Abstract
Telomerase is a ribonucleoprotein complex that maintains the lengths of telomeres. Most studies of telomerase function have focused on the involvement of telomerase activation in the immortalization of cancer cells and cellular rejuvenation. However, some studies demonstrated that the results do not meet expectations for telomerase action in telomere maintenance. Recent results give reason to think that major telomerase components—the reverse transcriptase protein subunit and telomerase RNA—may participate in many cellular processes, including the regulation of apoptosis and autophagy, cell survival, pro-proliferative effects, regulation of gene expression, and protection against oxidative stress. However, the difficulties faced by scientist when researching telomerase component functions often reduce confidence in the minor effects observed in experiments. In this review, we focus on the analysis of the functions of telomerase components (paying more attention to the telomerase RNA component), both as a complex and as independent components, providing effects that are not associated with telomerase activity and telomere length maintenance. Despite the fact that the data on alternative roles of telomerase components look illusory, it would be wrong to completely reject the possibility of their involvement in other biological processes excluded from research/discussion. Investigations to improve the understanding of every aspect of the functioning of telomerase components will provide the basis for a more precise development of approaches to regulate cellular homeostasis, which is important for carcinogenesis and aging.
Highlights
Special structures known as telomeres are located at the ends of linear chromosomes and protect them from shortening and fusion [1]
The expression of hTERT has been demonstrated for cells with active telomerase while hTERC gene expression is not correlated with telomerase activity [14]. hTERC has been detected in the majority of somatic cells where it is expressed constitutively
Investigations aiming to understand the roles of Telomerase reverse transcriptase (TERT) or TERC in telomerase activation and disease development have provided data showing the possible functional role of telomerase components outside of telomerase
Summary
Special structures known as telomeres are located at the ends of linear chromosomes and protect them from shortening and fusion [1]. Telomerase reverse transcriptase (TERT) uses a telomerase RNA (TERC—telomerase RNA component) as a component of the telomerase complex and a template to add telomeric repeats to the 3 -end of chromosomal DNA [4,5,6,7]. Telomerase activity is inherent to stem, germ, and the majority of cancer cells. The expression of hTERT has been demonstrated for cells with active telomerase while hTERC gene expression is not correlated with telomerase activity [14]. This review is focused on different aspects of telomerase ribonucleoprotein (RNP) components functioning in both the complex and separately, with special attention paid to the RNA component
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