Sophie Bartsch scite author profile

BackgroundProstate cancer (PCa) is the second leading cause of cancer mortality of men in Western countries. The androgen receptor (AR) and AR-agonists (androgens) are required for the development and progression of the normal prostate as well as PCa. However, it is discussed that in addition to their tumor promoting activity, androgens may also exhibit tumor suppressive effects. A biphasic growth response to androgens a growth-promoting and -inhibition has been observed that suggests that administration of supraphysiological androgen levels mediates growth reduction in AR expressing PCa cells.MethodsDetection of senescence markers, three dimensional interphase fluorescence in situ hybridization (3D-iFISH), qRT-PCR, Western blotting, detection of GFP fusions, prostatectomy, ex vivo culturing.ResultsHere, we describe that supraphysiological levels of androgens induce cell cycle arrest and markers of cellular senescence in human PCa cells, which may in part explain the growth inhibitory role of androgens. The expression of the senescence associated beta galactosidase is observed by treatment with the natural androgen DHT or the less metabolized synthetic androgen R1881. The induction of senescence marker was detected in human PCa cell lines as well as in human primary PCa tissue derived from prostatectomy treated ex vivo. Using interphase FISH (iFISH) suggests that the androgen-induced cellular senescence is associated with localizing the genomic E2F1 locus to senescence associated heterochromatic foci. Analysis of different signaling pathways in LNCaP cells suggest that the p16-Rb-E2F1 pathway is essential for the induction of cellular senescence since treatment with siRNA directed against p16 reduces the level of androgen-induced cellular senescence. Based on the rapid induction of androgen-mediated cellular senescence we identified the Src-PI3K-Akt-signaling pathway and autophagy being in part involved in androgen regulation.ConclusionsTaken together, our data suggest that AR-agonists at supraphysiological levels mediate induction of cellular senescence in human PCa cells, which may have a protective anti-cancer role. These results provide also new insights for understanding androgen-mediated regulation of PCa growth.Electronic supplementary materialThe online version of this article (doi:10.1186/1476-4598-13-214) contains supplementary material, which is available to authorized users.

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Mutations in the Heme Exporter FLVCR1 Cause Sensory Neurodegeneration with Loss of Pain Perception

Chiabrando

Castori

Rocco

et al. 2016

PLoS Genet

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Pain is necessary to alert us to actual or potential tissue damage. Specialized nerve cells in the body periphery, so called nociceptors, are fundamental to mediate pain perception and humans without pain perception are at permanent risk for injuries, burns and mutilations. Pain insensitivity can be caused by sensory neurodegeneration which is a hallmark of hereditary sensory and autonomic neuropathies (HSANs). Although mutations in several genes were previously associated with sensory neurodegeneration, the etiology of many cases remains unknown. Using next generation sequencing in patients with congenital loss of pain perception, we here identify bi-allelic mutations in the FLVCR1 (Feline Leukemia Virus subgroup C Receptor 1) gene, which encodes a broadly expressed heme exporter. Different FLVCR1 isoforms control the size of the cytosolic heme pool required to sustain metabolic activity of different cell types. Mutations in FLVCR1 have previously been linked to vision impairment and posterior column ataxia in humans, but not to HSAN. Using fibroblasts and lymphoblastoid cell lines from patients with sensory neurodegeneration, we here show that the FLVCR1-mutations reduce heme export activity, enhance oxidative stress and increase sensitivity to programmed cell death. Our data link heme metabolism to sensory neuron maintenance and suggest that intracellular heme overload causes early-onset degeneration of pain-sensing neurons in humans.

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Exploratory investigation of eight circulating plasma markers in brain tumor patients

et al. 2012

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Several blood biomarkers have been established for the early diagnosis, screening and follow-up of non central nervous system cancers. However, there is lack of knowledge on biochemical blood alterations in brain tumor patients. In this study, we prospectively collected blood plasma samples of 105 adult brain tumor patients with diffuse low-grade glioma (World Health Organization (WHO) II, n = 7), anaplastic glioma (WHO III, n = 10), glioblastoma multiforme (WHO IV, glioblastoma multiforme (GBM)) (n = 34), meningioma (WHO I, n = 8), atypical meningioma (WHO II, n = 5), and intracerebral metastasis (ICM; n = 41). In each case, we measured plasma concentrations of neuropeptide Y, brain-derived neurotrophic factor, glial cell line-derived neurotrophic factor, placental growth factor (PlGF), S100B, secretagogin, interleukin 8, and glial fibrillary acidic protein (GFAP) using enzyme-linked immunosorbent assay. Plasma marker concentrations were correlated to patient parameters including neuropathological diagnosis and neuroradiological features. Most of the markers were detectable in all diagnostic categories in variable concentrations. GFAP plasma detectability was strongly associated with a diagnosis of GBM (p < 0.001). Plasma GFAP and plasma placental growth factor showed promising moderate potential in the differential diagnosis of unifocal GBM versus unifocal supratentorial ICM (area under the curve = 0.73, p < 0.05). To summarize, our data show that none of the investigated markers is suitable to substitute histological diagnosis. However, measurement of circulating GFAP and PlGF may support neuroradiological differential diagnosis of GBM versus ICM.

