Cancer du sein et micro-environnement tumoral: rôle de la protéase ...

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Cataldo, A. M., Barnett, J. L., Berman, S. A., Li, J., Quarless, S., Bursztajn, S., Lippa, C., andNixon, R. A. (1995). Gene expression and cellular content of cathepsin D in Alzheimer'sdisease brain: evidence for early up-regulation of the endosomal-lysosomal system. Neuron14, 671-680.Cavailles, V., Augereau, P., Garcia, M., and Rochefort, H. (1988). Estrogens and growthfactors induce the mRNA of the 52K-pro-cathepsin-D secreted by breast cancer cells. NucleicAcids Res 16, 1903-1919.Cavailles, V., Augereau, P., and Rochefort, H. (1991). Cathepsin D gene of human MCF7cells contains estrogen-responsive sequences in its 5' proximal flanking region. BiochemBiophys Res Commun 174, 816-824.Cavailles, V., Augereau, P., and Rochefort, H. (1993). Cathepsin D gene is controlled by amixed promoter, and estrogens stimulate only TATA-dependent transcription in breast cancercells. Proc Natl Acad Sci U S A 90, 203-207.Chandra, V., Huang, P., Hamuro, Y., Raghuram, S., Wang, Y., Burris, T. P., and Rastinejad,F. (2008). Structure of the intact PPAR-gamma-RXR- nuclear receptor complex on DNA.Nature 456, 350-356.Chavey, C., Mari, B., Monthouel, M. N., Bonnafous, S., Anglard, P., Van Obberghen, E., andTartare-Deckert, S. (2003). Matrix metalloproteinases are differentially expressed in adiposetissue during obesity and modulate adipocyte differentiation. J Biol Chem 278, 11888-11896.Cleary, M. P., and Grossmann, M. E. (2009). Minireview: Obesity and breast cancer: theestrogen connection. Endocrinology 150, 2537-2542.Croissandeau, G., Chretien, M., and Mbikay, M. (2002). Involvement of matrixmetalloproteinases in the adipose conversion of 3T3-L1 preadipocytes. Biochem J 364, 739-746.Cullen, V., Lindfors, M., Ng, J., Paetau, A., Swinton, E., Kolodziej, P., Boston, H., Saftig, P.,Woulfe, J., Feany, M. B., et al. (2009). Cathepsin D expression level affects alpha-synucleinprocessing, aggregation, and toxicity in vivo. Mol Brain 2, 5.De Wever, O., Nguyen, Q. D., Van Hoorde, L., Bracke, M., Bruyneel, E., Gespach, C., andMareel, M. (2004). Tenascin-C and SF/HGF produced by myofibroblasts in vitro provideconvergent pro-invasive signals to human colon cancer cells through RhoA and Rac. Faseb J18, 1016-1018.Dedieu, S., Langlois, B., Devy, J., Sid, B., Henriet, P., Sartelet, H., Bellon, G., Emonard, H.,and Martiny, L. (2008). LRP-1 silencing prevents malignant cell invasion despite increasedpericellular proteolytic activities. Mol Cell Biol 28, 2980-2995.80
Deiss, L. P., Galinka, H., Berissi, H., Cohen, O., and Kimchi, A. (1996). Cathepsin D proteasemediates programmed cell death induced by interferon-gamma, Fas/APO-1 and TNF-alpha.Embo J 15, 3861-3870.Dieudonne, M. N., Bussiere, M., Dos Santos, E., Leneveu, M. C., Giudicelli, Y., andPecquery, R. (2006). Adiponectin mediates antiproliferative and apoptotic responses in humanMCF7 breast cancer cells. Biochem Biophys Res Commun 345, 271-279.Diment, S., Leech, M. S., and Stahl, P. D. (1988). Cathepsin D is membrane-associated inmacrophage endosomes. J Biol Chem 263, 6901-6907.Diment, S., Martin, K. J., and Stahl, P. D. (1989). Cleavage of parathyroid hormone inmacrophage endosomes illustrates a novel pathway for intracellular processing of proteins. JBiol Chem 264, 13403-13406.Elenbaas, B., and Weinberg, R. A. (2001). Heterotypic signaling between epithelial tumorcells and fibroblasts in carcinoma formation. Exp Cell Res 264, 169-184.Emert-Sedlak, L., Shangary, S., Rabinovitz, A., Miranda, M. B., Delach, S. M., and Johnson,D. E. (2005). Involvement of cathepsin D in chemotherapy-induced cytochrome c release,caspase activation, and cell death. Mol Cancer Ther 4, 733-742.Erickson, A. H. (1989). Biosynthesis of lysosomal endopeptidases. J Cell Biochem 40, 31-41.Farmer, S. R. (2006). Transcriptional control of adipocyte formation. Cell Metab 4, 263-273.Faust, P. L., Kornfeld, S., and Chirgwin, J. M. (1985). Cloning and sequence analysis ofcDNA for human cathepsin D. Proc Natl Acad Sci U S A 82, 4910-4914.Ferrandina, G., Scambia, G., Bardelli, F., Benedetti Panici, P., Mancuso, S., and Messori, A.