Sevenich L, Bowman R, Mason SD, Quail DF, Rapaport F, Elie BT, Brogi E, Brastianos P, Hahn WC, Holsinger L, Massague J, Leslie CS and Joyce JA (2014). Analysis of tumour and stroma-supplied proteolytic networks reveals a brain metastasis-promoting role for cathepsin S. Nat Cell Bio. doi: 10.1038/ncb3011.

Bowman RL and Joyce JA (2014). Tumor-associated macrophages and microglia as therapeutic targets in glioblastoma. Immunotherapy 6:663-666.

Alonso-Curbelo D, Riveiro-Falkenback E, Perez-Guijarro E, Cifdaloz M, Osterloh L, Olmeda D, Megias D, Canon E, Karras P, Calvo TG, Gomez-Lopez G, Grana O, Checinska A, Wang HW, Pisano DG, Pastor J, Ortiz-Romero P, Torro D, Hoek K, Rodriguez-Peralto JL, Joyce JA and Soengas MS (2014). RAB7 controls melanoma progression by exploiting a lineage-specific wiring of the endolysosomal pathway. Cancer Cell 26: 61-76.

Hunter KE, Palermo C, Kester JC, Simpson K, Li JP, Tang LH, Klimstra DS, Vlodavsky I and Joyce JA (2014). Heparanase promotes lymphangiogenesis and tumor invasion in pancreatic neuroendocrine tumors. Oncogene 33:1799-1808. 

Pyonteck SM, Akkari L, Schuhmacher AJ, Bowman RL, Sevenich L, Quail D, Olson OC, Quick M, Huse J, Teijeiro V, Setty M, Leslie C, Oei Y, Pedraza A, Zhang J, Brennan CW, Sutton JC, Holland EC, Daniel D and Joyce J. CSF-1R inhibition alters macrophage polarization and blocks glioma progression. Nat Med. 2013 Oct;19(10):1264-72. doi: 10.1038/nm3337.

Quail D, Joyce JA. Microenvironmental regulation of tumor progression and metastasis. Nat Med 19: 1423-37. 2013.

Carmona-Fontaine C, Bucci V, Akkari L, Deforet M, Joyce JA and Xavier JB (2013). Emergence of spatial structure in the tumor microenvironment due to the Warburg effect. PNAS 110: 19402-19407.

Krajcovic M, Krishna S, Akkari L, Joyce JA and Overholtzer M (2013). mTor regulates phagosome and entotic vacuole fission. Molecular Biology of the Cell 24: 3736-3745.

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.

Olson OC, Joyce JA (2013). A splicing twist on metastasis. Sci Transl Med. 2013 Jan 23;5(169):169fs2.

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.

Olson OC and Joyce JA (2013). Microenvironment-mediated resistance to anticancer therapies. Cell Res. 2013 Feb;23(2):179-81.

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 networks in cancer. Trends in Cell Biology 21: 228-237.

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.

Wang HW and Joyce JA (2010). Alternative activation of tumor-associated macrophages by IL-4: priming for protumoral functions. Cell Cycle 9: 4824-4835.

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.

Joyce JA and Pollard JW (2009). Microenvironmental regulation of metastasis. Nat Rev Cancer 9: 239-252.

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.

Palermo C and Joyce JA (2008). Cysteine cathepsin proteases as pharmacological targets in cancer. Trends Pharmacol. Sci. 29(1): 22-28.

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.

Gocheva V, Joyce JA (2007). Cysteine Cathepsins and the Cutting Edge of Cancer Invasion. Cell Cycle 6(1):60-64.

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.

Gocheva V, Wei Z, Ke D, Klimstra D, Reinheckel T, Peters C, Hanahan D, Joyce JA (2006). Distinct roles for cysteine cathepsin genes in multistage tumorigenesis. Genes and Development 20:543-556.

Gadea BB, Joyce JA (2006). Tumour-host interactions: Implications for developing anti-cancer therapies. Expert Rev Mol Med. 8(30):1-32.

Joyce JA (2005). Therapeutic targeting of the tumor microenvironment. Cancer Cell 6:513-520.

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, Hanahan D (2004). Multiple roles for cysteine cathepsins in cancer. Cell Cycle 12:1516-1619.

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.