Project description:Cancer and other cells residing in the same niche engage various modes of interactions to synchronize and to buffer the negative effects of environmental changes. Extracellular miRNAs have been recently implicated in the intercellular crosstalk. Here we show a mechanistic model involving breast-cancer-secreted, extracellular-vesicle-encapsulated miR-105, which is induced by the oncoprotein MYC in cancer cells and in turn activates MYC signaling in cancer-associated fibroblasts (CAFs) to induce a metabolic program. This results in CAFs metabolic plasticity toenhance glycolysis and glutaminolysis to fuel adjacent cancer cells when nutrients are sufficient (the symbiosis mode), and detoxify metabolic wastes (lactic acid and ammonium) by converting them into energy-rich metabolites, when nutrients are deprived whereas metabolic byproducts are accumulated. This commensalism of cancer stroma emphasizes the functional flexibility of non-cancer cell populations contributing to cancer fitness during sustained growth of tumour.

Project description:We identified miR-21 and miR-224 as cell-specific and compartment-specific regulators in PanINs and PDA. miR-21 is overexpressed in tumor epithelial cells of premalignant ducts, while miR-224 is overexpressed in cancer-associated fibroblasts in PDA stroma. Inhibition of miR-21 reverted pro-tumorigenic functionalities to baseline levels. Overexpression of miR-224 induced activated phenotypes in normal fibroblasts. miR-21 inhibition downregulated MAPK, mTOR and actin cytoskeleton pathways downstream of KRAS activation in tumor cells. In vivo miR-21 inhibition improved survival in established PDA, while early systemic miR-21 inhibition intercepted premalignant progression.

Project description:We identified miR-21 and miR-224 as cell-specific and compartment-specific regulators in PanINs and PDA. miR-21 is overexpressed in tumor epithelial cells of premalignant ducts, while miR-224 is overexpressed in cancer-associated fibroblasts in PDA stroma. Inhibition of miR-21 reverted pro-tumorigenic functionalities to baseline levels. Overexpression of miR-224 induced activated phenotypes in normal fibroblasts. miR-21 inhibition downregulated MAPK, mTOR and actin cytoskeleton pathways downstream of KRAS activation in tumor cells. In vivo miR-21 inhibition improved survival in established PDA, while early systemic miR-21 inhibition intercepted premalignant progression.

Project description:MicroRNAs (miRNAs) are small RNAs that function as post-transcriptional regulators of gene expression. miRNAs affect a variety of signaling pathways and impaired miRNA regulation may contribute to the development of cancer and other diseases. We show that miRNA miR-10a interacts with the 5' untranslated region of mRNAs encoding ribosomal proteins and enhances their translation. miR-10a alleviates translational repression of the ribosomal protein mRNAs during amino acid starvation and is required for their stress-mediated activation following anisomycin treatment. miR-10a binds immediately downstream of the regulatory 5' TOP motif and the 5´TOP is necessary for miR-10a translational enhancement. The results indicate that miR-10a may positively control global protein synthesis via stimulation of ribosomal protein mRNA translation and that the 5' TOP regulatory complex and miR-10a are functionally interconnected.

Project description:Pancreatic cancer is characterized by abundant desmoplastic stroma. Despite numerous theoretical and experimental efforts, therapeutic approaches targeting pancreatic cancer stroma have been largely unsuccessful, highlighting the need for more comprehensive assessment of inter- and intratumoral stromal heterogeneity in a large series of clinical tumors. Quantitative computation of FAP-dominant fibroblasts, ACTA2-dominant fibroblasts, and intratumoral collagen in whole-tissue sections from 215 treatment-naïve pancreatic cancers allowed us to identify three distinct stroma types (FAP-dominant fibroblast-rich stroma [F-stroma], ACTA2-dominant fibroblast-rich stroma [A-stroma], and collgen-rich stroma [C-stroma]), which were differentially associated with patient outcomes, molecular characteristics and the immunosuppressive tumor microenvironment. We explored differentially expressed genes between three distinct stroma types (F-stroma, A-stroma, and C-stroma) using frozen samples from 20 patients with pancreatic cancer.

