Modulation of telomerase activity by telomere DNA-binding proteins in Oxytricha

Abstract

Telomere proteins protect the chromosomal terminus from nucleolytic degradation and end-to-end fusion, and they may contribute to telomere length control and the regulation of telomerase. The current studies investigate the effect of Oxytrichasingle-stranded telomere DNA-binding protein subunits α and β on telomerase elongation of telomeric DNA. A native agarose gel system was used to evaluate telomere DNA-binding protein complex composition, and the ability of telomerase to use these complexes as substrates was characterized. Efficient elongation occurred in the presence of the α subunit. Moreover, the α–DNA cross-linked complex was a substrate for telomerase. At higher α concentrations, two α subunits bound to the 16-nucleotide single-stranded DNA substrate and rendered it inaccessible to telomerase. The formation of this α · DNA · α complex may contribute to regulation of telomere length. The α · β · DNA ternary complex was not a substrate for telomerase. Even when telomerase was prebound to telomeric DNA, the addition of α and β inhibited elongation, suggesting that these telomere protein subunits have a greater affinity for the DNA and are able to displace telomerase. In addition, the ternary complex was not a substrate for terminal deoxynucleotidyltransferase. We conclude that the telomere protein inhibits telomerase by rendering the telomeric DNA inaccessible, thereby helping to maintain telomere length.