DNA sequence analysis of spontaneous hprt mutations arising in vivo in cynomolgus monkey T-lymphocytes.

Abstract

To study the mechanisms of mutagenesis in vivo, we analyzed mutations at the hypoxanthine phosphoribosyl transferase (hprt) locus using cDNA from cynomolgus monkey T-lymphocytes. In the present study, the spectrum of spontaneous hprt mutations arising in vivo in wild-caught cynomolgus monkey peripheral T-lymphocytes is described. Cells were isolated from peripheral blood, and mutant clones were selected in 6-thioguanine, propagated, and stored frozen. cDNA was copied from hprt mRNA from a lysate of 7,000 to 20,000 cells. A 780-base-pairs (bp) region including the coding region was amplified by polymerase chain reaction and directly sequenced. We sequenced 40 spontaneous mutants from 11 monkeys. Of these 40 clones, 23 (57%) had base-pair substitutions, 11 (28%) had small (< 20 bp) deletions and/or insertions, and 6 (15%) had large (> 20 bp) deletions and/or insertions. Of the 23 base substitutions, 13 were transitions (11 G:C-->A:T, 1 A:T-->G:C, and 1 tandem TT-->CC) and 10 were transversions (3 G:C-->T:A, 3 G:C-->C:G, 2 A:T-->T:A, 2 A:T-->C:G). Bases 209 and 617 were apparent substitution hotspots, which have also been observed as hotspots in human hprt. In 2 clones with large insertions, the inserted bases were of intronic origin. One of these lost 272 bp from exons 2-3 and contained a 93-bp insertion from the middle of intron 3. Two clones with small deletions and 5 clones with large deletions or insertions (7/40 or 17.5%) could be splice mutants.