Quantitative fluorescence in situ hybridization measurement of telomere length in skin with/without sun exposure or actinic keratosis

Summary Chromosomal and genomic instability due to telomere dysfunction is known to play an important role in carcinogenesis. To study telomere shortening in the epidermis surrounding actinic keratosis, we measured telomere lengths of basal, parabasal, and suprabasal cells in epidermis with actinic...

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Published in:Human pathology 2014-03, Vol.45 (3), p.473-480
Main Authors: Ikeda, Hiroyuki, MD, Aida, Junko, DDS, PhD, Hatamochi, Atsushi, MD, Hamasaki, Yoichiro, MD, Izumiyama-Shimomura, Naotaka, MD, Nakamura, Ken-ichi, PhD, Ishikawa, Naoshi, MD, Poon, Steven S., PhD, Fujiwara, Mutsunori, MD, Tomita, Ken-ichiro, MT, Hiraishi, Naoki, MT, Kuroiwa, Mie, PhD, Matsuura, Masaaki, PhD, Sanada, Yukihiro, MD, Kawano, Youichi, MD, Arai, Tomio, MD, Takubo, Kaiyo, MD
Format: Article
Language:English
Subjects:
Actinic keratosis
Aged
Aging
Chromosomes
Cysts
Dermis
Epidermis
Female
Humans
Hybridization
In Situ Hybridization, Fluorescence - methods
Keratosis, Actinic - genetics
Keratosis, Actinic - metabolism
Keratosis, Actinic - pathology
Male
Middle Aged
Outdoors
Pathology
Photoaging
Q-FISH
Skin - metabolism
Skin - pathology
Skin Aging - genetics
Skin Aging - pathology
Telomerase
Telomere
Telomere - metabolism
Telomere - pathology
Telomere Shortening - genetics
Tumorigenesis
Tumors
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Summary:Summary Chromosomal and genomic instability due to telomere dysfunction is known to play an important role in carcinogenesis. To study telomere shortening in the epidermis surrounding actinic keratosis, we measured telomere lengths of basal, parabasal, and suprabasal cells in epidermis with actinic keratosis (actinic keratosis group, n = 18) and without actinic keratosis (sun-protected, n = 15, and sun-exposed, n = 13 groups) and in actinic keratosis itself as well as in dermal fibroblasts in the 3 groups, using quantitative fluorescence in situ hybridization. Among the 3 cell types, telomeres of basal cells were not always the longest, suggesting that tissue stem cells are not necessarily located among basal cells. Telomeres of basal cells in the sun-exposed group were shorter than those in the sun-protected group. Telomeres in the background of actinic keratosis and in actinic keratosis itself and those of fibroblasts in actinic keratosis were significantly shorter than those in the controls. Our findings demonstrate that sun exposure induces telomere shortening and that actinic keratosis arises from epidermis with shorter telomeres despite the absence of any histologic atypia.
ISSN:0046-8177
1532-8392
DOI:10.1016/j.humpath.2013.10.009