Michelle Shen scite author profile

Resistance to androgen deprivation therapy, or castration-resistant prostate cancer (CRPC), is often accompanied by metastasis and is currently the ultimate cause of prostate cancer-associated deaths in men. Recently, secondary hormonal therapies have led to an increase of neuroendocrine prostate cancer (NEPC), a highly aggressive variant of CRPC. Here, we identify that high levels of cell surface receptor Trop2 are predictive of recurrence of localized prostate cancer. Moreover, Trop2 is significantly elevated in CRPC and NEPC, drives prostate cancer growth, and induces neuroendocrine phenotype. Overexpression of Trop2 induces tumor growth and metastasis while loss of Trop2 suppresses these abilities in vivo. Trop2-driven NEPC displays a significant up-regulation of PARP1, and PARP inhibitors significantly delay tumor growth and metastatic colonization and reverse neuroendocrine features in Trop2-driven NEPC. Our findings establish Trop2 as a driver and therapeutic target for metastatic prostate cancer with neuroendocrine phenotype and suggest that high Trop2 levels could identify cancers that are sensitive to Trop2-targeting therapies and PARP1 inhibition.

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Inecalcitol, an analog of 1α,25(OH)₂D₃, induces growth arrest of androgen‐dependent prostate cancer cells

Okamoto

Delansorne

Wakimoto

et al. 2011

Intl Journal of Cancer

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19-nor-14-epi-23-yne-1,25(OH)2D3 (inecalcitol) is a unique vitamin D3 analog. We evaluated theactivity of inecalcitol in a human prostate cancer model system. The analog was 11-fold more potent than 1,25(OH)2D3 in causing 50% clonal growth inhibition of androgen-sensitive human prostate cancer LNCaP cells. Inecalcitol, more than 1,25(OH)2D3, reduced in a dose-dependent manner the expression levels of the transcription factor ETV1 and the serine/threonine protein kinase Pim-1, both of which are up-regulated in prostate cancer. Remarkably, dose challenge experiments revealed that inecalcitol maximum tolerated dose (MTD) by intraperitoneal (i.p.) administration was 30 μg/mouse (1,300 μg/kg) three times per week, while we previously found that the MTD of 1,25(OH)2D3 is 0.0625 μg/mouse; therefore, inecalcitol is 480 times less hypercalcemic than 1,25(OH)2D3. Pharmacokinetic studies showed that plasma half-life of inecalcitol was 18.3 minutes in mice. A xenograft model of LNCaP cells was developed in immunodeficient mice treated with inecalcitol. The tumors of the diluent-treated control mice increased in size but those in the inecalcitol treatment group did not grow. Our data suggest that inecalcitol inhibits androgen-responsive prostate cancer growth in vivo and should be examined either alone or with other chemotherapy in clinical trials in individuals with rising serum prostate-specific antigen (PSA) after receiving either surgery or irradiation therapy with curative intent.

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Oncogene-mediated metabolic gene signature predicts breast cancer outcome

et al. 2021

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Breast cancer remains the second most lethal cancer among women in the United States and triple-negative breast cancer is the most aggressive subtype with limited treatment options. Trop2, a cell membrane glycoprotein, is overexpressed in almost all epithelial cancers. In this study, we demonstrate that Trop2 is overexpressed in triple-negative breast cancer (TNBC), and downregulation of Trop2 delays TNBC cell and tumor growth supporting the oncogenic role of Trop2 in breast cancer. Through proteomic profiling, we discovered a metabolic signature comprised of TALDO1, GPI, LDHA, SHMT2, and ADK proteins that were downregulated in Trop2-depleted breast cancer tumors. The identified oncogene-mediated metabolic gene signature is significantly upregulated in TNBC patients across multiple RNA-expression clinical datasets. Our study further reveals that the metabolic gene signature reliably predicts poor survival of breast cancer patients with early stages of the disease. Taken together, our study identified a new five-gene metabolic signature as an accurate predictor of breast cancer outcome.

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Discovery of PTN as a serum-based biomarker of pro-metastatic prostate cancer

et al. 2020

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Distinguishing clinically significant from indolent prostate cancer (PC) is a major clinical challenge. We utilised targeted protein biomarker discovery approach to identify biomarkers specific for pro-metastatic PC. Serum samples from the cancer-free group; Cambridge Prognostic Group 1 (CPG1, low risk); CPG5 (high risk) and metastatic disease were analysed using Olink Proteomics panels. Tissue validation was performed by immunohistochemistry in a radical prostatectomy cohort (n = 234). We discovered that nine proteins (pleiotrophin (PTN), MK, PVRL4, EPHA2, TFPI-2, hK11, SYND1, ANGPT2, and hK14) were elevated in metastatic PC patients when compared to other groups. PTN levels were increased in serum from men with CPG5 compared to benign and CPG1. High tissue PTN level was an independent predictor of biochemical recurrence and metastatic progression in low- and intermediate-grade disease. These findings suggest that PTN may represent a novel biomarker for the presence of poor prognosis local disease with the potential to metastasise warranting further investigation.

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Michelle Shen

Trop2 is a driver of metastatic prostate cancer with neuroendocrine phenotype via PARP1

Inecalcitol, an analog of 1α,25(OH)₂D₃, induces growth arrest of androgen‐dependent prostate cancer cells

Oncogene-mediated metabolic gene signature predicts breast cancer outcome

Discovery of PTN as a serum-based biomarker of pro-metastatic prostate cancer

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Product

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Michelle Shen

Trop2 is a driver of metastatic prostate cancer with neuroendocrine phenotype via PARP1

Inecalcitol, an analog of 1α,25(OH)2D3, induces growth arrest of androgen‐dependent prostate cancer cells

Oncogene-mediated metabolic gene signature predicts breast cancer outcome

Discovery of PTN as a serum-based biomarker of pro-metastatic prostate cancer

Contact Info

Product

Resources

About

Inecalcitol, an analog of 1α,25(OH)₂D₃, induces growth arrest of androgen‐dependent prostate cancer cells