes. We describe a method to rapidly clone and sequence immunoglobulin variable region gene sequences without constructing cDNA libraries. Because immunoglobulin variable-region genes are flanked by conserved sequences, we have been able to apply the polymerase chain reaction (PCR) to clone and sequence both the light- and heavy-chain rearranged immunoglobulin genes from small numbers of hybridoma cells. This method will greatly facilitate the construction of chimeric mouse/human monoclonal antibodies for immunoglobulin structural studies as well as for therapeutic use.

Analysis by molecular cloning of the human class II genes.

The HLA class II genes control immune responsiveness to defined antigens; they encode cell surface heterodimers composed of alpha and beta glycopeptides. Recently, cDNA and genomic clones encoding these chains have been isolated, which allows molecular analysis of the class II genes. cDNA clones encoding the alpha chain of the HLA-DR antigen as well as that of another HLA class II antigen have been identified and characterized by nucleotide sequence analysis. These clones have been used as probes to isolate additional class II alpha cDNA clones in cDNA libraries and to identify polymorphisms in genomic DNA. Polymorphic restriction sites have been localized within the HLA-DR alpha gene and used as genetic markers in the analysis of families and of disease (insulin-dependent diabetes mellitus) and control populations. In addition, cDNA clones encoding the DR beta and DC beta chains were used as hybridization probes to identify DNA polymorphism. cDNA clones encoding the DR gamma (Ii) chain have also been identified; unlike the DR alpha and DR beta loci, the DR gamma gene is located on some chromosome other than chromosome 6. The genetic complexity of the human class II alpha and beta loci, as revealed by analysis with cDNA and genomic clones, is greater than that of the murine class II genes. The extent of that complexity will be defined by future work in this area.

Segregation and mapping analysis of polymorphic HLA class I restriction fragments: detection of a novel fragment.

An HLA-B7 complementary DNA clone was used as a hybridization probe to analyze the segregation pattern of polymorphic class I restriction fragments in several families whose HLA types had been determined by serological techniques. In one family in which a crossover in the HLA region had occurred, a specific genomic fragment was mapped with respect to the crossover. In another family, a novel genomic fragment present in one child and absent in all other family members was observed. With the exception of this novel fragment, all polymorphic class I fragments observed in this study segregated with a serologically defined parental haplotype, a result consistent with HLA linkage.

Isolation of a cDNA clone for the human HLA-DR antigen alpha chain by using a synthetic oligonucleotide as a hybridization probe.

We have used a synthetic 20-nucleotide hybridization probe to isolate a cDNA clone encoding the alpha chain of the HLA-DR antigen from a cDNA library constructed from membrane-bound poly(A)+ mRNA. A set of synthetic 11-nucleotide fragments, potentially complementary to the codons for amino acids 11-14 of the HLA-DR alpha chain, were used to prime a cDNA synthesis reaction on various poly(A)+ mRNA templates. Extension of the primers in the presence of a single dideoxynucleotide triphosphate resulted in an 18-nucleotide cDNA product whose sequence corresponded to the NH2-terminal amino acids of the HLA-DR alpha chain. An oligonucleotide was synthesized based on this sequence information and its specificity for HLA-DR alpha mRNA was confirmed by primer extension and blot analysis. The cDNA library made from mRNA from the lymphoblastoid cell line CA-SC was probed with 32P-labeled cDNA synthesized on poly(A)+ mRNA from a B-cell line (CA-SC) or from a T-cell line (Molt-4) to enrich for B-cell-specific clones. A set of cDNA clones that hybridized preferentially with the B-cell probe was screened with the 32P-labeled 20-nucleotide probe. The cDNA clone isolated by this procedure is 1,100 nucleotides long; the nucleotide sequence of the 5' end of the cDNA insert corresponds to the amino acid sequence of the HLA-DR alpha chain. Hybridization of this cDNA clone to genomic blots suggests that the HLA-DR alpha chain is encoded by a single-copy gene. One of the restriction endonucleases used in genomic DNA digests reveals a restriction fragment polymorphism.