Excess growth hormone suppresses DNA damage repair in epithelial cells
Vera Chesnokova, Svetlana Zonis, Robert Barrett, Hiraku Kameda, Kolja Wawrowsky, Anat Ben-Shlomo, Masaaki Yamamoto, John Gleeson, Catherine Bresee, Vera Gorbunova, Shlomo Melmed
Vera Chesnokova, Svetlana Zonis, Robert Barrett, Hiraku Kameda, Kolja Wawrowsky, Anat Ben-Shlomo, Masaaki Yamamoto, John Gleeson, Catherine Bresee, Vera Gorbunova, Shlomo Melmed
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Research Article Endocrinology

Excess growth hormone suppresses DNA damage repair in epithelial cells

Abstract

Growth hormone (GH) decreases with age, and GH therapy has been advocated by some to sustain lean muscle mass and vigor in aging patients and advocated by athletes to enhance performance. Environmental insults and aging lead to DNA damage, which — if unrepaired — results in chromosomal instability and tumorigenesis. We show that GH suppresses epithelial DNA damage repair and blocks ataxia telangiectasia mutated (ATM) kinase autophosphorylation with decreased activity. Decreased phosphorylation of ATM target proteins p53, checkpoint kinase 2 (Chk2), and histone 2A variant led to decreased DNA repair by nonhomologous end-joining. In vivo, prolonged high GH levels resulted in a 60% increase in unrepaired colon epithelial DNA damage. GH suppression of ATM was mediated by induced tripartite motif containing protein 29 (TRIM29) and attenuated tat interacting protein 60 kDa (Tip60). By contrast, DNA repair was increased in human nontumorous colon cells (hNCC) where GH receptor (GHR) was stably suppressed and in colon tissue derived from GHR–/– mice. hNCC treated with etoposide and GH showed enhanced transformation, as evidenced by increased growth in soft agar. In mice bearing human colon GH-secreting xenografts, metastatic lesions were increased. The results elucidate a mechanism underlying GH-activated epithelial cell transformation and highlight an adverse risk for inappropriate adult GH treatment.

Authors

Vera Chesnokova, Svetlana Zonis, Robert Barrett, Hiraku Kameda, Kolja Wawrowsky, Anat Ben-Shlomo, Masaaki Yamamoto, John Gleeson, Catherine Bresee, Vera Gorbunova, Shlomo Melmed

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Figure 3

GH suppresses DDR in hNCC by inducing TRIM29 and suppressing Tip60.

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GH suppresses DDR in hNCC by inducing TRIM29 and suppressing Tip60. (A a...
(A and B) hNCC were pretreated with 500 ng/ml GH and treated with 5 μM etoposide. Western blots of TRIM29 and Tip60 in hNCC harvested 24 hours (A) or 1 and 3 hours (B) after etoposide treatment. Shown are representative blots from at least 3 independent experiments. Quantification of protein expression is depicted in Supplemental Figure 4. (C and D) Three-dimensional intestinal organoids were pretreated with 500 ng/ml GH overnight, treated with etoposide for 24 hours, and harvested. Western blots of (C) TRIM29 and Tip60 and (D) DDR. Shown are representative blots from 3 independent experiments. Quantification of protein expression is depicted in Supplemental Figure 7. (E) Comet assay of organoids pretreated with 500 ng/ml GH, treated with 3 or 5 μM etoposide for 24 hours, and harvested. Results shown are mean ± SEM of 3 independent experiments. Differences were assessed with Tukey-adjusted mixed model regression. Control, untreated organoids. **P < 0.01 vs. control.