On April 25, 2022 INmune Bio (NASDAQ: INMB), a clinical stage immunology company focused on developing treatments that harness the patient’s immune system to fight disease, reported that management will participate at the B. Riley Neuro & Ophthalmology Conference which is being held virtually on April 28, 2022 (Press release, INmune Bio, APR 25, 2022, View Source [SID1234612939]).

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B. Riley Neuro & Ophthalmology Conference

RJ Tesi, MD., President and CEO will participate in a fireside chat at the B. Riley Neuro & Ophthalmology Conference which is being held virtually on April 28, 2022.

The conference is by invitation-only with attendance reserved for B. Riley Securities’ institutional clients. Interested attendees should contact their B. Riley Securities representative to inquire about an invitation.

On April 25, 2022 OncoC4, Inc., a clinical stage biopharma company developing novel immunotherapies for cancer, reported that the U.S. Food and Drug Administration (FDA) has granted Fast Track designation to ONC-392, the Company’s next-gen anti-CTLA-4 monoclonal antibody (mAb) that preserves the CTLA-4 immune checkpoint function, as a single agent for the treatment of patients with metastatic non-small cell lung carcinoma (NSCLC) who have had disease progression on prior anti-PD-(L)1 therapy (Press release, BioNTech, APR 25, 2022, View Source [SID1234655987]).

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"We are grateful for the Fast Track designation for ONC-392, which underscores the unmet need for new treatment options for patients with PD(L)-1-resistant NSCLC," said Yang Liu, PhD, co-founder, CEO and Chief Scientific Officer of OncoC4. "We look forward to more frequent interactions with the FDA to accelerate our clinical development path as we seek to bring this promising drug candidate to patients as expeditiously as possible. Our Phase 1b dose expansion study is ongoing for multiple indications, including PD(L)1-resistant NSCLC, with pivotal studies being planned in the near term."

Fast Track designation is intended to facilitate the development and expedite the review of new therapeutics for the treatment of serious or life-threatening conditions where there is an unmet medical need. The ONC-392 program may be eligible for more frequent meetings with the FDA to discuss the drug’s development plan ensuring collection of appropriate data needed to support approval, and more frequent written communications with the FDA regarding topics such as the design of the proposed clinical trials. Fast Track programs also have eligibility for rolling review as well as eligibility for Accelerated Approval and Priority Review if relevant criteria are met.

ONC-392 is currently in Phase 1 clinical testing to evaluate safety, pharmacokinetics, and efficacy as monotherapy and in combination with anti-PD-1 standard of care in advanced solid tumors and NSCLC (PRESERVE-001; NCT04140526). In recently completed Parts A and B of the study, OncoC4 observed promising clinical activity of ONC-392 in PD(L)1-resistant cancer, including NSCLC.

About NSCLC: Lung cancer, of which 84% are NSCLC, accounts for 25% of all cancer deaths, more than any other cancer, in the United States. Immunotherapy targeting PD(L)1 has been transformative for NSCLC in terms of lives saved. Unfortunately, most lung cancer remains resistant to PD(L)1-targeting therapy, and PD(L)1-resistant NSCLC is one of the biggest challenges for cancer immunotherapy and a huge unmet medical need. CTLA-4 is another clinically validated target although no CTLA-4-targeting drug has been approved as monotherapy for lung cancer.

About ONC-392: Based on decades of research led by OncoC4 co-founders, Drs. Yang Liu and Pan Zheng, OncoC4 is developing ONC-392, a nextgen anti-CTLA-4 mAb that most effectively and selectively eliminates regulatory T cells, a major culprit of immune evasion, in the tumor microenvironment. Unlike traditional anti-CTLA-4 antibodies, ONC-392 does not cause lysosomal degradation of CTLA-4 and thus preserves the immune tolerance checkpoint function of CTLA-4 in the rest of the body. As a result, ONC-392 has a much-improved therapeutic index compared to other CTLA-4-targeting drugs.

About the PRESERVE-001 Trial (NCT04140526): The trial is conducted to assess the safety, pharmacokinetics, and efficacy of ONC-392 as a single agent in advanced solid tumors and in combination with anti-PD(L)1 standard of care in Non- Small Cell Lung Cancer and other solid tumors. The study consists of three linked parts: Part A is a dose-finding rapid titration study of ONC-392 as a single agent in patients with advanced solid tumors of various histologies to define the recommended Phase II dose for ONC-392 monotherapy (RP2D-M); Part B is dose-finding for combination with standard dose of pembrolizumab (Part B) to define the Recommended Phase II dose for ONC-392 combination therapy (RP2D-C); and Part C comprises expansion cohorts of ONC-392 in monotherapy and in combination therapy with pembrolizumab to determine safety and initial efficacy.

