Nobuyuki Horie

Length Polymorphism of Thymidylate Synthase Regulatory Region in Chinese Populations and Evolution of the Novel Alleles

The tandemly repeated 28-bp sequence in the 5′-terminal regulatory region of human thymidylate synthase (TSER), which has been reported to be polymorphic in different populations, was surveyed in 668 Chinese from 9 Han groups, 8 ethnic populations, and 36 individuals representing a three-generation pedigree. Amplified fragments were separated by electrophoresis on 4% agarose gel. In addition to the reported double and triple repeats of the 28-bp sequence in TSER, we also detected a novel quintuple repeat in this region. The transient expression activity of TSER with the quintuple repeat is almost the same as that of the reported TSER with the triple repeat. All three alleles of the repeat type (2, 3, and 5) were further confirmed by sequencing. The frequencies of the TSER allele 2 and 3 were 18.82 and 81% in totally unrelated Chinese samples, respectively, while the frequency of allele 3 was variable in different Chinese populations with a range from 62 to 95%. On the basis of the sequences of the different alleles, the existence of the tandem repeats in each allele might be explained by slipped-strand mispairing during DNA replication.

Identification of Functional Elements in the Promoter Region of the Human Gene for Thymidylate Synthase and Nuclear Factors That Regulate the Expression of the Gene

To identify the essential motifs of the promoter of the human gene for thymidylate synthase (TS), we constructed a set of deletion mutants from the 5′-terminal region of the human TS gene. From the results of assays of the expression of chloramphenicol acetyltransferase (CAT), we identified two functional elements with positive effects on the promoter activity: a CACCC box (CCACACCC) and an Sp1-binding motif (GAGGCGGA) that was homologous to the Sp1-binding site in the mouse TS gene. In addition, negative regulatory sequences were identified between the two positive elements and in the region upstream of the CACCC box. The results of gel mobility shift analyses suggested that Sp1 binds to the Sp1-binding motif of the human TS gene promoter and that multiple nuclear factors that are related to Sp1 bind to the CACCC box. Furthermore, the binding of Sp1 to mutated Sp1-binding motifs in the promoter region of the human TS gene was correlated with the promoter activity, as measured by the CAT assay. Therefore, the Sp1 motif seems to be a major contributor to the basic promoter activity of the human TS gene, although multiple positive and negative regulatory elements are involved in the regulated expression of this gene.

Characterization of regulatory sequences and nuclear factors that function in cooperation with the promoter of the human thymidylate synthase gene

To identify the essential sequence of the promoter of the human thymidylate synthase (hTS) gene, deletion mutants were constructed and assayed for promoter activity. The essential sequence was located within 65 bp upstream from the major cap site and a sequence that reduces the promoter activity was found in a region upstream from the essential promoter sequence. We previously identified two DNA-binding nuclear factors, NF-TS2 and NF-TS3, that bind to a region around the site of initiation of translation of the hTS gene. In this study, we confirmed the binding site of these factors by gel mobility shift analysis and found that NF-TS2 is the major factor that binds to the hTS gene in HeLa cells, whereas NF-TS3 is the major factor in the TIG-1 line of human fibroblast cells. To clarify the function of these factors, we examined the effects of the binding of these factors on the promoter activity. Our findings suggest that the binding of NF-TS2 enhances the promoter activity of the hTS gene in HeLa cells, whereas the binding of NF-TS3 represses the activity of the same promoter in TIG-1 cells.

Regulatory sequences clustered at the 5' end of the first intron of the human thymidylate synthase gene function in cooperation with the promoter region

A human thymidylate synthase (TS) minigene containing 5′- and 3′-flanking sequences, all the exons, and only intron 1 showed a normal frequency of stable transformation when transfected into TS-negative mutant cells, whereas minigenes in which intron 1 was replaced by intron 2 or deleted in the above construct showed only a few percent of the above frequency. Introduction of intron 1 into the above intronless or intron 2 minigene restored the transforming activities regardless of its position and orientation. Deletion analysis revealed two positive and one negative regulatory sequences in the 5′ end of intron 1, each of which seemed to bind specific proteins as shown by gel shift analysis. Intron 1 also stimulated expression of a TS promoter-CAT gene construct but not that of an SV40 promoter-CAT gene construct. These results indicate that the multiple regulatory sequences clustered in intron 1 stimulate TS gene expression in concert with the 5′-flanking sequences.

Donor age reflects the replicative lifespan of human fibroblasts in culture

Human fibroblasts, which have a finite lifespan in cultures, have been widely used as a model system for cellular aging, and frequently used as one model of human aging. But whether cellular aging contributes to organismal aging has been controversial. To reinvestigate this question, we cultured human fibroblasts from the skin of one individual volunteer collected at different ages. Over a period of 27 years (donor age 36 years to 62 years), we obtained skin cells four times at appropriate intervals, and established eight fibroblast lines. These human fibroblasts have presented evidence for a correlation between donor age and proliferative lifespan in vitro. This result parallels the fact that telomeric DNA size cultured fibroblasts decrease with the increase in donor age. These cell lines had a normal diploid human chromosome constitution and will be useful in studies of human biology including aging.