Macrophage/Cancer Cell Interactions Mediate Hormone Resistance by a Nuclear Receptor Derepression Pathway

Zhu, Ping; Baek, Sung Hee; Bourk, Eliot Michael; Ohgi, Kenneth A.; García-Bassets, Ivan; Sanjo, Hideki; Akira, Shizuo; Kotol, Paul; Glass, Christopher K.; Rosenfeld, Michael G.; Rose, David W.

doi:10.1016/j.cell.2005.12.032

Cited by 235 publications

(233 citation statements)

References 67 publications

(72 reference statements)

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“…In U2OS cells the activated form of MEKK1 was detected within the nucleus and the transcriptional coactivator p300 was directly phosphorylated by MEKK1 [44]. In response to IL-1β signalling, MEKK1 was shown to phosphorylate the nuclear TAK binding protein 2 (also known as TAB2), resulting in its conformational change and binding to the nuclear receptor corepressor, thereby leading to a disinhibition of androgen receptor activity [39]. Thus, MEKK1 might exert its effects on insulin gene transcription by acting directly on a transcription factor or accessory factor, without involvement of its downstream kinases.…”

Section: Discussionmentioning

confidence: 99%

“…IL-1β has been shown to enhance the activity of the mitogen-activated protein kinase kinase kinase [37][38][39]. The effect of IL-1β on the transcriptional activity of the INS promoter, the c-fos gene promoter and the RSV promoter was thus compared with the effect of MEKK1 on the activity of these promoters.…”

Section: Inhibition Of Human Insulin Gene Transcription By Mekk1mentioning

confidence: 99%

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Inhibition of MafA transcriptional activity and human insulin gene transcription by interleukin-1β and mitogen-activated protein kinase kinase kinase in pancreatic islet beta cells

et al. 2007

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Aims/hypothesis Inappropriate insulin secretion and biosynthesis are hallmarks of beta cell dysfunction and contribute to the progression from a prediabetic state to overt diabetes mellitus. During the prediabetic state, beta cells are exposed to elevated levels of proinflammatory cytokines. In the present study the effect of these cytokines and mitogen-activated protein kinase kinase kinase 1 (MEKK1), which is known to be activated by these cytokines, on human insulin gene (INS) transcription was investigated. Methods Biochemical methods and reporter gene assays were used in a beta cell line and in primary pancreatic islets from transgenic mice. Results IL-1β and MEKK1 specifically inhibited basal and membrane depolarisation and cAMP-induced INS transcription in the beta cell line. Also, in primary islets of reporter gene mice, IL-1β reduced glucose-stimulated INS transcription. A 5′-and 3′-deletion and internal mutation analysis revealed the rat insulin promoter element 3b (RIPE3b) to be a decisive MEKK1-responsive element of the INS. RIPE3b conferred strong transcriptional activity to a heterologous promoter, and this activity was markedly inhibited by MEKK1 and IL-1β. RIPE3b is also known to recruit the transcription factor MafA. We found here that MafA transcription activity is markedly inhibited by MEKK1 and IL-1β. Conclusions/interpretation These data suggest that IL-1β through MEKK1 inhibits INS transcription and does so, at least in part, by decreasing MafA transcriptional activity at the RIPE3b control element. Since inappropriate insulin biosynthesis contributes to beta cell dysfunction, inhibition of MEKK1 might decelerate or prevent progression from a prediabetic state to diabetes mellitus.

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Section: Discussionmentioning

confidence: 99%

Section: Inhibition Of Human Insulin Gene Transcription By Mekk1mentioning

confidence: 99%

Inhibition of MafA transcriptional activity and human insulin gene transcription by interleukin-1β and mitogen-activated protein kinase kinase kinase in pancreatic islet beta cells

et al. 2007

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“…For example, TAB2 was recently shown to interact with the AR NTD at residues 179-188 in response to IL-1␤ and induce a switch whereby antiandrogens were able to activate the AR (28). Steroid receptor coactivator-1 was also shown to bind the AR NTD and increase ligandindependent activation of the AR downstream of IL-6 (7).…”

