First in-human clinical data will be revealed including safety and early signs of clinical activity in patients receiving freshly cultured haNK, cryopreserved haNK and combinations of NK cells (aNK and haNK) with adenovirus, yeast, and super agonist IL-15 platforms. These studies form the basis for multiple Phase II and registration trials anticipated to be initiated in 2018.
At this event, senior management of
A webcast of the event will begin at
NantKwest’s unique NK cell-based platform, with the capacity to grow active killer cells as a biological cancer therapy, has been designed to induce cell death against cancer or infected cells by three different modes of action: (1) Direct killing using activated NK cells (aNK) that release toxic granules directly into the cell through cell to cell contact, (2) Antibody-mediated killing using haNKs, which are NK cells engineered to incorporate a high affinity receptor that binds to an administered antibody, enhancing the cancer cell killing effect of that antibody, and (3) Targeted activated killing using taNKs, which are NK cells engineered to incorporate chimeric antigen receptors (CARs) to target tumor-specific antigens found on the surface of cancer cells.
Our aNK, haNK and taNK platform addresses certain limitations of T cell therapies including the reduction of risk of serious “cytokine storms” reported after T cell therapy. As an “off-the-shelf” therapy, NantKwest’s NK cells do not rely on a patient’s own often compromised immune system. In Phase 1 clinical trials in patients with late stage cancer, NantKwest’s NK cells have been successfully administered as an outpatient infusion therapy without any reported severe side effects, even at doses of 10 billion cells.
By leveraging an integrated and extensive genomics and transcriptomics
discovery and development engine, together with a pipeline of multiple,
clinical-stage, immuno-oncology programs that include a Phase 2 trial
for a rare form of melanoma and the planned initiation of a clinical
trial of NK cells targeted to breast cancer, we believe
SVP, Innovation and Investor Relations
Public Relations Director