Phase I Study of P-cadherin–targeted Radioimmunotherapy with 90Y-FF-21101 Monoclonal Antibody in Solid Tumors

Purpose: 90Y-FF-21101 is an Yttrium-90–conjugated, chimeric mAb that is highly specific for binding to human placental (P)-cadherin, a cell-to-cell adhesion molecule overexpressed and associated with cancer invasion and metastatic dissemination in many cancer types. We report the clinical activity of 90Y-FF-21101 in a first-in-human phase I study in patients with advanced solid tumors. Patients and Methods: The safety and efficacy of 90Y-FF-21101 were evaluated in a phase I 3+3 dose-escalation study in patients with advanced solid tumors (n = 15) over a dose range of 5–25 mCi/m2. Dosimetry using 111In-FF-21101 was performed 1 week prior to assess radiation doses to critical organs. Patients who demonstrated clinical benefit received repeated 90Y-FF-21101 administration every 4 months. Results: 111In-FF-21101 uptake was observed primarily in the spleen, kidneys, testes, lungs, and liver, with tumor uptake observed in the majority of patients. Organ dose estimates for all patients were below applicable limits. P-cadherin expression H-scores ranged from 0 to 242 with 40% of samples exhibiting scores ≥100. FF-21101 protein pharmacokinetics were linear with increasing antibody dose, and the mean half-life was 69.7 (±12.1) hours. Radioactivity clearance paralleled antibody clearance. A complete clinical response was observed in a patient with clear cell ovarian carcinoma, correlating with a high tumor P-cadherin expression. Stable disease was observed in a variety of other tumor types, without dose-limiting toxicity. Conclusions: The favorable safety profile and initial antitumor activity observed for 90Y-FF-21101 warrant further evaluation of this radioimmunotherapeutic (RIT) approach and provide initial clinical data supporting P-cadherin as a potential target for cancer treatment.

[1]  E. Dolgin Radioactive drugs emerge from the shadows to storm the market , 2018, Nature Biotechnology.

[2]  G. Giaccone,et al.  P2.12-03 Phase I/II Trial Of 177Lu-DOTA0-Tyr3-Octreotate (Lutathera) And Nivolumab for Patients with Extensive-Stage Small Cell Lung Cancer (ES-SCLC) , 2018, Journal of Thoracic Oncology.

[3]  D. Murphy,et al.  [177Lu]-PSMA-617 radionuclide treatment in patients with metastatic castration-resistant prostate cancer (LuPSMA trial): a single-centre, single-arm, phase 2 study. , 2018, The Lancet. Oncology.

[4]  J. Blay,et al.  Pharmacokinetic Considerations for Antibody-Drug Conjugates against Cancer , 2017, Pharmaceutical Research.

[5]  T. Su,et al.  P-Cadherin (CDH3) is overexpressed in colorectal tumors and has potential as a serum marker for colorectal cancer monitoring , 2017, Oncoscience.

[6]  W. Sellers,et al.  Discovery and Optimization of HKT288, a Cadherin-6-Targeting ADC for the Treatment of Ovarian and Renal Cancers. , 2017, Cancer discovery.

[7]  C. Matuchansky,et al.  177Lu-Dotatate for Midgut Neuroendocrine Tumors. , 2017, The New England journal of medicine.

[8]  J. Berlin,et al.  Phase 3 Trial of 177Lu‐Dotatate for Midgut Neuroendocrine Tumors , 2017, The New England journal of medicine.

[9]  André F. Vieira,et al.  P-cadherin and the journey to cancer metastasis , 2015, Molecular Cancer.

[10]  R. Korn,et al.  (90)Y-clivatuzumab tetraxetan with or without low-dose gemcitabine: A phase Ib study in patients with metastatic pancreatic cancer after two or more prior therapies. , 2015, European journal of cancer.

[11]  T. Ishiko,et al.  Significance of P-cadherin overexpression and possible mechanism of its regulation in intrahepatic cholangiocarcinoma and pancreatic cancer , 2015, Cancer science.

[12]  S. Ko,et al.  P-Cadherin Promotes Ovarian Cancer Dissemination Through Tumor Cell Aggregation and Tumor–Peritoneum Interactions , 2014, Molecular Cancer Research.

[13]  C. Hellerbrand,et al.  Downregulation of P-cadherin expression in hepatocellular carcinoma induces tumorigenicity. , 2013, International journal of clinical and experimental pathology.

[14]  Hiroyuki Kasahara,et al.  Preclinical evaluation of anti-cadherin 3 human-mouse chimeric monoclonal antibody FF-21101 radioimmunotherapy , 2013 .

[15]  Robert Williams Discontinued drugs in 2011: oncology drugs , 2013, Expert opinion on investigational drugs.

[16]  Maria Sofia Fernandes,et al.  Epithelial E- and P-cadherins: role and clinical significance in cancer. , 2012, Biochimica et biophysica acta.

