Expression of chorionic gonadotropin alpha- and beta-genes in normal and neoplastic human tissues: relationship to deoxyribonucleic acid structure.

We have investigated whether the expression of hCG genes can be attributed to changes in the structure of the alpha- and beta hCG genes, such as rearrangements, duplications, or methylation patterns. Various tissues and cell lines were studied: two term placentae, three trophoblastic tumor cell lines, two tumor cell lines ectopically producing alpha-subunit, normal cells not producing hCG or subunits, and a nonproducing malignancy. Gene structure was explored by restriction enzyme analysis and Southern blotting of DNA, using as probes 32P-labeled plasmids containing alpha- and beta hCG cDNAs. Similarly, methylation was evaluated using the restriction enzymes Msp I, Hpa II, and Hha I, each sensitive to a different pattern of cytosine methylation. No structural changes were observed in alpha- and beta hCG genes, although certain polymorphisms were observed. Analysis of methylation patterns revealed variation of the methylated cytosines; however, no clear correlation was seen between overall methylation or a specific pattern of methylation of these genes and their expression. Although specific methylated nucleotides of regulatory importance may not have been detected by our methods, we can still conclude that neither DNA structural alterations nor patterns of cytosine methylation appear to be major determinants of hCG expression.