On April 25, 2022 F. Hoffmann-La Roche Ltd. (hereafter "Roche") [Head Office: Basel, Switzerland. CEO: Severin Schwan] reported its first quarter sales 2022 (January 1 – March 31, 2022) (Press release, Hoffmann-La Roche, APR 25, 2022, View Source [SID1234612868]).

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Roche owns 59.89% of Chugai’s outstanding shares (61.16% of voting rights) as of the end of December 2021.

Its investor update and presentation materials can be found on its website (View Source).
Chugai’s performance for the period of January 1 to March 31, 2022 is included in the announced Roche Group’s results.

On April 25, 2022 Nkarta, Inc. (Nasdaq: NKTX), a biopharmaceutical company developing engineered natural killer cell therapies to treat cancer, reported positive preliminary Phase 1 data from independent dose finding studies of its two lead chimeric antigen receptor (CAR) natural killer (NK) cell therapy candidates, NKX101 and NKX019, in two distinct groups of hematologic malignancies (Press release, Nkarta, APR 25, 2022, View Source [SID1234612903]).

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"We’re excited to see our CAR NK co-lead candidates, NKX101 and NKX019, show such striking early single-agent activity in heavily pretreated patient populations, with an exceptional safety profile without the side effects associated with CAR T cell therapies," said Paul J. Hastings, President and CEO of Nkarta. "These encouraging data across multiple indications further validate Nkarta’s best-in-class NK cell platform, as we seek to transform cancer treatment by bringing together the safety advantages of NK cells with an off-the-shelf modality designed to make the benefits of cell therapy accessible in a community setting."

In the first trial, evaluating NKX101, in relapsed / refractory (r/r) acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS), three of five patients with heavily pre-treated AML who received the higher dose level in a three-dose regimen achieved a complete response (60% CR) with hematologic recovery, with two of the three responses MRD (minimal residual disease) negative. There is currently no standard of care for these patients.

In the second trial, evaluating NKX019, in r/r B cell malignancies, three of six patients treated at the higher dose level in a three-dose regimen showed a complete response (50% CR), including one patient with aggressive diffuse large B cell lymphoma (DLBCL) and one patient with mantle cell lymphoma (MCL). In both trials, no dose limiting toxicity was observed and there were no CAR T like adverse events of any grade.

Nkarta continues to enroll patients in three-dose regimens of 1.5 billion NK cells per dose in the dose finding portions of the NKX101 and NKX019 trials. Data from both programs, including additional follow-up and updates on the higher dose cohorts, will be submitted for presentation at a future medical meeting.

Evaluating NKX101 in r/r acute myeloid leukemia
NKX101 is an allogeneic, cryopreserved, off-the-shelf cancer immunotherapy candidate that uses NK cells engineered to target NKG2D ligands on cancer cells. NKX101 is being evaluated in a dose-escalation Phase 1 study as a multi-dose, multi-cycle monotherapy in patients with r/r AML and higher-risk MDS.

As of April 21, 2022, 21 patients were enrolled and dosed, 17 with a diagnosis of AML and four with MDS. Patients were heavily pre-treated and had received a median of three prior lines of therapy (range of 1 to 12). All patients with AML had received prior treatment with venetoclax. At baseline, the median percentage of blast cells in bone marrow was 27% (range of 3 to 85%).

"Relapsed/refractory acute myeloid leukemia (AML) is a historically hard-to-treat disease, and given the lack of effective treatments, people with cancer and those who treat them are faced with few options," said Marcello Rotta, M.D., Colorado Blood Cancer Institute (CBCI), a part of the Sarah Cannon Cancer Institute at Presbyterian/St. Luke’s Medical Center, and investigator in the NKX101 clinical trial. "Complete responses with corresponding MRD negativity in r/r AML using engineered NK cells, as seen in these preliminary findings, is encouraging. We look forward to leading further investigation to better understand the full potential of a CAR NK approach."

