microRNA-143/145 loss induces Ras signaling to promote aggressive Pten-deficient basal-like breast cancer
Sharon Wang, … , Gary D. Bader, Eldad Zacksenhaus
Sharon Wang, … , Gary D. Bader, Eldad Zacksenhaus
Published August 3, 2017
Citation Information: JCI Insight. 2017;2(15):e93313. https://doi.org/10.1172/jci.insight.93313.
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Research Article Oncology

microRNA-143/145 loss induces Ras signaling to promote aggressive Pten-deficient basal-like breast cancer

Abstract

The tumor suppressor PTEN is frequently inactivated in breast and other cancers; yet, germ-line mutations in this gene induce nonmalignant hamartomas, indicating dependency on additional cooperating events. Here we show that most tumors derived from conditional deletion of mouse pten in mammary epithelium are highly differentiated and lack transplantable tumor-initiating cells (TICs) capable of seeding new tumors following orthotopic injection of FACS-sorted or tumorsphere cells. A rare group of poorly differentiated tumors did harbor transplantable TICs. These transplantable tumors exhibited distinct molecular classification, signaling pathways, chromosomal aberrations, and mutational landscape, as well as reduced expression of microRNA-143/145 (miR-143/145). Stable knockdown of miR-143/145 conferred tumorigenic potential upon poorly transplantable pten-deficient tumor cells through a mechanism involving induction of RAS signaling, leading to increased sensitivity to MEK inhibition. In humans, miR-145 deficiency significantly correlated with elevated RAS-pathway activity in basal-like breast cancer, and patients with combined PTEN/miR-145 loss or PTEN-loss/high RAS-pathway activity exhibited poor clinical outcome. These results underscore a selective pressure for combined PTEN loss together with RAS-pathway activation, either through miR-145 loss or other mechanisms, in basal-like breast cancer, and a need to identify and prioritize these tumors for aggressive therapy.

Authors

Sharon Wang, Jeff C. Liu, YoungJun Ju, Giovanna Pellecchia, Veronique Voisin, Dong-Yu Wang, Rajwinder Leha l, Yaacov Ben-David, Gary D. Bader, Eldad Zacksenhaus

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Figure 1

A small subgroup of pten-deficient mammary tumors is transplantable.

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A small subgroup of pten-deficient mammary tumors is transplantable. (A)...
(A) Representative histology of adenomyoepithelioma (AME) and poorly differentiated adenocarcinoma (PDA) tumors arising from WAP-Cre:Ptenfl/fl mice. Scale bars: 10 μm. (B) Summary of tumor-initiating potential of AMEs and PDAs. n = 35. (C) Detection of pten gene deletion in AME and PDA tumor cells by PCR using primers specific for the Cre-excised Ptenfl allele. n = 3. (D) Distribution of tumor types (%) in WAP-Cre:Ptenfl/fl mice: AMEs, PDAs, as well as mixed types (other). n = 118. (E) Kaplan-Meier mammary tumor–free survival (MTFS) curves for WAP-Cre:Ptenfl/fl mice. Median survival = 378 days, n = 289. (F) Kaplan-Meier MTFS curves for secondary and tertiary tumors arising from PDAs. PDA tumor cells were serially transplanted; tumor latency was significantly shortened with each generation (P < 0.001, Wilcoxon test). Secondary: n = 37, median survival = 81.5 days. Tertiary: n = 18, medial survival = 35.5 days. (G) Representative images of tumorspheres from AME and PDA tumors showing no obvious morphological differences. Scale bars: 50 μm. n = 3. (H) Flow cytometry profiles of AMEs and PDAs using the CD24 and CD49f cell surface markers. AME tumors contain both CD24loCD49fhi, and CD24hiCD49fhi populations. PDA tumors exhibit a single CD24hiCD49fhi cell population. n = 3. (I) Immunohistochemistry analyses of AMEs and PDAs for estrogen receptor α (ERα), basal (cytokeratin 14 [K14], cytokeratin 5 [K5]), luminal (cytokeratin 18 [K18]), mesenchymal (vimentin), and proliferation (Ki67) markers. AMEs are ERα positive, human epidermal growth factor receptor 2 (HER2) negative, exhibit varied expression of K5 and vimentin, and high levels of differentiation markers K14 and K18. In contrast, PDA tumors are negative for ERα and HER2, with varied expression of K5 and vimentin, high levels of Ki67 and K18, and very low K14 expression. n = 9. Scale bars: 10 μm (vimentin, Ki67); 50 μm (Her2, ERα, K5); and 20 μm (K14, K18, DAPI). n = 6.