Telomerase activity of normal tissues and neoplasms in rat colon carcinogenesis induced by methylazoxymethanol acetate and its difference from that of human …

N Yoshimi, N Ino, M Suzui, A Hara… - … in cooperation with …, 1996 - Wiley Online Library
N Yoshimi, N Ino, M Suzui, A Hara, K Nakatani, S Sato, H Mori
Molecular Carcinogenesis: Published in cooperation with the …, 1996Wiley Online Library
Telomerase activity in tissues may be related to tumor development, especially malignant
conversion, in humans. However, there are few reports about telomeres and telomerase
activity in animals. In this study, we examined telomerase activity in rat colon carcinogenesis
and in normal rat liver tissue and compared it with that of human colon cancer tissues. This
is the first report concerning telomerase activity in rats. F344 rats were used, and colon
neoplasms were induced with methylazoxymethanol acetate. There was telomerase activity …
Abstract
Telomerase activity in tissues may be related to tumor development, especially malignant conversion, in humans. However, there are few reports about telomeres and telomerase activity in animals. In this study, we examined telomerase activity in rat colon carcinogenesis and in normal rat liver tissue and compared it with that of human colon cancer tissues. This is the first report concerning telomerase activity in rats. F344 rats were used, and colon neoplasms were induced with methylazoxymethanol acetate. There was telomerase activity in not only the induced colon neoplasms but also the colon mucosa and livers of untreated rats, in contrast with the results from normal human somatic tissues in previous reports. Indeed, we also observed negative results in normal human mucosa, despite the positive results in colon‐cancer tissues. These findings suggest that there is a difference in the telomerase activities in humans and rats. Because rat telomeres are very long (20–100 kp, average 50 kp) compared with human telomeres (5–15 kp, average 12 kp), the difference in the telomere lengths of rats and humans might be related to their enzyme activities, although this is still unclear. Furthermore, because the inhibition of telomerase has been proposed as a novel cancer therapy for humans, the rat model presented here, in which telomerase is expressed in somatic tissues, may be useful for studies of telomerase inhibition, including inhibition by chemopreventive agents. © 1996 Wiley‐Liss, Inc.
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