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References (35)
-
N. Linde, Claudia Gutschalk, C. Hoffmann, Dilan Yilmaz, M. Mueller (2012)
Integrating Macrophages into Organotypic Co-Cultures: A 3D In Vitro Model to Study Tumor-Associated MacrophagesPLoS ONE, 7
-
Xin Li, R. Loberg, Jinhui Liao, C. Ying, L. Snyder, K. Pienta, L. McCauley (2009)
A destructive cascade mediated by CCL2 facilitates prostate cancer growth in bone.Cancer research, 69 4
-
S. Rozel, C. Galbán, K. Nicolay, Kuei Lee, S. Sud, C. Neeley, L. Snyder, T. Chenevert, A. Rehemtulla, B. Ross, K. Pienta (2009)
Synergy between anti‐CCL2 and docetaxel as determined by DW‐MRI in a metastatic bone cancer modelJournal of Cellular Biochemistry, 107
-
GJ Fetterly, TA Puchalski, C Takimoto, DE Mager, S Seetharam, T McIntosh, JS Bono, A Tolcher, HM Davis, H Zhou (2010)
Utilizing mechanistic PK/PD modeling to simultaneously examine free CCL2, total CCL2, and CNTO 888 serum concentration time data [ASCO abstract 3029]J Clin Oncol, 28
-
V. Devita, V. Devita, T. Lawrence, S. Rosenberg (2015)
DeVita, Hellman, and Rosenberg's Cancer: Principles & Practice of Oncology -
F. Moisan, E. Francisco, A. Brozovic, G. Duran, Yan Wang, Shobha Seetharam, L. Snyder, P. Doshi, B. Sikic (2012)
Abstract 817: Enhancement of paclitaxel and carboplatin therapy by CCL2 blockade in ovarian cancersCancer Research, 72
-
P. Monti, B. Leone, F. Marchesi, G. Balzano, A. Zerbi, F. Scaltrini, C. Pasquali, G. Calori, F. Pessi, C. Sperti, V. Carlo, P. Allavena, L. Piemonti (2003)
The CC chemokine MCP-1/CCL2 in pancreatic cancer progression: regulation of expression and potential mechanisms of antimalignant activity.Cancer research, 63 21
-
Allavena, Bianchi, Giardina, Polentarutti, Zhou, Introna, Sozzani, Mantovani (1996)
Migratory Response of Human NK Cells to Monocyte-Chemotactic ProteinsMethods, 10 1
-
T. Sun, L. Mary, W. Oh, M. Freedman, M. Pomerantz, K. Pienta, P. Kantoff (2010)
Inherited Variants in the Chemokine CCL2 Gene and Prostate Cancer Aggressiveness in a Caucasian CohortClinical Cancer Research, 17
-
DD Hoff, JA Nieves, LK Vocila, SD Weitman, E Cvitkovic (2007)
The complete phase Ib clinical trial: a method to accelerate new agent development [ASCO abstract 2562]J Clin Oncol, 25
-
S. Kokubo, N. Sakai, K. Furuichi, T. Toyama, S. Kitajima, Toshiya Okumura, K. Matsushima, S. Kaneko, T. Wada (2012)
Activation of p38 Mitogen-Activated Protein Kinase Promotes Peritoneal Fibrosis by Regulating FibrocytesPeritoneal Dialysis International, 32
-
G. Obmolova, A. Teplyakov, T. Malia, Tami Grygiel, R. Sweet, L. Snyder, G. Gilliland (2012)
Structural basis for high selectivity of anti-CCL2 neutralizing antibody CNTO 888.Molecular immunology, 51 2
-
M. Carr, S. Roth, E. Luther, S. Rose, T. Springer (1994)
Monocyte chemoattractant protein 1 acts as a T-lymphocyte chemoattractant.Proceedings of the National Academy of Sciences of the United States of America, 91 9
-
C. Hull (1979)
Pharmacokinetics and pharmacodynamics.British journal of anaesthesia, 51 7
-
T. Ueno, M. Toi, H. Saji, M. Muta, H. Bando, K. Kuroi, M. Koike, Hidekuni Inadera, K. Matsushima (2000)
Significance of macrophage chemoattractant protein-1 in macrophage recruitment, angiogenesis, and survival in human breast cancer.Clinical cancer research : an official journal of the American Association for Cancer Research, 6 8
-
E. Eisenhauer, P. Therasse, J. Bogaerts, L. Schwartz, D. Sargent, R. Ford, J. Dancey, S. Arbuck, S. Gwyther, M. Mooney, Lawrence Rubinstein, L. Shankar, L. Dodd, Robert Kaplan, D. Lacombe, J. Verweij (2009)
New response evaluation criteria in solid tumours: revised RECIST guideline (version 1.1).European journal of cancer, 45 2