(1997). Relationship between cathepsin-D content and disease-free survival in node-negativebreast cancer patients: a meta-analysis. Br J Cancer 76, 661-666.Feve, B. (2005). Adipogenesis: cellular and molecular aspects. Best Pract Res ClinEndocrinol Metab 19, 483-499.Fitzgibbons, P. L., Page, D. L., Weaver, D., Thor, A. D., Allred, D. C., Clark, G. M., Ruby, S.G., O'Malley, F., Simpson, J. F., Connolly, J. L., et al. (2000). Prognostic factors in breastcancer. College of American Pathologists Consensus Statement 1999. Arch Pathol Lab Med124, 966-978.Flier, J. S. (2004). Obesity wars: molecular progress confronts an expanding epidemic. Cell116, 337-350.Foekens, J. A., Look, M. P., Bolt-de Vries, J., Meijer-van Gelder, M. E., van Putten, W. L.,and Klijn, J. G. (1999). Cathepsin-D in primary breast cancer: prognostic evaluation involving2810 patients. Br J Cancer 79, 300-307.81
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Université Montpellier I UFR Méd
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Un grand merci à tous mes collabor
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TitleBreast cancer and tumoral micr
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Cancer du sein et micro-environneme
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C. PRESENTATION DU TRAVAIL DE THESE
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But de la thèseLa cathepsine-D (ca
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I. Le tissu adipeux1) Généralité
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(Adenosine triphosphate). Cette pro
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Cette synthèse de novo a lieu dans
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ABFigure 6 : Schéma de la oxydati
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d. Ladipocyte : une cellule sécré
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3) Ladipogenèsea. Les différentes
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. Les facteurs de transcriptionLa d
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Lexpression de C/EBP est quant à e
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adipeux. Les analyses histologiques
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adipocyteFigure 10 : Schéma repré
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II. La cathepsine-D1) Synthèse, ma
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les cath-B et L, en une forme matur
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Il existe deux RM6P : le RM6P/IGFII
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2) Fonctions de la cath-Da. Dans la
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. Dans les pathologiesEn plus de se
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c. Rôles et mécanismes daction da
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carcinome de prostate serait respon
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La cath-D joue donc un rôle import
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Une fois le marquage des peptides e
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Afin de réaliser ce projet, nous a
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III. Le récepteur LRP11) Organisat
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2) Trafic intra-cellulaireComme le
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LRP1αLRP1Membrane associatedprotea
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Tableau 3 : Ligands connus du LRP1(
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I. Etude du rôle de la cathepsine
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Cathepsin-D, a key protease in brea
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IntroductionConsumption of meals ri
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(Fig. 1A, panel a). This differenti
Page 70 and 71: differentiated adipocyte (Fig. 4B).
