Telomere stability and carcinogenesis: an off-again, on-again relationship

Thanksgiving to Yeast, the HMGB Proteins History from Yeast to Cancer

Yeasts have been a part of human life since ancient times in the fermentation of many natural products used for food. In addition, in the 20th century, they became powerful tools to elucidate the functions of eukaryotic cells as soon as the techniques of molecular biology developed. Our molecular understandings of metabolism, cellular transport, DNA repair, gene expression and regulation, and the cell division cycle have all been obtained through biochemistry and genetic analysis using different yeasts. In this review, we summarize the role that yeasts have had in biological discoveries, the use of yeasts as biological tools, as well as past and on-going research projects on HMGB proteins along the way from yeast to cancer.

Heterogeneity of telomerase reverse transcriptase mutation and expression, telomerase activity and telomere length across human cancer cell lines cultured in vitro

Promoter region of the telomerase reverse transcriptase gene (TERTp) constitutes a regulatory element capable to affect TERT expression (TE), telomerase activity (TA) and telomere length (TL). TERTp mutation status, TL, TA and TE were assessed in 27 in vitro cultured human cell lines, including 11 solid tumour, 13 haematological and 3 normal cell lines. C228T and C250T TERTp mutations were detected in 5 solid tumour and none of haematological cell lines (p = 0.0100). As compared to other solid tumour cell lines, those with the presence of somatic mutations were characterized by: shorter TL, lower TA and TE. Furthermore, cell lines carrying TERTp mutations showed a linear correlation between TE and TA (R = 0.9708, p = 0.0021). Moreover, haematological cell lines exhibited higher TE compared to solid tumour cell lines (p = 0.0007). TL and TA were correlated in both solid tumour (R = 0.4875, p = 0.0169) and haematological (R = 0.4719, p = 0.0095) cell lines. Our results based on the in vitro model suggest that oncogenic processes may differ between solid tumours and haematological malignancies with regard to their TERT gene regulation mechanisms.

The non-canonical functions of telomerase: to turn off or not to turn off

Telomerase is perceived as an immortality enzyme that enables passing the Hayflick limit. Its main function is telomere restoration but only in a limited group of cells, including cancer cells. Since it is found in a vast majority of cancer cells, it became a natural target for cancer therapy. However, it has much more functions than just altering the metabolism of telomeres-it also reveals numerous so-called non-canonical functions. Thus, a question arises whether it is always beneficial to turn it off when planning a cancer strategy and considering potential side effects? The purpose of this review is to discuss some of the recent discoveries about telomere-independent functions of telomerase in the context of cancer therapy and potential side effects.