Disruption of growth hormone signaling retards early stages of prostate carcinogenesis in the C3(1)/T antigen mouse.

Recent epidemiological studies suggest that elevated serum titers of IGF-I, which are, to a large degree, regulated by GH, are associated with an increase in prostate cancer risk. The purpose of the current study was to develop the first animal models to directly test the hypothesis that a normal, functional GH/IGF-I axis is required for prostate cancer progression. The GH receptor (GHR) gene-disrupted mouse (Ghr(-/-)), which has less than 10% of the plasma IGF-I found in GHR wild-type mice, was crossed with the C3(1)/T antigen (Tag) mouse, which develops prostatic intraepithelial neoplasia driven by the large Tag that progress to invasive prostate carcinoma in a manner similar to the process observed in humans. Progeny of this cross were genotyped and Tag/Ghr(+/+) and Tag/Ghr(-/-) mice were killed at 9 months of age. Seven of eight Tag/Ghr(+/+) mice harbored prostatic intraepithelial neoplasia lesions of various grades. In contrast, only one of the eight Tag/Ghr(-/-) mice exhibited atypia (P < 0.01, Fischer's exact test). Disruption of the GHR gene altered neither prostate androgen receptor expression nor serum testosterone titers. Expression of the Tag oncogene was similar in the prostates of the two mouse strains. Immunohistochemistry revealed a significant decrease in prostate epithelial cell proliferation and an increase in basal apoptotic indices. These results indicate that disruption of GH signaling significantly inhibits prostate carcinogenesis.

[1]  H. Schünemann,et al.  Basal growth hormone concentrations in blood and the risk for prostate cancer: A case‐control study , 2005, The Prostate.

[2]  B. G. Blijenberg,et al.  Circulating free insulin-like growth factor (IGF)-I, total IGF-I, and IGF binding protein-3 levels do not predict the future risk to develop prostate cancer: results of a case-control study involving 201 patients within a population-based screening with a 4-year interval. , 2004, The Journal of clinical endocrinology and metabolism.

[3]  Matthias Egger,et al.  Insulin-like growth factor (IGF)-I, IGF binding protein-3, and cancer risk: systematic review and meta-regression analysis , 2004, The Lancet.

[4]  M. Rubin,et al.  Prostate Pathology of Genetically Engineered Mice: Definitions and Classification. The Consensus Report from the Bar Harbor Meeting of the Mouse Models of Human Cancer Consortium Prostate Pathology Committee , 2004, Cancer Research.

[5]  T. Peters,et al.  Screen‐detected prostate cancer and the insulin‐like growth factor axis: Results of a population‐based case‐control study , 2004, International journal of cancer.

[6]  J. Witte,et al.  Relation of serum insulin-like growth factor-I (IGF-I) and IGF binding protein-3 to risk of prostate cancer (United States) , 2003, Cancer Causes & Control.

[7]  D. Albanes,et al.  Serum insulin-like growth factor I: tumor marker or etiologic factor? A prospective study of prostate cancer among Finnish men. , 2003, Cancer research.

[8]  P. Kelly,et al.  Prostate development and carcinogenesis in prolactin receptor knockout mice. , 2003, Endocrinology.

[9]  M. Stampfer,et al.  Insulin-like growth factor-I (IGF-I) and IGF binding protein-3 as predictors of advanced-stage prostate cancer. , 2002, Journal of the National Cancer Institute.

[10]  C. Mantzoros,et al.  The Role of the IGF System in Cancer: From Basic to Clinical Studies and Clinical Applications , 2002, Oncology.

[11]  R. Shi,et al.  Insulin-like growth factor-I and prostate cancer: a meta-analysis , 2001, British Journal of Cancer.

[12]  M. Pollak,et al.  Insulin-like Growth Factors and Prostate Cancer , 2001, Cancer and Metastasis Reviews.

[13]  A. Scorilas,et al.  The Journal of Clinical Endocrinology & Metabolism Printed in U.S.A. Copyright © 2001 by The Endocrine Society Insulin-Like Growth Factor I (IGF-I) and IGF-Binding Protein-3 in Benign Prostatic Hyperplasia and Prostate Cancer , 2022 .

[14]  E. Riboli,et al.  Plasma insulin-like growth factor-I, insulin-like growth factor-binding proteins, and prostate cancer risk: a prospective study. , 2000, Journal of the National Cancer Institute.

[15]  C. Mantzoros,et al.  Can measurements of IGF-1 and IGFBP-3 improve the sensitivity of prostate-cancer screening? , 2000, The Lancet.

