TY - JOUR
T1 - Dissociation of telomere dynamics from telomerase activity in human thyroid cancer cells
AU - Jones, Christopher J.
AU - Soley, Anne
AU - Skinner, Julia W.
AU - Gupta, Jyothi
AU - Haughton, Michele F.
AU - Wyllie, Fiona S.
AU - Schlumberger, M.
AU - Bacchetti, Silvia
AU - Wynford-Thomas, David
N1 - Funding Information:
We are grateful to the Cancer Research Campaign for grant support, to David Kipling for helpful discussions, and to Theresa King for manuscript preparation.
PY - 1998/5/1
Y1 - 1998/5/1
N2 - Prevention of telomere erosion through acquisition of telomerase activity is thought to be an essential mechanism in most human cancer cells for avoidance of cellular senescence and crisis. It has been generally assumed that once telomerase has been activated, no further telomere shortening should ensue. We show here, however, that a much more complex pattern of telomere dynamics can exist in telomerase-positive immortal cancer cells. Using a panel of subclones derived from a human thyroid cancer cell line, K1E7, we found that some clones show persistent decline in mean telomere restriction fragment (TRF) length by up to 2 kb over 450 population doublings (pd), despite sustained high telomerase activity (as assessed by the in vitro 'TRAP' assay). TRF length subsequently stabilized at around 5 kb, but with no corresponding increase in telomerase activity. One clone showed an even more unexpected biphasic time course, with the mean TRF length initially increasing by 1.5 kb over 90 pd, before 'plateauing' and then returning over a similar period to its original value, again without any correlation to TRAP activity. Such dissociations between telomere dynamics and telomerase activity support the existence of additional controls on telomere length in the intact cell. Our observations are consistent with current negative-feedback models of telomere length regulation by telomere binding proteins and these cell lines should prove useful experimental tools for their further evaluation.
AB - Prevention of telomere erosion through acquisition of telomerase activity is thought to be an essential mechanism in most human cancer cells for avoidance of cellular senescence and crisis. It has been generally assumed that once telomerase has been activated, no further telomere shortening should ensue. We show here, however, that a much more complex pattern of telomere dynamics can exist in telomerase-positive immortal cancer cells. Using a panel of subclones derived from a human thyroid cancer cell line, K1E7, we found that some clones show persistent decline in mean telomere restriction fragment (TRF) length by up to 2 kb over 450 population doublings (pd), despite sustained high telomerase activity (as assessed by the in vitro 'TRAP' assay). TRF length subsequently stabilized at around 5 kb, but with no corresponding increase in telomerase activity. One clone showed an even more unexpected biphasic time course, with the mean TRF length initially increasing by 1.5 kb over 90 pd, before 'plateauing' and then returning over a similar period to its original value, again without any correlation to TRAP activity. Such dissociations between telomere dynamics and telomerase activity support the existence of additional controls on telomere length in the intact cell. Our observations are consistent with current negative-feedback models of telomere length regulation by telomere binding proteins and these cell lines should prove useful experimental tools for their further evaluation.
KW - Crisis
KW - Immortalization
KW - Senescence
KW - Telomerase
KW - Telomeres
KW - Thyroid cancer
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U2 - 10.1006/excr.1998.3944
DO - 10.1006/excr.1998.3944
M3 - Article
C2 - 9597006
AN - SCOPUS:0031823739
SN - 0014-4827
VL - 240
SP - 333
EP - 339
JO - Experimental Cell Research
JF - Experimental Cell Research
IS - 2
ER -