-
Weimin Deng, X. Gu, Yi Lu, Chao Gu, Yangyang Zheng, Zhi-Song Zhang, Li Chen, Z. Yao, Lu‐Yuan Li (2012)
Down-modulation of TNFSF15 in ovarian cancer by VEGF and MCP-1 is a pre-requisite for tumor neovascularizationAngiogenesis, 15
-
H. Saji, M. Koike, T. Yamori, S. Saji, M. Seiki, K. Matsushima, M. Toi (2001)
Significant correlation of monocyte chemoattractant protein‐1 expression with neovascularization and progression of breast carcinomaCancer, 92
-
A. Lebrecht, C. Grimm, T. Lantzsch, E. Ludwig, L. Hefler, E. Ulbrich, H. Koelbl (2004)
Monocyte Chemoattractant Protein-1 Serum Levels in Patients with Breast CancerTumor Biology, 25
-
K. Pienta, J. Machiels, D. Schrijvers, B. Alekseev, M. Shkolnik, S. Crabb, Susan Li, Shobha Seetharam, T. Puchalski, C. Takimoto, Y. Elsayed, F. Dawkins, J. Bono (2013)
Phase 2 study of carlumab (CNTO 888), a human monoclonal antibody against CC-chemokine ligand 2 (CCL2), in metastatic castration-resistant prostate cancerInvestigational New Drugs, 31
-
Ning-Bo Hao, Mu-Han Lü, Ya-han Fan, Ya-Ling Cao, Zhi-ren Zhang, Shi-Ming Yang (2012)
Macrophages in Tumor Microenvironments and the Progression of TumorsClinical and Developmental Immunology, 2012
-
Chih-Hsin Tang, C. Tsai (2012)
CCL2 increases MMP-9 expression and cell motility in human chondrosarcoma cells via the Ras/Raf/MEK/ERK/NF-κB signaling pathway.Biochemical pharmacology, 83 3
-
F. Guilloton, G. Caron, C. Ménard, C. Pangault, P. Amé-Thomas, J. Dulong, J. Vos, D. Rossille, C. Henry, T. Lamy, O. Fouquet, T. Fest, K. Tarte (2011)
Mesenchymal stromal cells orchestrate follicular lymphoma cell niche through the CCL2-dependent recruitment and polarization of monocytes.Blood, 119 11
-
L. Faustino, D. Mucida, A. Keller, J. Demengeot, K. Bortoluci, L. Sardinha, Maisa Takenaka, A. Basso, A. Faria, M. Russo (2011)
Regulatory T Cells Accumulate in the Lung Allergic Inflammation and Efficiently Suppress T-Cell Proliferation but Not Th2 Cytokine ProductionClinical and Developmental Immunology, 2012
-
D. Hoff, J. Nieves, L. Vocila, S. Weitman, E. Cvitkovic (2007)
The complete phase Ib clinical trial: A method to accelerate new agent developmentJournal of Clinical Oncology, 25
-
R. Loberg, L. Day, Jason Harwood, C. Ying, Lauren John, Ryan Giles, C. Neeley, K. Pienta (2006)
CCL2 is a potent regulator of prostate cancer cell migration and proliferation.Neoplasia, 8 7
-
G. Fetterly, T. Puchalski, C. Takimoto, D. Mager, Shobha Seetharam, Thomas McIntosh, J. Bono, A. Tolcher, H. Davis, Haojin Zhou (2010)
Utilizing mechanistic PK/PD modeling to simultaneously examine free CCL2, total CCL2, and CNTO 888 serum concentration time data.Journal of Clinical Oncology, 28
-
G. Fetterly, Urvi Aras, Patricia Meholick, C. Takimoto, Shobha Seetharam, Thomas McIntosh, J. Bono, S. Sandhu, A. Tolcher, H. Davis, Honghui Zhou, T. Puchalski (2013)
Utilizing pharmacokinetics/pharmacodynamics modeling to simultaneously examine free CCL2, total CCL2 and carlumab (CNTO 888) concentration time dataThe Journal of Clinical Pharmacology, 53
-
J. Beumer, J. Eiseman, R. Parise, E. Joseph, J. Covey, M. Egorin (2008)
Modulation of Gemcitabine (2′,2′-Difluoro-2′-Deoxycytidine) Pharmacokinetics, Metabolism, and Bioavailability in Mice by 3,4,5,6-TetrahydrouridineClinical Cancer Research, 14
-
B. Moore, J. Kolodsick, V. Thannickal, K. Cooke, T. Moore, C. Hogaboam, C. Wilke, G. Toews (2005)
CCR2-mediated recruitment of fibrocytes to the alveolar space after fibrotic injury.The American journal of pathology, 166 3
-
S. Sandhu, K. Papadopoulos, P. Fong, A. Patnaik, C. Messiou, D. Olmos, George Wang, B. Tromp, T. Puchalski, F. Balkwill, B. Berns, Shobha Seetharam, J. Bono, A. Tolcher (2013)
