BIOMAT Database Logo BIOMAT Database Logo

Interaction of IGF signaling and the androgen receptor in prostate cancer progression. 2006

Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
Department of Medicine, University of Washington, Seattle, Washington, USA.

The insulin-like growth factor type I receptor (IGF-IR) has been suggested to play an important role in prostate cancer progression and possibly in the progression to androgen-independent (AI) disease. The term AI may not be entirely correct, in that recent data suggest that expression of androgen receptor (AR) and androgen-regulated genes is the primary association with prostate cancer progression after hormone ablation. Therefore, signaling through other growth factors has been thought to play a role in AR-mediated prostate cancer progression to AI disease in the absence of androgen ligand. However, existing data on how IGF-IR signaling interacts with AR activation in prostate cancer are conflicting. In this Prospect article, we review some of the published data on the mechanisms of IGF-IR/AR interaction and present new evidence that IGF-IR signaling may modulate AR compartmentation and thus alter AR activity in prostate cancer cells. Inhibition of IGF-IR signaling can result in cytoplasmic AR retention and a significant change in androgen-regulated gene expression. Translocation of AR from the cytoplasm to the nucleus may be associated with IGF-induced dephosphorylation. Since fully humanized antibodies targeting the IGF-IR are now in clinical trials, the current review is intended to reveal the mechanisms of potential therapeutic effects of these antibodies on AI prostate cancers.

UI MeSH Term Description Entries
D007334 Insulin-Like Growth Factor I A well-characterized basic peptide believed to be secreted by the liver and to circulate in the blood. It has growth-regulating, insulin-like, and mitogenic activities. This growth factor has a major, but not absolute, dependence on GROWTH HORMONE. It is believed to be mainly active in adults in contrast to INSULIN-LIKE GROWTH FACTOR II, which is a major fetal growth factor. IGF-I,Somatomedin C,IGF-1,IGF-I-SmC,Insulin Like Growth Factor I,Insulin-Like Somatomedin Peptide I,Insulin Like Somatomedin Peptide I
D008297 Male Males
D009376 Neoplasms, Hormone-Dependent Certain tumors that 1, arise in organs that are normally dependent on specific hormones and 2, are stimulated or caused to regress by manipulation of the endocrine environment. Hormone-Dependent Neoplasms,Hormone Dependent Neoplasms,Hormone-Dependent Neoplasm,Neoplasm, Hormone-Dependent,Neoplasms, Hormone Dependent
D011471 Prostatic Neoplasms Tumors or cancer of the PROSTATE. Cancer of Prostate,Prostate Cancer,Cancer of the Prostate,Neoplasms, Prostate,Neoplasms, Prostatic,Prostate Neoplasms,Prostatic Cancer,Cancer, Prostate,Cancer, Prostatic,Cancers, Prostate,Cancers, Prostatic,Neoplasm, Prostate,Neoplasm, Prostatic,Prostate Cancers,Prostate Neoplasm,Prostatic Cancers,Prostatic Neoplasm
D011944 Receptors, Androgen Proteins, generally found in the CYTOPLASM, that specifically bind ANDROGENS and mediate their cellular actions. The complex of the androgen and receptor migrates to the CELL NUCLEUS where it induces transcription of specific segments of DNA. Androgen Receptors,5 alpha-Dihydrotestosterone Receptor,Androgen Receptor,Dihydrotestosterone Receptors,Receptor, Testosterone,Receptors, Androgens,Receptors, Dihydrotestosterone,Receptors, Stanolone,Stanolone Receptor,Testosterone Receptor,5 alpha Dihydrotestosterone Receptor,Androgens Receptors,Receptor, 5 alpha-Dihydrotestosterone,Receptor, Androgen,Receptor, Stanolone,Stanolone Receptors,alpha-Dihydrotestosterone Receptor, 5
D002471 Cell Transformation, Neoplastic Cell changes manifested by escape from control mechanisms, increased growth potential, alterations in the cell surface, karyotypic abnormalities, morphological and biochemical deviations from the norm, and other attributes conferring the ability to invade, metastasize, and kill. Neoplastic Transformation, Cell,Neoplastic Cell Transformation,Transformation, Neoplastic Cell,Tumorigenic Transformation,Cell Neoplastic Transformation,Cell Neoplastic Transformations,Cell Transformations, Neoplastic,Neoplastic Cell Transformations,Neoplastic Transformations, Cell,Transformation, Cell Neoplastic,Transformation, Tumorigenic,Transformations, Cell Neoplastic,Transformations, Neoplastic Cell,Transformations, Tumorigenic,Tumorigenic Transformations
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D013002 Somatomedins Insulin-like polypeptides made by the liver and some fibroblasts and released into the blood when stimulated by SOMATOTROPIN. They cause sulfate incorporation into collagen, RNA, and DNA synthesis, which are prerequisites to cell division and growth of the organism. Sulfation Factor,Somatomedin,Factor, Sulfation
D014183 Transplantation, Heterologous Transplantation between animals of different species. Xenotransplantation,Heterograft Transplantation,Heterografting,Heterologous Transplantation,Xenograft Transplantation,Xenografting,Transplantation, Heterograft,Transplantation, Xenograft

Related Publications

Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
Androgen receptor signaling in prostate cancer development and progression.
January 2011, Journal of carcinogenesis,
Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
[The mechanism of progression without androgen receptor interaction in prostate cancer].
January 2016, Nihon rinsho. Japanese journal of clinical medicine,
Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
CAMK2N1 inhibits prostate cancer progression through androgen receptor-dependent signaling.
November 2014, Oncotarget,
Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
Targeting androgen receptor and JunD interaction for prevention of prostate cancer progression.
May 2014, The Prostate,
Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
Androgen receptor signaling in androgen-refractory prostate cancer.
November 2001, Journal of the National Cancer Institute,
Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
Androgen receptor signaling in prostate cancer.
September 2014, Cancer metastasis reviews,
Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
Clostridium scindens metabolites trigger prostate cancer progression through androgen receptor signaling.
April 2023, Journal of microbiology, immunology, and infection = Wei mian yu gan ran za zhi,
Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
[Androgen receptor mutation and progression of prostate cancer].
July 2011, Zhonghua nan ke xue = National journal of andrology,
Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
BRD9 Is a Critical Regulator of Androgen Receptor Signaling and Prostate Cancer Progression.
February 2021, Cancer research,
Jennifer D Wu, and Kathy Haugk, and Libby Woodke, and Peter Nelson, and Ilsa Coleman, and Stephen R Plymate
Androgen receptor involvement in the progression of prostate cancer.
June 2003, Endocrine-related cancer,
Copied contents to your clipboard!