Mutant human adenosine deaminase alleles and their expression by transfection into fibroblasts.

Adenosine deaminase (ADA) deficiency in humans is one cause of severe combined immunodeficiency disease. Single base mutations affecting the ADA protein have been identified for both alleles of the ADA-deficient cell line GM2606 and for one allele of the ADA-deficient cell line GM2825A. One allele of GM2606 has a mutation altering amino acid 101 from Arg to Trp, and the other allele has a mutation altering amino acid 211 from Arg to His. As previously reported, one ADA allele of GM2825A has a single base mutation changing Ala-329 to Val-329, and the other allele has a mutation which eliminates exon 4 from the mature mRNA. Sequence analysis of polymerase chain reaction-amplified GM2825A DNA showed a single base change of A to G within the invariant bases of the 3' splice site of intron 3 that can account for the mis-splicing of exon 4. To test the effect on ADA catalytic activity of these mutations and the mutations previously found in the ADA-deficient line GM2756, expression vectors containing normal and mutant ADA-coding sequences under transcriptional regulation of the Rous sarcoma virus long terminal repeat were constructed and transfected into human fibroblasts. All transfected cells had levels of ADA mRNA 15-25 times higher than the endogenous ADA message. Yet, cells transfected with the normal ADA-coding sequences had ADA enzymatic levels 40 times higher than cells transfected with any of the mutant ADA sequences. This analysis demonstrates that while the mutant ADA-coding sequences are transcribed, they do not encode a functional ADA protein.