Hunter KE, Palermo C, Kester JC, Simpson K, Li JP, Tang LH, Klimstra DS, Vlodavsky I and Joyce JA (2013). Heparanase promotes lymphangiogenesis and tumor invasion in pancreatic neuroendocrine tumors. Oncogene. 2013 May 6
Hunter KE, Quick ML, Sadanandam A, Hanahan D, Joyce JA (2013). Identification and Characterization of Poorly Differentiated Invasive Carcinomas in a Mouse Model of Pancreatic Neuroendocrine Tumorigenesis. PLoS One. 2013 May 14;8(5):e64472.
Lujambio A, Akkari L, Simon L, Grace D, Tschaharganeh DF, Bolden JE, Zhao Z, Thapar V, Joyce JA, Krizhanovsky V, Lowe SW (2013). Non-Cell-Autonomous Tumor Suppression by p53. Cell. 2013 April 11;153(2):449-60.
Ryder M, Gild M, Hohl TM, Pamer E, Knauf J, Ghossein R, Joyce JA, Fagin JA (2013). Genetic and pharmacological targeting of CSF-1/CSF-1R inhibits tumor-associated macrophages and impairs BRAF-induced thyroid cancer progression. PLoS One. 2013;8(1):e54302.
Pyonteck SM, Gadea BB, Wang HW, Gocheva V, Hunter KE, Tang LH and Joyce JA (2012). Deficiency of the macrophage growth factor Csf-1 disrupts pancreatic neuroendocrine tumor development. Oncogene 31: 1459-1467.
Shree T, Olson OC, Elie BT, Kester JC, Garfall AL, Simpson K, Bell-McGuinn KM, Zabor EC, Brogi E and Joyce JA (2011). Macrophages and cathepsin proteases blunt chemotherapeutic response in breast cancer. Genes and Development 25: 2465-2479.
Mason SD and Joyce JA (2011). Proteolytic cascades in invasion and metastasis. Cancer Metastasis: Biologic Basis and Therapeutics. Cambridge University Press. Editors: Lyden DC, Welsh DR, Psaila B.
Gocheva V, Wang HW, Gadea BB, Shree T, Hunter KE, Garfall A, Berman T and Joyce JA (2010). IL-4 induces cathepsin protease activity in tumor-associated macrophages to promote cancer growth and invasion. Genes and Development 24:241-255
Gocheva V, Chen X, Peters C, Reinheckel T and Joyce JA (2010). Deletion of cathepsin H reduces angiogenic switching, tumor vascularization and growth in a mouse model of pancreatic cancer. Biological Chemistry 391: 937-945.
Elie B, Gocheva V, Shree T, Dalrymple SA, Holsinger LJ and Joyce JA (2010). Identification and preclinical testing of a reversible cathepsin protease inhibitor reveals anti-tumor effects in a pancreatic cancer model. Biochimie 92: 1618-1624.
Chang SH, Kanasaki K, Gocheva V, Blum G, Harper J, Moses MA, Shih SC, Manseau EJ, Nagy JA, Joyce JA, Bogyo, M, Kalluri R and Dvorak HF. VEGF-A Induces Angiogenesis by Perturbing the Cathepsin-Cysteine Protease Inhibitor Balance in Venules, Causing Basement Membrane Degradation and Mother Vessel Formation (2009). Cancer Research 69: 4537-4544.
Amankulor N, Hambardzumyan D, Pyonteck SM, Becher OJ, Joyce JA and Holland EC (2009). Sonic hedgehog pathway activation is induced by acute brain injury and regulated by injury-related inflammation. Journal of Neuroscience 29:10299-308.
Reinheckel T, Gocheva V, Peters C and Joyce JA (2008). Roles of cysteine proteases in tumor progression: analysis of cysteine cathepsin knockout mice in cancer models. The Cancer Degradome- Proteases and Cancer Biology. Springer Publishing. Eds. Edwards DR, Hoer-Hansen G, Blasi F, Sloane BF. p. 279-302.
Abboud-Jarrous G, Atzmon R, Peretz T, Palermo C, Gadea BB, Joyce JA, Vlodavsky I (2008). Cathepsin L is responsible for processing and activation of proheparanase through multiple cleavages of a linker segment. Journal of Biological Chemistry 26: 18167-18176.
Sadaghiani AM, Verhelst SH, Gocheva V, Hill K, Majerova E, Stinson S, Joyce JA, Bogyo M (2007). Design, synthesis, and evaluation of in vivo potency and selectivity of epoxysuccinyl-based inhibitors of papain-family cysteine proteases. Chem Biol. 14(5):499-511.
Bell-McGuinn K, Garfall A, Bogyo M, Hanahan D, and Joyce JA (2007). Inhibition of cysteine cathepsin protease activity enhances chemotherapy regimens by decreasing tumor growth and invasiveness in a mouse model of multistage cancer. Cancer Research 67:7378-7385.
Joyce JA, Freeman C, Meyer-Morse N, Parish CR, Hanahan D (2005). A functional heparan sulfate mimetic implicates both heparanase and heparan sulfate in tumor angiogenesis and invasion in a mouse model of multistage cancer. Oncogene 25:4037-4051.
Joyce JA, Baruch A, Chehade K, Meyer-Morse N, Giraudo E, Tsai, F-Y, Greenbaum D, Hager JH, Bogyo M, Hanahan D (2004). Cathepsin cysteine proteases are effectors of invasive growth and angiogenesis during multistage tumorigenesis. Cancer Cell 5:443-453.
Joyce JA, Laakkonen P, Bernasconi M, Bergers G, Ruoslahti E, Hanahan D (2003). Stage-specific vascular markers revealed by phage display in a mouse model of pancreatic islet tumorigenesis. Cancer Cell 5:393-403.