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A Natural Androgen Receptor Antagonist Induces Cellular Senescence in Prostate Cancer Cells

Hessenkemper

Roediger

Bartsch

et al. 2014

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We have previously identified a natural occurring, androgen receptor-specific antagonist. Atraric acid (AA) inhibits the transactivation of the androgen receptor (AR) and androgen-mediated growth of AR-expressing human prostate cancer (PCa) cell lines. Here we show that AA treatment of living cells provokes molecular changes of AR signaling. In addition to a deceleration of nuclear translocation a block of the intramolecular amino/carboxy (N/C)-terminal interaction of the AR was observed. Furthermore, using high-resolution confocal fluorescence microscopy, a reduced speckle formation of the AR was observed in line with an increased intranuclear mobility of the receptor. This suggests decreased DNA binding of the AR, which is further indicated by an impaired chromatin recruitment of the AR to the prostate-specific antigen promoter and enhancer shown by chromatin immunoprecipitation experiments. Using inhibitors of the non-receptor tyrosine kinase Src or Akt, known interaction partners of AR, reduced the level of androgen-induced cellular senescence suggesting a partly non-genomic pathway to induce cellular senescence by AA. Using PP2 (4-Amino-5-(4-chlorophenyl)-7-(t-butyl)pyrazolo[3,4-d]pyrimidine) pyrimidine or Akt inhibitors, inhibitors of the nonreceptor tyrosine kinase Src or Akt, known interaction partners of AR, reduced the level of androgen-induced cellular senescence, suggesting a partly nongenomic pathway to induce cellular senescence by AA. Treatment of LNCaP cells with AA is associated with hypophosphorylation of the retinoblastoma tumor suppressor and an increase of p16 expression, whereas the p53-p21 signaling pathway seems not be affected by AA treatment. Analyzing human PCa tissue samples treated with AA ex vivo also indicates an induction of cellular senescence associated with an increase of p16 expression but not p21. Taken together, these data indicate that AA exhibits novel features to inhibit AR amino/carboxy-terminal interaction, the AR-mediated nuclear activities and growth of PCa cells.

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Androgen receptor-mediated gene repression

Grosse

Bartsch

Baniahmad

2012

Molecular and Cellular Endocrinology

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Antithetic hTERT Regulation by Androgens in Prostate Cancer Cells: hTERT Inhibition Is Mediated by the ING1 and ING2 Tumor Suppressors

Bartsch

Mirzakhani

Stenzel

et al. 2021

Cancers

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The human telomerase is a key factor during tumorigenesis in prostate cancer (PCa). The androgen receptor (AR) is a key drug target controlling PCa growth and regulates hTERT expression, but is described to either inhibit or to activate. Here, we reveal that androgens repress and activate hTERT expression in a concentration-dependent manner. Physiological low androgen levels activate, while, notably, supraphysiological androgen levels (SAL), used in bipolar androgen therapy (BAT), repress hTERT expression. We confirmed the SAL-mediated gene repression of hTERT in PCa cell lines, native human PCa samples derived from patients treated ex vivo, as well as in cancer spheroids derived from androgen-dependent or castration resistant PCa (CRPC) cells. Interestingly, chromatin immuno-precipitation (ChIP) combined with functional assays revealed a positive (pARE) and a negative androgen response element (nARE). The nARE was narrowed down to 63 bp in the hTERT core promoter region. ARs and tumor suppressors, inhibitors of growths 1 and 2 (ING1 and ING2, respectively), are androgen-dependently recruited. Mechanistically, knockdown indicates that ING1 and ING2 mediate AR-regulated transrepression. Thus, our data suggest an oppositional, biphasic function of AR to control the hTERT expression, while the inhibition of hTERT by androgens is mediated by the AR co-repressors ING1 and ING2.

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Halogen-substituted anthranilic acid derivatives provide a novel chemical platform for androgen receptor antagonists

Roell

Rösler

Hessenkemper

et al. 2019

The Journal of Steroid Biochemistry and Molecular Biology

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ProstaTrend—A Multivariable Prognostic RNA Expression Score for Aggressive Prostate Cancer

et al. 2020

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Sophie Bartsch

Supraphysiological androgen levels induce cellular senescence in human prostate cancer cells through the Src-Akt pathway

Mutations in the Heme Exporter FLVCR1 Cause Sensory Neurodegeneration with Loss of Pain Perception

Exploratory investigation of eight circulating plasma markers in brain tumor patients

A Natural Androgen Receptor Antagonist Induces Cellular Senescence in Prostate Cancer Cells

Androgen receptor-mediated gene repression

Antithetic hTERT Regulation by Androgens in Prostate Cancer Cells: hTERT Inhibition Is Mediated by the ING1 and ING2 Tumor Suppressors

Halogen-substituted anthranilic acid derivatives provide a novel chemical platform for androgen receptor antagonists

ProstaTrend—A Multivariable Prognostic RNA Expression Score for Aggressive Prostate Cancer

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