Page 72 and 73: DiscussionOur results demonstrate t
Page 74 and 75: from normal and peri-al breast adip
Page 76 and 77: mouse RS9 (sens 5CGGCCCGGGAGCTGTTGA
Page 78 and 79: agreement of local ethic committee.
Page 80 and 81: Statistical analysis. Results are e
Page 82 and 83: Loncarek J, Freiss G, Vignon F and
Page 84 and 85: Aa3000 *b4000*B8000**cath-D mRNA(ar
Page 86 and 87: ABcath-D mRNA(ratio RS9)PPARg mRNA(
Page 88 and 89: A D3 D7 D14D0BaD0 D3 D7 D14D0 D3 D7
Page 90 and 91: AshLucshcath-DF442A C34 C37 A4 D10c
Page 92 and 93: AF442-AC34C37A4D10BF442-AC34C37A4D1
Page 94 and 95: II. Etude du rôle du LRP1 dans les
Page 96 and 97: 2) Article 2:LRP1 receptor controls
Page 98 and 99: LRP1, Adipogenesis, Obesityrelative
Page 100 and 101: LRP1, Adipogenesis, ObesityFigure 3
Page 102 and 103: LRP1, Adipogenesis, ObesityFigure 5
Page 104 and 105: LRP1, Adipogenesis, ObesitySome ins
Page 106 and 107: LRP1, Adipogenesis, ObesityLipolysi
Page 108 and 109: CONCLUSIONLa cathepsine D (cath-D)
Page 110 and 111: la souris obèses. Enfin, linhibiti
Page 112 and 113: carcinogénique sont encore mal con
Page 114 and 115: Ce travail de thèse a étudié, po
Page 116 and 117: REFERENCESAhima, R. S. (2006). Adip
Page 118 and 119: implicates them as antigen presenti
Page 122 and 123: Folkman, J. (2003). Fundamental con
Page 124 and 125: Hofmann, S. M., Zhou, L., Perez-Til
Page 126 and 127: Langin, D. (2006a). Adipose tissue
Page 128 and 129: Ludwig, T., Ovitt, C. E., Bauer, U.
Page 130 and 131: Nirde, P., Derocq, D., Maynadier, M
Page 132 and 133: Rozanov, D. V., Hahn-Dantona, E., S
Page 134 and 135: Taleb, S., Cancello, R., Clement, K
Page 136 and 137: Xiao, Y., Junfeng, H., Tianhong, L.
Page 138 and 139: F. ANNEXE98
Page 140 and 141: Cathepsin D is a new ligand for ext
Page 142 and 143: INTRODUCTIONLysosomal aspartic prot
Page 144 and 145: pcDNA3.1(+)Myc-tagged LRP1b into pc
Page 146 and 147: (Protein refolding kit, Novagen) fo
Page 148 and 149: anti-mouse-gold (Aurion). Sections
Page 150 and 151: not secrete detectable levels of pr
Page 152 and 153: using cath-D-/- MEF transfected wit
Page 154 and 155: co-culture outgrowth assays with ca
Page 156 and 157: REFERENCES1. Vignon, F., Capony, F.
Page 158 and 159: steps in vivo: proliferation, angio
Page 160 and 161: 28. Laurent-Matha, V., Lucas, A., H
Page 162 and 163: 42. Zurhove, K., Nakajima, C., Herz
Page 164 and 165: Figure 1. Cath-D interacts with the
Page 166 and 167: Figure 2. Cath-D binds to residues
Page 168 and 169: Figure 3. Cath-D interacts with LRP
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Figure 5. Silencing LRP1 in cath-D
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Figure 1. Cath-D interacts with the
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Figure 6. LRP1 is the receptor medi
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Beaujouin, Figure Sup. 2cath-D-/-ME
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RésuméLaspartyl protéase catheps
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