Cancer Targeted Technology Highlights Prostate Cancer PET Imaging and Radiotherapeutic Advances

Company will share results of PSMA-targeted imaging and radiotherapeutic agents at numerous conferences from April-June

April 24, 2017 — Cancer Targeted Technology recently announced it is focusing on small molecules that target pivotal enzyme targets on cancer. CTT’s theranostic program is focused on the development of two drugs, CTT1057 and CTT1403, that respectively diagnose and treat prostate cancer based on targeting the biomarker prostate-specific membrane antigen (PSMA).

PSMA is over-expressed on prostate cancer, and this expression increases as the cancer metastasizes and becomes castrate-resistant. CTT’s phosphoramidate-based agents bind irreversibly to PSMA, and unlike other agents targeting PSMA, this distinctive mode of binding enhances uptake and internalization by tumor cells, leading to enhanced accumulation of the drugs within the tumor. Initial clinical data on CTT’s drugs in prostate cancer will be presented at five scientific and business meetings in April-June 2017.

CTT’s diagnostic positron emission tomography (PET) imaging agent, CTT1057, is radiolabeled with fluorine-18, and commenced clinical trials in patients with metastatic prostate cancer in Nov. 2016. The study is currently enrolling patients.

Upcoming presentations on the initial data from the CTT1057 clinical trial include:

American Society of Clinical Oncologists meeting in Chicago, June 2-6, 2017

  • “First-In-Human Phase 1 PET Study of CTT1057, a Novel 18F-Labeled Imaging Agent Targeting Prostate Specific Membrane Antigen (PSMA) in Prostate Cancer”

Society of Nuclear Medicine and Medical Imaging meeting in Denver, June 10-14, 2017.

  • “Comparison of a novel fluorine-18 labeled PSMA-targeting agent, CTT1057, to gallium-68 PSMA-11 in patients with prostate cancer”; and
  • “First-in-Human PET studies with CTT1057, a novel fluorine-18 labeled agent, targeting PSMA in prostate cancer”

CTT’s radiotherapeutic drug, CTT1403, is radiolabeled with lutetium-177, and is in late-stage preclinical development, with clinical trials planned for 2018. CTT1403 is uniquely designed to maximize tumor uptake, while minimizing side effects to normal tissues.

Presentations on CTT1403 radiotherapeutic agent include:

American Chemical Society meeting in San Francisco, April 2-6, 2017

  • “Improving the In Vitro and In Vivo Performance of a 177Lu-Labeled Phosphoramidate-Based PSMA Inhibitor with an Albumin-Binding Motif”; and

SNMMI 2017

  • “Comparison of traditional and albumin-binding Lu-177-labeled phosphoramidate-based PSMA inhibitors for targeted radionuclide therapy of prostate cancer”

For more information: www.cancertargetedtechnology.com