Safety in NKX101
NKX101 was well tolerated. No dose-limiting toxicities were observed. Toxicities associated with engineered chimeric antigen receptor (CAR) T cell treatments were not observed at any dose, including cytokine release syndrome, graft-versus-host disease, and immune effector cell-associated neurotoxicity (ICANS). The most common higher-grade adverse events were myelosuppression – a condition resulting in fewer red blood cells, white blood cells and platelets, and infection, which are common in this patient population post lymphodepletion. Two patients experienced Grade 2 infusion reactions, transient fever and fluid responsive hypotension. (See table 1.) The emerging safety profile of NKX101 is positively differentiated from those of many cell therapies.

Treatment emergent adverse events regardless of relationship based on interim data from open clinical database as of 21 Apr 2022 ​
^ In the setting of febrile neutropenia/pneumonia
Clinical Activity in NKX101
Twenty-one patients who received NKX101 were assessed (See table 2.) In the two highest dose-level cohorts (3 doses of 1 billion cells or 3 doses of 1.5 billion cells), 3 of 5 patients with AML achieved a complete response (60% CR) with hematologic recovery. Two of the 3 reported complete responses were MRD (minimal residual disease) negative. MRD negativity is broadly viewed as an important quantitative measure of disease burden in AML and is associated with increased disease-free survival and decreased risk of recurrence. For all cohorts in the dose finding portion, 8 of 17 patients with AML achieved an overall response (47% ORR) and 3 of 17 achieved a complete response with hematologic recovery (18% CR). Four patients with MDS were treated, with no response observed.

NKX019 is an allogeneic, cryopreserved, off-the-shelf cancer immunotherapy candidate that uses NK cells engineered to target the B-cell antigen CD19, a clinically validated target for B-cell cancer therapies. The NKX019 Phase 1 study is evaluating the safety and anti-tumor activity of NKX019 as a multi-dose, multi-cycle monotherapy in patients with r/r B cell malignancies.

As of April 21, 2022, 13 patients were enrolled and dosed. Ten patients entered the study with a diagnosis of non-Hodgkin lymphoma (NHL), 5 of which were aggressive large B cell lymphoma (LBCL). Patients had received a median of 4 prior lines of therapy (range of 2 to 7). To date, enrollment has included patients with aggressive disease presentations and extensive lesions throughout the body. Patients were enrolled at clinical trial sites in Australia (10) and the United States (3).

"The curative potential of CAR T cell therapy is truly remarkable, but many eligible patients are still not cured, and the safety and logistical challenges of approved autologous CAR T therapy are barriers," said Michael Dickinson, M.D., Lead, Aggressive Lymphoma disease group, Clinical Haematology, Peter MacCallum Cancer Centre and Royal Melbourne Hospital, and investigator in the NKX019 trial. "The NKX019 trial exemplifies the continued progress of our field. NKX019 showed clear activity, in patients with a range of NHL histologies, without the sort of toxicities expected of other cellular therapies, supporting continued exploration of this CAR NK candidate."

Safety in NKX019
NKX019 was well tolerated. No dose-limiting toxicities were observed. Toxicities associated with CAR T cell treatments were not observed at any dose, including cytokine release syndrome, graft-versus-host disease, and ICANS. The most common higher-grade adverse events were myelosuppression – a condition resulting in fewer red blood cells, white blood cells and platelets, which is common in this patient population post lymphodepletion. (See table 3.) One patient experienced Grade 1 infusion reactions. The emerging safety profile of NKX019 is positively differentiated from those of many cell therapies.

Treatment emergent adverse events regardless of relationship based on interim data from open clinical database as of 21 Apr 2022 ​

Clinical Activity in NXK019
Thirteen patients who received NKX019 were assessed. (See table 4.) Five of 6 patients with NHL in the cohort receiving 3 doses of 1 billion cells achieved a response (83% ORR), and 3 of 6 achieved a complete response (50% CR rate). For all cohorts in the dose finding portion, 7 of 10 evaluable patients with NHL achieved an objective response (70% ORR) and 4 of 10 achieved a complete response (40% CR). Three patients with ALL were treated, with no response observed.

NXK019 Clinical Activity (Table 4)

NKX101 is an allogeneic, cryopreserved, off-the-shelf cancer immunotherapy candidate that uses natural killer (NK) cells engineered to target NKG2D ligands on cancer cells. The dose-finding portion of the NKX101 Phase 1 study evaluates the safety and anti-tumor activity of NKX101 as a multi-dose, multi-cycle monotherapy following lymphodepletion in patients with r/r AML and higher-risk MDS. Patients must have received at least one prior therapy, and patients diagnosed with a disease mutation must have received a targeted therapy, where approved.

