Abstract
The proliferative capacity and continuous survival of cells are highly dependent on telomerase expression and the maintenance of telomere length. For this reason, elevated expression of telomerase has been identified in virtually all cancers, including leukemias; however, it should be noted that expression of telomerase is sometimes observed later in malignant development. This time point of activation is highly dependent on the type of leukemia and its causative factors. Many recent studies in this field have contributed to the elucidation of the mechanisms by which the various forms of leukemias increase telomerase activity. These include the dysregulation of telomerase reverse transcriptase (TERT) at various levels which include transcriptional, post-transcriptional, and post-translational stages. The pathways and biological molecules involved in these processes are also being deciphered with the advent of enabling technologies such as next-generation sequencing (NGS), ribonucleic acid sequencing (RNA-Seq), liquid chromatography-mass spectrometry (LCMS/MS), and many others. It has also been established that TERT possess diagnostic value as most adult cells do not express high levels of telomerase. Indeed, studies have shown that prognosis is not favorable in patients who have leukemias expressing high levels of telomerase. Recent research has indicated that targeting of this gene is able to control the survival of malignant cells and therefore offers a potential treatment for TERT-dependent leukemias. Here we review the mechanisms of hTERT regulation and deliberate their association in malignant states of leukemic cells. Further, we also cover the clinical implications of this gene including its use in diagnostic, prognostic, and therapeutic discoveries.
Highlights
The human telomerase reverse transcriptase gene spans over a 40 kb DNA region and consists of 16 exons and 15 introns [1]
Studies aimed at determining the factors influencing telomerase reverse transcriptase (TERT) expression during leukemogenesis and the stage where this gene is upregulated has contributed immensely to the understanding of the fundamental roles of TERT in various forms of leukemias
It has been proven that different mechanisms are involved in the expression of this gene including transcriptional, genetic, and epigenetic regulators
Summary
The human telomerase reverse transcriptase gene (hTERT) spans over a 40 kb DNA region and consists of 16 exons and 15 introns [1]. With each successive round of cell proliferation, 50 to 200 base pairs of DNA material are dissociated from the ends of the chromosomes due to the loss of RNA primers situated on the lagging strand of Okazaki fragments This phenomenon leads to the progressive shortening of telomeres which limits the potential of somatic cells to divide [8,9]. This article reviews the latest information in the field of TERT regulation and its influences on leukemogenesis This would include detailed information on the transcriptional and translational regulation of TERT, the dysregulation of TERT in leukemias, and the clinical implications of this gene in the treatment of these disorders
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