On October 31, 2023 INmune Bio, Inc. (NASDAQ: INMB) (the "Company"), a clinical-stage immunology company focused on developing treatments that harness the patient’s innate immune system to fight disease, reported an update regarding the company’s patent covering its proprietary cell line, "INB16", as well as the therapeutic composition comprising replication-incompetent INB16 cells known as "INKmune" and methods of treating cancer by administering INKmune, with a goal of achieving in vivo priming of natural killer (NK) cells to enhance the ability of a patient’s own NK-cells to effect cancer surveillance, recognition, and killing (Press release, INmune Bio, OCT 31, 2023, View Source [SID1234636530]).
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In the written opinion for the international patent application titled, "HUMAN T-CELL ACUTE LYMPHOBLASTIC LEUKEMIA CELL LINE & APPLICATIONS FOR TREATING CANCER," an examiner from the International Search Authority at the United States Patent & Trademark Office, authorized by the World Intellectual Property Organization under the Patent Cooperation Treaty, issued a favorable patentability opinion with respect to novelty, inventive step and industrial applicability of all claims and concluding that the application contains patentable subject matter. The application discloses and claims the novel INB16 cell line on deposit with the American Type Culture Collection, as well as compositions comprising replication incompetent INB16 cells ("INKmune") and methods of treating cancer in patients by administering INKmune.
"Patents covering novel cell lines are somewhat rare in practice and form a very small number of total patents issued," said Joshua Schoonover, Esq., in-house General Counsel for the Company. "The company is exploring several potential commercial applications of the INB16 cell line, including uses in cancer research, as well as therapeutic uses, such as applications for treating various cancer indications, or for enhancing other NK cell products to gain advantages, such as improved avidity or memory-like functions."
The Company intends to leverage the favorable written opinion under the patent prosecution highway, a program offered by the USPTO, EPO and other participating patent offices to accelerate examination and ultimately patent issuance for inventions receiving favorable opinions received from certain patent authorities, including WIPO.
INB16 is a tumor cell line which is relatively insensitive to killing by natural killer (NK) cells from healthy donors and from patients. However, it carries molecules on its surface which bind to critical activating ligands on resting NK (rNK) cells and, when an rNK cell binds to INB16 the rNK becomes primed by the activating ligands. One of the key molecules on the INB16 surface is called CD15 and this binds to a ligand on rNK cells called CD2. Virtually all rNK in the blood express CD2. The Company has shown that this CD15-CD2 interaction is critical and has further mapped the intracellular signaling cascade that it activates. During the next 16 hours after INB16 binding, the rNK becomes "primed" to form what is called a "tumor-primed NK cell" – TpNK. These TpNK have the characteristics of memory-like NK cells described by other groups and which are produced in the lab by priming with a cocktail of inflammatory cytokines (IL12/15/18). TpNK are a type of mlNK and can kill tumor cells that are resistant to rNK cell-killing. This means that they can kill a wide range of clinically relevant cancers and leukemias. In addition, the Company’s in vitro data shows that TpNK cells are able to overcome the immunosuppression of hypoxia and regulatory cells in an active Tumor Microenvironment of solid tumors. The Company is extending these findings to show that INKmune-primed NK cells also overcome immunosuppressive cytokines in the TME as a result of the NK differentiation into a memory-like cell.
While INB16 can generate TpNK cells in vitro, it cannot be used to treat NK cells in the blood of patients without being treated to prevent it from further proliferation. To overcome this, the Company uses novel methods to make the INB16 unable to replicate and created a "replication-incompetent cell," which forms a basis of the biologic called "INKmune." The Company has safely treated five patients with hematological cancers and shown that INKmune treatment converts patient’s normal resting NK cells into potent memory-like NK cells much like those that can be produced in vitro. More patients are awaiting trial enrolment. Administration of INKmune may be the only way to create mlNK in vivo because the cytokine cocktail used by others would be too toxic to use as a direct treatment.
The Company opened an IND for a US trial of INKmune in metastatic castration-resistant prostate cancer. The first site will be initiated in the second week of November, meaning that efforts are ahead of schedule for the planned first patient treatment in this quarter. At least one other site is expected to be opened before the end of the year. A clinical batch of INKmune has been manufactured for the first US cohort and is ready to be shipped to a distribution center. Patients at each dose level will receive all three doses of INKmune as an out-patient treatment during the six-month trial. Two markers of INKmune efficacy will be measured – immunologic activation and therapeutic efficacy as a measure tumor response to INKmune therapy, using traditional biomarkers of prostate cancer tumor burden (progression-free survival, changes in blood PSA level, and tumor burden measured by bone and CT scan).