Project description:RT-PCR analysis of inflammatory cytokines and receptors in pEGP-miR-135b over-expressing cells compard to controls (pEGP-miR-null) using pathway-specific PCR arrays for the evaluation of mouse inflammatory cytokines and receptors (#PAMM-011D). qPCR array gene expression profiling. This experiment examined the transcriptional response of NIH3T3 cells over-expressing pEGP-miR-135b. Total RNA (n = 3 per group) was used with SABiosciences pathway-specific PCR arrays for inflammatory cytokines and receptors (#PAMM-011D).

Project description:RT-PCR analysis of inflammatory cytokines and receptors following Il1alpha treatment of pEGP-miR-135b over-expressing cells compard to controls (pEGP-miR-null) using pathway-specific PCR arrays for the evaluation of mouse inflammatory cytokines and receptors (#PAMM-011D). qPCR array gene expression profiling. This experiment examined the transcriptional response of NIH3T3 cells over-expressing pEGP-miR-135b following IL1alpha treatment. Total RNA (n = 3 per group) was used with SABiosciences pathway-specific PCR arrays for inflammatory cytokines and receptors (#PAMM-011D).

Project description:The tumor microenvironment plays a critical role in cancer progression, but the precise mechanisms by which stromal cells influence the tumor epithelium are poorly understood. The signaling adapter p62 has been implicated as a positive regulator of epithelial tumorigenesis; however, its role in the stroma is unknown. We show here that p62 levels are reduced in the stroma of several tumors. Also, orthotopic and organotypic studies demonstrate that the loss of p62 in the tumor microenvironment or stromal fibroblasts resulted in increased tumorigenesis of epithelial prostate cancer cells. The mechanism involves the regulation of cellular redox through an mTORC1/c-Myc pathway of stromal glucose and amino acid metabolism. Inhibition of the pathway by p62 deficiency results in increased stromal IL-6 production, which is required for tumor promotion in the epithelial compartment. Thus, p62 is an anti-inflammatory tumor suppressor that acts through modulation of metabolism in the tumor stroma.

Project description:To identify gene expression changes associated with overexpression of miR-105 or MYC in MCF10A non-cancerous human mammary epithelial cells, we analyzed RNA isolated from engineered MCF10A cell lines that stably express empty vector, GFP, miR-105, or MYC by RNA-seq. Gene expression in cells overexpressing miR-105 or MYC was compared to cells expressing the empty vector or GFP, both of which served as controls in this experiment.

Project description:Columnar cell hyperplasia (CCH) is the earliest histologically identifiable breast lesion linked to cancer progression and is characterized by increased proliferation, decreased apoptosis and elevated oestrogen receptor a expression. The mechanisms underlying the initiation of these lesions have not been clarified but might involve early and fundamental changes in cancer progression. MiRNAs are key regulators of several biological processes, acting by influencing the posttranscriptional regulation of numerous targets, thus making miRNAs potential candidates in cancer initiation. Here we have defined novel epithelial as well as stromal miRNA signatures from columnar cell hyperplasia lesions compared to normal terminal duct lobular units by using microdissection and miRNA microarrays. MiR-27a, miR-92a and let-7c were among the identified downregulated epithelial miRNAs and their functions were delineated in unique CCH derived cells suggesting pro-apoptotic and anti-proliferative properties for the selected miRNAs and that downregulation of let-7c in CCH cells potentially increased proliferation via Myb. MiR-132 was upregulated in the stroma surrounding CCH compared to stoma surrounding TDLUs, and overexpression of miR-132 in immortalized fibroblasts and in fibroblasts co-cultured with epithelial CCH cells caused substantial expression changes. Global miRNA expression was also examined both epithelial and stroma of one patient displaying TDLU, CCH and additional invasive breast cancer. The miRNA signatures identified in CCH indicate concordant early changes in the epithelial and stromal compartment of CCH and could represent early key alterations in breast cancer progression that potentially could be targeted in novel prevention or treatment schedules.