Section: Discussionmentioning

confidence: 99%

Androgen receptor decoy molecules block the growth of prostate cancer

Quayle

Mawji

Wang

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

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The androgen receptor (AR) is activated by both ligand-dependent and -independent mechanisms. Current therapies for prostate cancer target the ligand-binding domain in the C terminus of the AR. However, ligand-independent activation of the AR occurs by the N-terminal domain (NTD), making the NTD a potential novel target for the treatment of hormone refractory prostate cancer. A possible therapeutic approach is to overexpress an AR NTD peptide to create decoy molecules that competitively bind the interacting proteins required for activation of the endogenous full-length AR. We provide evidence that in vivo expression of AR NTD decoys decreased tumor incidence and inhibited the growth of prostate cancer tumors. This growth inhibition was characterized by a 10-fold decrease in serum levels of prostate-specific antigen (PSA) (46.7 ng/ml ؎ 19.9 vs. 432.4 ng/ml ؎ 201.3; P ‫؍‬ 0.0299) and a 4-fold decrease in tumor volume (92.2 mm 3 ؎ 43.4 vs. 331.4 mm 3 ؎ 85.5; P ‫؍‬ 0.011). AR NTD decoy molecules also delayed hormonal progression, as determined by time to rising PSA levels after castration of the host. The tumors treated with AR NTD decoys contained more apoptotic cells and fewer proliferating cells, whereas no effect was seen on the viability of cells that did not depend on the AR. This work provides further evidence of the importance of the NTD of the AR in the progression of prostate cancer and presents a target for the development of antagonists of the AR in the clinical management of this disease.N-terminal domain ͉ steroid receptor ͉ ligand-independent activation ͉ androgen independent ͉ homone refractory

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“…For carcinoma of the prostate, which is an androgen-dependent tumour, sensitivity to stimulation with hormones is regulated by selective androgen-receptor modulators. The inflammatory cytokine IL-1β, which is produced by macrophages in the tumour microenvironment, converts these receptor modulators from being inhibitory to stimulatory 60 . It has long been known that females are less susceptible to cancer at sites, such as the liver, that are not conventional target organs of sex steroid hormones.…”

Section: Cancer-related Inflammation and Sex Hormonesmentioning

confidence: 99%

Cancer-related inflammation

Mantovani

Allavena

Sica

et al. 2008

Nature

9,762

112

7,934

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Links between cancer and inflammation were first made in the nineteenth century, on the basis of observations that tumours often arose at sites of chronic inflammation and that inflammatory cells were present in biopsied samples from tumours 1 . The idea that these processes are connected was out of favour for more than a century, but there has been a recent resurgence in interest. Several lines of evidence 1-4 (Box 1) -based on a range of findings, from epidemiological studies of patients to molecular studies of genetically modified mice -have led to a general acceptance that inflammation and cancer are linked.Epidemiological studies have shown that chronic inflammation predisposes individuals to various types of cancer. It is estimated that underlying infections and inflammatory responses are linked to 15-20% of all deaths from cancer worldwide 1 . There are many triggers of chronic inflammation that increase the risk of developing cancer. Such triggers include microbial infections (for example, infection with Helicobacter pylori is associated with gastric cancer and gastric mucosal lymphoma), autoimmune diseases (for example, inflammatory bowel disease is associated with colon cancer) and inflammatory conditions of unknown origin (for example, prostatitis is associated with prostate cancer). Accordingly, treatment with non-steroidal anti-inflammatory agents decreases the incidence of, and the mortality that results from, several tumour types [5][6][7] .The hallmarks of cancer-related inflammation include the presence of inflammatory cells and inflammatory mediators (for example, chemokines, cytokines and prostaglandins) in tumour tissues, tissue remodelling and angiogenesis similar to that seen in chronic inflammatory responses, and tissue repair. These signs of 'smouldering' inflammation 2 are also present in tumours for which a firm causal relationship to inflammation has not been established (for example, breast tumours). Indeed, inflammatory cells and mediators are present in the microenvironment of most, if not all, tumours, irrespective of the trigger for development.Studies of genetically modified mice, adoptive-transfer experiments in mice, and analyses of human tumours have allowed researchers to begin to unravel the molecular pathways that link inflammation and cancer. Here we review current knowledge of the molecular and cellular pathways that link inflammation and cancer, and we describe how these pathways suppress effective antitumour immunity during tumour progression. We also discuss how cancer-related inflammation affects many aspects of malignancy, including the proliferation and survival of malignant cells, angiogenesis (which is required for the survival of cells within tumours of a certain size), tumour metastasis, and tumour response to chemotherapeutic drugs and hormones.Advances in understanding the genetic pathways involved in cancer have led to the development of a range of therapies that target malignant cells. Understanding the pathways involved in cancer-related inflammation could ...

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Macrophage/Cancer Cell Interactions Mediate Hormone Resistance by a Nuclear Receptor Derepression Pathway

Cited by 235 publications

References 67 publications

Inhibition of MafA transcriptional activity and human insulin gene transcription by interleukin-1β and mitogen-activated protein kinase kinase kinase in pancreatic islet beta cells

Inhibition of MafA transcriptional activity and human insulin gene transcription by interleukin-1β and mitogen-activated protein kinase kinase kinase in pancreatic islet beta cells

Androgen receptor decoy molecules block the growth of prostate cancer

Cancer-related inflammation

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