[16]  E. Metter,et al.  Serum levels of insulin-like growth factor I (IGF-I), IGF-II, IGF-binding protein-3, and prostate-specific antigen as predictors of clinical prostate cancer. , 2000, The Journal of clinical endocrinology and metabolism.

[17]  A. Schally,et al.  Peptide analogs in the therapy of prostate cancer , 2000, The Prostate.

[18]  P. Marzullo,et al.  The Journal of Clinical Endocrinology & Metabolism Printed in U.S.A. Copyright © 2000 by The Endocrine Society Effect of Two Years of Growth Hormone and Insulin-Like Growth Factor-I Suppression on Prostate Diseases in , 2022 .

[19]  T. Tammela,et al.  Insulin-like growth factor I is not a useful marker of prostate cancer in men with elevated levels of prostate-specific antigen. , 2000, The Journal of clinical endocrinology and metabolism.

[20]  P. Marzullo,et al.  Effect of GH and/or testosterone deficiency on the prostate: an ultrasonographic and endocrine study in GH-deficient adult patients. , 2000, European journal of endocrinology.

[21]  D. Bostwick Prostatic intraepithelial neoplasia , 2000, Current urology reports.

[22]  Cheryl Jorcyk,et al.  The C3(1)/SV40 T-antigen transgenic mouse model of mammary cancer: ductal epithelial cell targeting with multistage progression to carcinoma , 2000, Oncogene.

[23]  G. Aumüller,et al.  The significance of serum levels of insulin‐like growth factor‐1 in patients with prostate cancer , 2000, BJU international.

[24]  P. Marzullo,et al.  Effect of growth hormone (GH) and insulin-like growth factor I on prostate diseases: an ultrasonographic and endocrine study in acromegaly, GH deficiency, and healthy subjects. , 1999, The Journal of clinical endocrinology and metabolism.

[25]  Dalgleish,et al.  Serum insulin‐like growth factor‐1 is not a useful marker of prostate cancer , 1999, BJU international.

[26]  A. Bartke,et al.  Pituitary and testicular function in growth hormone receptor gene knockout mice. , 1999, Endocrinology.

[27]  C. Schaefer,et al.  IGF-I and Prostate Cancer , 1998, Science.

[28]  C. Mantzoros,et al.  Insulin-like growth factor 1 and prostate cancer risk: a population-based, case-control study. , 1998, Journal of the National Cancer Institute.

[29]  Meir J. Stampfer,et al.  Plasma Insulin-Like Growth Factor-I and Prostate Cancer Risk: A Prospective Study , 1998 .

[30]  T. Wagner,et al.  A mammalian model for Laron syndrome produced by targeted disruption of the mouse growth hormone receptor/binding protein gene (the Laron mouse). , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[31]  A. Schally,et al.  Inhibition of in vivo proliferation of androgen-independent prostate cancers by an antagonist of growth hormone-releasing hormone. , 1997, British Journal of Cancer.

[32]  J. Ward,et al.  Progression of prostatic intraepithelial neoplasia to invasive carcinoma in C3(1)/SV40 large T antigen transgenic mice: histopathological and molecular biological alterations. , 1996, Cancer research.

[33]  E. Reiter,et al.  Growth hormone directly affects the function of the different lobes of the rat prostate. , 1995, Endocrinology.

[34]  J. Green,et al.  Prostate and mammary adenocarcinoma in transgenic mice carrying a rat C3(1) simian virus 40 large tumor antigen fusion gene. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[35]  G. Cunha,et al.  Assessment of prostatic protein secretion in tissue recombinants made of urogenital sinus mesenchyme and urothelium from normal or androgen-insensitive mice. , 1993, Endocrinology.

[36]  William I. Wood,et al.  Growth hormone receptor and serum binding protein: purification, cloning and expression , 1987, Nature.

[37]  D. Bostwick,et al.  Prostatic Intra‐Epithelial Neoplasia and Early Invasion in Prostate Cancer , 1987, Cancer.

[38]  A. Jemal,et al.  Cancer Statistics, 2005 , 2005, CA: a cancer journal for clinicians.

[39]  Noel S Weiss,et al.  Prostate carcinoma incidence in relation to prediagnostic circulating levels of insulin‐like growth factor I, insulin‐like growth factor binding protein 3, and insulin , 2005, Cancer.

[40]  C. Roberts IGF-1 and prostate cancer. , 2004, Novartis Foundation symposium.

[41]  A. Colao,et al.  Effect of growth hormone (GH) and/or testosterone replacement on the prostate in GH-deficient adult patients. , 2003, The Journal of clinical endocrinology and metabolism.

[42]  C. Mantzoros,et al.  Insulin-like growth factor 1 in relation to prostate cancer and benign prostatic hyperplasia. , 1997, British Journal of Cancer.