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      Breast cancer-secreted miR-122 reprograms glucose metabolism in pre-metastatic niche to promote metastasis

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          Abstract

          Reprogrammed glucose metabolism as a result of increased glycolysis and glucose uptake is a hallmark of cancer. Here we show that cancer cells can suppress glucose uptake by non-tumour cells in the pre-metastatic niche, by secreting vesicles that carry high levels of the miR-122 microRNA. High miR-122 levels in the circulation have been associated with metastasis in breast cancer patients and we show that cancer-cell-secreted miR-122 facilitates metastasis by increasing nutrient availability in the pre-metastatic niche. Mechanistically cancer-cell-derived miR-122 suppresses glucose uptake by niche cells in vitro and in vivo by downregulating the glycolytic enzyme pyruvate kinase (PKM). In vivo inhibition of miR-122 restores glucose uptake in distant organs, including brain and lungs, and decreases the incidence of metastasis. These results demonstrate that by modifying glucose utilization by recipient pre-metastatic niche cells, cancer-derived extracellular miR-122 is able to reprogram systemic energy metabolism to facilitate disease progression.

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          Pyruvate kinase M2 is a PHD3-stimulated coactivator for hypoxia-inducible factor 1.

          Weibo Luo, Hongxia Hu, Ryan Chang (2011)
          The pyruvate kinase isoforms PKM1 and PKM2 are alternatively spliced products of the PKM2 gene. PKM2, but not PKM1, alters glucose metabolism in cancer cells and contributes to tumorigenesis by mechanisms that are not explained by its known biochemical activity. We show that PKM2 gene transcription is activated by hypoxia-inducible factor 1 (HIF-1). PKM2 interacts directly with the HIF-1α subunit and promotes transactivation of HIF-1 target genes by enhancing HIF-1 binding and p300 recruitment to hypoxia response elements, whereas PKM1 fails to regulate HIF-1 activity. Interaction of PKM2 with prolyl hydroxylase 3 (PHD3) enhances PKM2 binding to HIF-1α and PKM2 coactivator function. Mass spectrometry and anti-hydroxyproline antibody assays demonstrate PKM2 hydroxylation on proline-403/408. PHD3 knockdown inhibits PKM2 coactivator function, reduces glucose uptake and lactate production, and increases O(2) consumption in cancer cells. Thus, PKM2 participates in a positive feedback loop that promotes HIF-1 transactivation and reprograms glucose metabolism in cancer cells. Copyright © 2011 Elsevier Inc. All rights reserved.
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            Exosomes released by melanoma cells prepare sentinel lymph nodes for tumor metastasis.

            Joshua Hood, Roman San, Samuel Wickline (2011)
            Exosomes are naturally occurring biological nanovesicles utilized by tumors to communicate signals to local and remote cells and tissues. Melanoma exosomes can incite a proangiogenic signaling program capable of remodeling tissue matrices. In this study, we show exosome-mediated conditioning of lymph nodes and define microanatomic responses that license metastasis of melanoma cells. Homing of melanoma exosomes to sentinel lymph nodes imposes synchronized molecular signals that effect melanoma cell recruitment, extracellular matrix deposition, and vascular proliferation in the lymph nodes. Our findings highlight the pathophysiologic role and mechanisms of an exosome-mediated process of microanatomic niche preparation that facilitates lymphatic metastasis by cancer cells.
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              Transcriptional regulation of genes encoding glycolytic enzymes by hypoxia-inducible factor 1.

              G. L. Semenza, P. Roth, H Fang (1994)
              Hypoxia-inducible factor 1 (HIF-1) activates erythropoietin gene transcription in Hep3B cells subjected to hypoxia. HIF-1 activity is also induced by hypoxia in non-erythropoietin-producing cells, suggesting a more general regulatory role. We now report that RNAs encoding the glycolytic enzymes aldolase A (ALDA), phosphoglycerate kinase 1 (PGK1), and pyruvate kinase M were induced by exposure of Hep3B or HeLa cells to inducers of HIF-1 (1% O2, cobalt chloride, or desferrioxamine), whereas cycloheximide blocked induction of glycolytic RNAs and HIF-1 activity. Oligonucleotides from the ALDA, PGK1, enolase 1, lactate dehydrogenase A, and phosphofructokinase L (PFKL) genes, containing sequences similar to the HIF-1 binding site in the erythropoietin enhancer, specifically bound HIF-1 present in crude nuclear extracts or affinity-purified preparations. Sequences from the ALDA, PFKL, and PGK1 genes containing HIF-1 binding sites mediated hypoxia-inducible transcription in transient expression assays. These results support the role of HIF-1 as a mediator of adaptive responses to hypoxia that underlie cellular and systemic oxygen homeostasis.
              Article 0 comments Cited 355 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-journal-id): 100890575
                Journal ID (pubmed-jr-id): 21417
                Journal ID (nlm-ta): Nat Cell Biol
                Journal ID (iso-abbrev): Nat. Cell Biol.
                Title: Nature cell biology
                ISSN (Print): 1465-7392
                ISSN (Electronic): 1476-4679
                Publication date Nihms-submitted: 20 March 2015
                Publication date (Electronic): 26 January 2015
                Publication date (Print): February 2015
                Publication date PMC-release: 01 August 2015
                Volume: 17
                Issue: 2
                Pages: 183-194
                Affiliations
                [1 ]Department of Cancer Biology, City of Hope Beckman Research Institute, Medical Center, and Comprehensive Cancer Center
                [2 ]Department of Molecular Medicine, City of Hope Beckman Research Institute, Medical Center, and Comprehensive Cancer Center
                [3 ]Department of Medical Oncology, City of Hope Beckman Research Institute, Medical Center, and Comprehensive Cancer Center
                [4 ]Department of Population Sciences, City of Hope Beckman Research Institute, Medical Center, and Comprehensive Cancer Center
                [5 ]Department of Neurosciences, City of Hope Beckman Research Institute, Medical Center, and Comprehensive Cancer Center
                [6 ]Core of Electron Microscopy, City of Hope Beckman Research Institute, Medical Center, and Comprehensive Cancer Center
                [7 ]Core of Integrative Genomics, City of Hope Beckman Research Institute, Medical Center, and Comprehensive Cancer Center
                [8 ]Core of Synthetic and Biopolymer Chemistry, City of Hope Beckman Research Institute, Medical Center, and Comprehensive Cancer Center
                [9 ]City of Hope Irell & Manella Graduate School of Biological Sciences; Duarte, California, 91010; USA
                [10 ]Department of Biotherapy and Key Laboratory of Cancer Immunology, Tianjin Medical University Cancer Institute and Hospital; Tianjin, 300060; China
                [11 ]Department of Chemistry, University of California, Riverside; Riverside, California, 92521; USA
                Author notes
                Correspondence should be addressed to S.E.W. ( ewang@ 123456coh.org ), Department of Cancer Biology, Beckman Research Institute of City of Hope, 1500 E Duarte Road, KCRB Room 2007; Duarte, CA 91010, USA, TEL: 1-626-256-4673 x63118; FAX: 1-626-301-8972
                Article
                Manuscript ID: NIHMS648906
                DOI: 10.1038/ncb3094
                PMC ID: 4380143
                PubMed ID: 25621950
                SO-VID: 85cc7dc1-e46f-4acb-abda-5eab29684a4f
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                ScienceOpen disciplines: Cell biology
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                ScienceOpen disciplines: Cell biology

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