Leah Machlin scite author profile

Metastasis is facilitated by cancer-associated fibroblasts (CAF) in the tumor microenvironment through mechanisms yet to be elucidated. In this study, we used a size-based microfilter technology developed by our group to examine whether circulating CAF identified by FAP and a-SMA coexpression (cCAF) could be distinguished in the peripheral blood of patients with metastatic breast cancer. In a pilot study of patients with breast cancer, we detected the presence of cCAFs in 30/34 (88%) patients with metastatic disease (MET group) and in 3/13 (23%) patients with localized breast cancer (LOC group) with long-term disease-free survival. No cCAFs as defined were detected in healthy donors. Further, both cCAF and circulating tumor cells (CTC) were significantly greater in the MET group compared with the LOC group. Thus, the presence of cCAF was associated with clinical metastasis, suggesting that cCAF may complement CTC as a clinically relevant biomarker in metastatic breast cancer.

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Hierarchical paracrine interaction of breast cancer associated fibroblasts with cancer cells via hMAPK-microRNAs to drive ER-negative breast cancer phenotype

Shah

Miller

Garcia‐Contreras

et al. 2015

Cancer Biology & Therapy

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Multiple juxtacrine and paracrine interactions occur between cancer cells and non-cancer cells of the tumor microenvironment (TME) that direct tumor progression. Cancer Associated Fibroblasts (CAFs) are an integral component of the TME, and the majority of breast tumor stroma is comprised of CAFs. Heterotypic interactions between cancer cells and non-cancer cells of the TME occur via soluble agents, including cytokines, hormones, growth factors, and secreted microRNAs. We previously identified a microRNA signature indicative of hyperactive MAPK signaling (hMAPK-miRNA signature) that significantly associated with reduced recurrence-free and overall survival. Here we report that the hMAPK-miRNA signature associates with a high metric of stromal cell infiltrate, and we investigate the role of microRNAs, particularly hMAPK-microRNAs, secreted by CAFs on estrogen receptor (ER) expression in breast cancer cells. ER-positive MCF-7/ltE2- cells were treated with conditioned media (CM) from CAFs derived from breast cancers of different PAM50 subtypes (CAFBAS, CAFHER2, and CAFLA). CAF CM isolated specifically from ER-negative primary breast tumors led to ER repression in vitro. Nanoparticle tracking analysis and transmission electron microscopy confirmed the presence of CAF-secreted exosomes in CM and the uptake of these exosomes by the ER+ MCF-7/ltE2- cells. Differentially expressed microRNAs in CAF CM as well as in MCF-7/ltE2- cells treated with this CM were identified. Knockdown of miR-221/222 in CAFBAS resulted in knockdown of miR221/222 levels in the conditioned media and the CM from CAFBAS; miR221/222 knockdown rescued ER repression in ER-positive cell lines treated with CAFBAS-CM. Collectively, our results demonstrate that CAF-secreted microRNAs are directly involved in ER-repression, and may contribute to the MAPK-induced ER repression in breast cancer cells.

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Epigenome editing of the CFTR-locus for treatment of cystic fibrosis

Kabadi

Machlin

Dalal

et al. 2022

Journal of Cystic Fibrosis

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Abstract 4396: Circulating CAFs and CAF-secreted factors may be indicative of breast cancer metastasis

Shah

Miller

Machlin

et al. 2016

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Tumor metastasis is the main cause of breast cancer mortality. Increasing evidence demonstrates stromal cells play pivotal roles in promoting breast cancer progression and metastasis. Breast cancer stroma is comprised mainly of Cancer Associated Fibroblasts (CAFs). CAFs secrete various growth factors and cytokines that promote breast cancer progression and metastasis; one of these factors is SDF-1 (CXCL12), a soluble chemokine that is promotes chemotaxis and motility, and facilitates cancer cell motility and angiogenesis. CAFs also secrete soluble factors that activate ERK 1/2 MAPK signaling in breast cancer cells, which has been shown to promote loss of estrogen receptor (ER) in luminal breast cancer cells. Hyperactivation of MAPK signaling (hMAPK) also associates with aggressive, basal-like and HER2-positive breast cancer and poor prognosis. Recently, we identified a patient-derived hMAPK-microRNA signature indicative of poor clinical outcome that contains microRNAs known to regulate breast cancer associated genes. The vast majority of ER- breast cancers display this microRNA signature, as do a subset of ER+ breast cancers with poorer clinical outcome. We also discovered that the breast cancers that exhibit this microRNA signature display high stromal and immune infiltrate scores, suggesting that breast cancer stroma provides important contributions to this microRNA signature and the poor clinical outcomes associated with it. To study the role of CAFs and CAF-secreted factors in breast cancer progression and metastasis, we established primary breast CAF lines from ‘indolent’ breast cancers (Luminal A), and from ‘aggressive’ breast cancers (ER-/HER2 amplified; triple negative). We have demonstrated that these CAFs differentially express several members of the hMAPK-microRNA signature compared to cultured primary breast cancer cells, supporting the contribution of stroma to the signature. Importantly hMAPK-microRNAs secreted from “aggressive” CAFs can be taken up by breast cancer cells, whereupon they repress their targets. Normal human mammary fibroblasts (HMFs) and ‘indolent’ CAFs do not secrete these microRNAs. We identified a novel class of circulating cells in the blood of breast cancer patients with metastases -CAFs (cCAFs). Patients without metastases did not have these cCAFs - suggesting cCAFs may be “aggressive” CAFs that facilitate breast cancer metastasis. Patients with overt metastasis and elevated counts of cCAFs have significantly higher levels of circulating SDF-1 in their plasma, as well as differential circulating microRNAs, and specifically hMAPK-microRNAs also found secreted by “aggressive” CAFs. Our results suggest there is a hierarchy of CAFs whereby “aggressive” tumors establish “aggressive” CAFs to facilitate metastasis. We also establish a clear link between circulating CAFs and CAF-secreted factors such as SDF-1 and microRNAs with breast cancer metastasis. Citation Format: Sanket H. Shah, Phil Miller, Leah Machlin, Kelsie Medina-Saenz, Ritesh Parajuli, Marc E. Lippman, Dorraya El-Ashry. Circulating CAFs and CAF-secreted factors may be indicative of breast cancer metastasis. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4396.

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Leah Machlin

Identification of Cancer-Associated Fibroblasts in Circulating Blood from Patients with Metastatic Breast Cancer

Hierarchical paracrine interaction of breast cancer associated fibroblasts with cancer cells via hMAPK-microRNAs to drive ER-negative breast cancer phenotype

Epigenome editing of the CFTR-locus for treatment of cystic fibrosis

Abstract 4396: Circulating CAFs and CAF-secreted factors may be indicative of breast cancer metastasis

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