Publication date: 19/06/2017
Celyad (Euronext Brussels and Paris, and NASDAQ: CYAD), a leader in the discovery and development of engineered CAR-T cell therapies, today announces promising early clinical results at the 3-month follow-up of the first dose-level in the solid tumor arm of the THINK trial (THerapeutic Immunotherapy with CAR-T NKR-2).
At the first 3 x 108 cell dose-level administered to a total of three patients with metastatic cancer, the two colorectal cancer (mCRC) patients, who were progressing after at least two prior chemotherapy regimens, achieved a confirmed Stable Disease (SD) according to RECIST criteria at three months. According to recent studies conducted on similar patient populations, median progression free survival in these patients under standard of care is between 1.9 and 3.2 months. The third patient, a refractory pancreatic patient, was in progression at the same time point. No toxicity signals were observed in any of the patients.
Christian Homsy, CEO of Celyad comments: “We are pleased to have observed these encouraging preliminary results in such a late stage population. Despite being dosed only at a tenth of the expected efficacious dose based on animal experiments, the results show a stabilization of the disease. We look forward to the next stages of the trial.”
Dr. Frédéric Lehmann, Vice President Clinical Development and Medical Affairs at Celyad adds: “These early results in the two heavily pre-treated mCRC patients are encouraging, considering the dismal clinical outcome of the existing standard of care for this refractory patient population. Based on these preliminary results, we look forward to progressing our clinical development plan, including higher doses and longer follow-up in the THINK study, as well at starting the SHRINK (CAR-T NKR-2 cells in combination with chemotherapy) and LINK (loco-regional administration) clinical trials shortly.”
Patients in the second dose of the solid tumor arm (1 x 109) are currently being enrolled and treated. CAR-T NKR-2 cells have so far showed a safety profile that could allow an outpatient clinical approach.
The hematological cancer dose escalation arm, including relapsing/refractory Acute Myeloid Leukemia (AML) and Multiple Myeloma (MM) patients, is progressing. The first dose patients have been registered and are being treated with no toxicity signals to date.
The THINK trial, conducted in the US and in Europe, includes two stages: a dose escalation and an extension stage. The dose escalation is being conducted in parallel in solid cancers (colorectal, pancreatic, ovarian, triple negative breast and bladder) and in hematologic (AML and MM) cancer groups, while the extension phase will evaluate in parallel each tumor type independently. The dose escalation design includes three dose levels adjusted to body weight: up to 3x108, 1x109 and 3x109 NKR-2 CAR T-cells. At each dose, the patients receive three successive administrations, two weeks apart, of NKR-2 CAR T-cells at the specified dose.
NKR-2 CAR T-cell therapy was designed to act as a targeted therapy with short term persistence and multiple injections in order to provide a better controlled and more predictable safety profile. The primary objective is to avoid uncontrolled in vivo cell expansion and long-term persistence thereby replacing this paradigm with well controlled pharmacokinetics.
Celyad is a clinical-stage biopharmaceutical company focused on the development of specialized CAR-T cell based therapies. The company utilizes its expertise in cell engineering to target cancer. Celyad’s Natural Killer Receptor based T-Cell (NKR-T) platform has the potential to treat a broad range of solid and hematologic tumors. Its lead oncology candidate, the CAR-T NKR-2, has been evaluated in a single dose escalation Phase I clinical trial to assess the safety and feasibility of CAR-T NKR-2 cells in patients suffering from AML or MM. This Phase I study was successfully completed in September 2016. Celyad was founded in 2007 and is based in Mont-Saint-Guibert, Belgium, and Boston, Massachusetts. Celyad’s ordinary shares are listed on the Euronext Brussels and Euronext Paris exchanges, and its American Depository Shares are listed on NASDAQ Global Market, all under the ticker symbol CYAD.
For more information about Celyad, please visit: www.celyad.com
About Celyad’s NKR-T Cell Platform
Celyad is developing a unique CAR-T cell platform, using Natural Killer Receptor (NKR) transduced on to T lymphocytes. The platform targets a wide range of solid and hematological tumors. Unlike traditional CAR-T cell therapy, which target only one tumor antigen, Natural Killer (NK) cell receptors enable a single receptor to recognize multiple tumor antigens. Celyad’s lead candidate, CAR-T NKR-2, is a CAR-T-Cell engineered to express the human NK receptor, NKG2D, which is an activating receptor. CAR-T NKR-2 triggers cell killing through the binding of NKG2D to any of eight naturally occurring ligands that are known to be overexpressed on more than 80% of tumors.
Preclinical results indicate that CAR-T NKR-2 has multiple mechanisms of actions and goes beyond direct cancer cell killing. It inhibits the mechanisms that enable tumors to evade the immune system, activates and recruit anti-tumor immune cells and disrupts the blood supply to the tumor. These mechanisms promote the induction of adaptive immunity, meaning the development of a long-term immune memory against specific tumor antigens of the targeted tumor. In contrast to traditional CAR-T therapeutic approaches, and based on strong preclinical evidence, Celyad’s current CAR-T NKR-2 program does not use patient lymphodepleting pre-conditioning, thereby avoiding the toxicities associated with chemotherapy and allowing the immune system to remain intact.
Celyad is developing both autologous and allogeneic CAR-T NKR-2 approaches. For autologous CAR-T NKR-2, Celyad collects the patient’s own T-Cells and engineers them to express NKG2D in order to target cancer cells effectively. Celyad’s allogeneic platform engineers the T-Cells of healthy donors, to also express TCR Inhibitory Molecules (TIMs), to avoid having the donor cells rejected by the patient’s normal tissues (also called Graft vs. Host Disease). The preclinical research underlying this technology was originally conducted at Dartmouth College by Dr. Charles Sentman and has been published extensively in peer-reviewed publications.