A first-in-human, first-in-class, phase I study of carlumab (CNTO 888), a human monoclonal antibody against CC-chemokine ligand 2 in patients with solid tumorsCancer Chemotherapy and Pharmacology, 71
-
M. Książkiewicz, E. Gottfried, M. Kreutz, M. Mack, F. Hofstaedter, L. Kunz-Schughart (2010)
Importance of CCL2-CCR2A/2B signaling for monocyte migration into spheroids of breast cancer-derived fibroblasts.Immunobiology, 215 9-10
-
R. Loberg, C. Ying, Matthew Craig, L. Day, E. Sargent, C. Neeley, K. Wojno, L. Snyder, Li Yan, K. Pienta (2007)
Targeting CCL2 with systemic delivery of neutralizing antibodies induces prostate cancer tumor regression in vivo.Cancer research, 67 19
-
S. Biswas, A. Sica, C. Lewis (2008)
Plasticity of Macrophage Function during Tumor Progression: Regulation by Distinct Molecular Mechanisms1The Journal of Immunology, 180
-
S. Gazzaniga, A. Bravo, A. Guglielmotti, N. Rooijen, F. Maschi, A. Vecchi, A. Mantovani, J. Mordoh, R. Wainstok (2007)
Targeting tumor-associated macrophages and inhibition of MCP-1 reduce angiogenesis and tumor growth in a human melanoma xenograft.The Journal of investigative dermatology, 127 8
- Publisher
- Springer Journals
- Copyright
- Copyright © 2014 by Springer International Publishing Switzerland
- Subject
- Medicine & Public Health; Oncology; Biomedicine general
- ISSN
- 1776-2596
- eISSN
- 1776-260X
- DOI
- 10.1007/s11523-014-0320-2
- pmid
- 24928772
- Publisher site
- See Article on Publisher Site
Abstract
C-C chemokine ligand 2 (CCL2) stimulates tumor growth, metastasis, and angiogenesis. Carlumab, a human IgG1κ anti-CCL2 mAb, has shown antitumor activity in preclinical and clinical trials. We conducted a first-in-human phase 1b study of carlumab with one of four chemotherapy regimens (docetaxel, gemcitabine, paclitaxel + carboplatin, and pegylated liposomal doxorubicin HCl [PLD]). Patients had advanced solid tumors for which ≥1 of these regimens was considered standard of care or for whom no other treatment options existed. Dose-limiting toxicities included one grade 4 febrile neutropenia (docetaxel arm) and one grade 3 neutropenia (gemcitabine arm). Combination treatment with carlumab had no clinically relevant pharmacokinetic effect on docetaxel (n = 15), gemcitabine (n = 12), paclitaxel or carboplatin (n = 12), or PLD (n = 14). Total serum CCL2 concentrations increased post-treatment with carlumab alone, consistent with carlumab-CCL2 binding, and continued increase in the presence of all chemotherapy regimens. Free CCL2 declined immediately post-treatment with carlumab but increased with further chemotherapy administrations in all arms, suggesting that carlumab could sequester CCL2 for only a short time. Neither antibodies against carlumab nor consistent changes in circulating tumor cells (CTCs) or circulating endothelial cells (CECs) enumeration were observed. Three of 19 evaluable patients showed a 30 % decrease from baseline urinary cross-linked N-telopeptide of type I collagen (uNTx). One partial response and 18 (38 %) stable disease responses were observed. The most common drug-related grade ≥3 adverse events were docetaxel arm—neutropenia (6/15) and febrile neutropenia (4/15); gemcitabine arm—neutropenia (2/12); paclitaxel + carboplatin arm—neutropenia, thrombocytopenia (4/12 each), and anemia (2/12); and PLD arm—anemia (3/14) and stomatitis (2/14). Carlumab could be safely administered at 10 or 15 mg/kg in combination with standard-of-care chemotherapy and was well-tolerated, although no long-term suppression of serum CCL2 or significant tumor responses were observed.
Journal
Targeted Oncology – Springer Journals
Published: Jun 15, 2014