[17]  T. Bekaii-Saab,et al.  Fractionated radioimmunotherapy with 90Y‐clivatuzumab tetraxetan and low‐dose gemcitabine is active in advanced pancreatic cancer , 2012, Cancer.

[18]  Y. Bang,et al.  Down-regulation of P-cadherin with PF-03732010 inhibits cell migration and tumor growth in gastric cancer , 2012, Investigational New Drugs.

[19]  Yusuke Nakamura,et al.  In vivo therapeutic effect of CDH3/P-cadherin-targeting radioimmunotherapy , 2012, Cancer Immunology, Immunotherapy.

[20]  R. Hauke,et al.  Treatment of Advanced Pancreatic Carcinoma with 90Y-Clivatuzumab Tetraxetan: A Phase I Single-Dose Escalation Trial , 2011, Clinical Cancer Research.

[21]  J. Christensen,et al.  PF-03732010: A Fully Human Monoclonal Antibody against P-Cadherin with Antitumor and Antimetastatic Activity , 2010, Clinical Cancer Research.

[22]  F. Nomura,et al.  Anti-Cadherin 3 antibody labeled with Y-90 effectively inhibits tumor growth of non-small cell lung cancer xenograft in nude mice by radioimmunotherapy , 2010 .

[23]  W. Weis,et al.  Structure and biochemistry of cadherins and catenins. , 2009, Cold Spring Harbor perspectives in biology.

[24]  M. Lehnert,et al.  Update on the rational use of 90Y-ibritumomab tiuxetan in the treatment of follicular lymphoma , 2009, OncoTargets and therapy.

[25]  M. Loda,et al.  P‐cadherin as a prognostic indicator and a modulator of migratory behaviour in bladder carcinoma cells , 2008, BJU international.

[26]  Yusuke Nakamura,et al.  Identification of a Novel Tumor-Associated Antigen, Cadherin 3/P-Cadherin, as a Possible Target for Immunotherapy of Pancreatic, Gastric, and Colorectal Cancers , 2008, Clinical Cancer Research.

[27]  L. Gordon,et al.  Safety and efficacy of yttrium-90 ibritumomab tiuxetan in older patients with non-Hodgkin's lymphoma. , 2007, Cancer biotherapy & radiopharmaceuticals.

[28]  G. Moreno-Bueno,et al.  Expression of cadherins and catenins correlates with distinct histologic types of ovarian carcinomas. , 2006, Human pathology.

[29]  S. Shen,et al.  Phase I study of 90Y-CC49 monoclonal antibody therapy in patients with advanced non-small cell lung cancer: effect of chelating agents and paclitaxel co-administration. , 2005, Cancer biotherapy & radiopharmaceuticals.

[30]  S. Vallabhajosula,et al.  Radioimmunotherapy of Prostate Cancer Using 90Y- and 177Lu-Labeled J591 Monoclonal Antibodies: Effect of Multiple Treatments on Myelotoxicity , 2005, Clinical Cancer Research.

[31]  Michael G Stabin,et al.  OLINDA/EXM: the second-generation personal computer software for internal dose assessment in nuclear medicine. , 2005, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[32]  R. Hansen,et al.  Antibody pharmacokinetics and pharmacodynamics. , 2004, Journal of pharmaceutical sciences.

[33]  S. Vallabhajosula,et al.  Phase I trial of yttrium-90-labeled anti-prostate-specific membrane antigen monoclonal antibody J591 for androgen-independent prostate cancer. , 2004, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[34]  J. Doroshow,et al.  A phase I radioimmunotherapy trial evaluating 90yttrium-labeled anti-carcinoembryonic antigen (CEA) chimeric T84.66 in patients with metastatic CEA-producing malignancies. , 2000, Clinical cancer research : an official journal of the American Association for Cancer Research.

[35]  M. van Glabbeke,et al.  New guidelines to evaluate the response to treatment in solid tumors , 2000, Journal of the National Cancer Institute.

[36]  M Van Glabbeke,et al.  New guidelines to evaluate the response to treatment in solid tumors. European Organization for Research and Treatment of Cancer, National Cancer Institute of the United States, National Cancer Institute of Canada. , 2000, Journal of the National Cancer Institute.

[37]  J. Scoazec,et al.  Expression of cadherins in benign, borderline, and malignant ovarian epithelial tumors: a clinicopathologic study of 60 cases. , 1997, Human pathology.

[38]  G Sgouros,et al.  Bone marrow dosimetry for radioimmunotherapy: theoretical considerations. , 1993, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[39]  M. Goitein,et al.  Tolerance of normal tissue to therapeutic irradiation. , 1991, International journal of radiation oncology, biology, physics.

[40]  S. Treves,et al.  Iridium- 191 angiocardiography for the detection and quantitation of left-to-right shunting. , 1980, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.