Patients in the NKX101 Phase 1 trial received a cycle of treatment consisting of fludarabine/ cyclophosphamide lymphodepletion followed by either a three-dose regimen where NKX101 cells were given on Days 0, 7, and 14; or a two-dose regimen where the cells were given on Days 0 and 7. Patients received doses of 100 million, 300 million, 1 billion or 1.5 billion NK cells three times in the 3-dose regimen, or doses of 150 million, 450 million or 1.5 billion NK cells two times in the 2-dose regimen. Based on tumor response and tolerability assessment, patients were eligible to receive additional treatment cycles. Disease assessment was performed by investigator review according to the ELN response criteria for patients with AML and Cheson response criteria for patients with MDS.

About the NKX019 Trial
NKX019 is an allogeneic, cryopreserved, off-the-shelf cancer immunotherapy candidate that uses natural killer (NK) cells engineered to target the B-cell antigen CD19, a clinically validated target for B-cell cancer therapies. The dose-finding portion of the NKX019 Phase 1 study evaluates the safety and anti-tumor activity of NKX019 as a multi-dose, multi-cycle monotherapy following lymphodepletion in patients with r/r B cell malignancies. Patients must have received at least two prior therapies. Patients who received prior autologous CAR-T therapy were not eligible.

Patients in the NKX019 trial received a cycle of treatment consisting of fludarabine/cyclophosphamide lymphodepletion followed by NKX019 cells in a three-dose regimen where cells were given on Days 0, 7, and 14. Patients received doses of 300 million or 1 billion cells three times in a cycle. Based on tumor response and tolerability assessment, patients were eligible to receive additional treatment cycles. Disease assessment was performed by investigator review according to the 2014 Lugano response criteria for patients with NHL and NCCN response criteria for patients with ALL.

About NKX101
NKX101 is an allogeneic, cryopreserved, off-the-shelf cancer immunotherapy candidate that uses natural killer (NK) cells derived from the peripheral blood of healthy donors. It is engineered with a chimeric antigen receptor (CAR) targeting NKG2D ligands on tumor cells. NKG2D, a key activating receptor found on naturally occurring NK cells, induces a cell-killing immune response through the detection of stress ligands that are widely expressed on cancer cells. NKX101 is also engineered with membrane-bound form of interleukin-15 (IL15) for greater persistence and activity without exogenous cytokine support. To learn more about the NKX101 clinical trial in adults with AML or MDS, please visit ClinicalTrials.gov.

About NKX019
NKX019 is an allogeneic, cryopreserved, off-the-shelf cancer immunotherapy candidate that uses natural killer (NK) cells derived from the peripheral blood of healthy adult donors. It is engineered with a humanized CD19-directed CAR for enhanced tumor cell targeting and a proprietary, membrane-bound form of interleukin-15 (IL-15) for greater persistence and activity without exogenous cytokine support. CD19 is a biomarker for normal and malignant B cells, and it is a validated target for B cell cancer therapies. To learn more about the NKX019 clinical trial in adults with advanced B cell malignancies, please visit ClinicalTrials.gov.

On April 25, 2022 Mustang Bio, Inc. ("Mustang") (NASDAQ: MBIO), a clinical-stage biopharmaceutical company focused on translating today’s medical breakthroughs in cell and gene therapies into potential cures for hematologic cancers, solid tumors and rare genetic diseases, reported updated interim data from the ongoing Phase 1/2 clinical trial of MB-106, a CD20-targeted, autologous CAR T cell therapy for patients with relapsed or refractory B-cell non-Hodgkin lymphomas ("B-NHLs") and chronic lymphocytic leukemia ("CLL") (Press release, Mustang Bio, APR 25, 2022, View Source [SID1234612920]). MB-106 is being developed in a collaboration between Mustang and Fred Hutchinson Cancer Center ("Fred Hutch").

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The data, which were presented by Mazyar Shadman, M.D., M.P.H., Associate Professor and physician at Fred Hutch and University of Washington, at the 2022 Tandem Meetings I Transplantation & Cellular Therapy Meetings of the American Society of Transplantation and Cellular Therapy ("ASTCT") and Center for International Blood & Marrow Transplant Research ("CIBMTR"), demonstrated high efficacy and a very favorable safety profile in all patients (n=25). Five dose levels were used during the study, and complete responses were observed at all dose levels. Durable responses were observed in a wide range of hematologic malignancies including follicular lymphoma ("FL"), CLL, diffuse large B-cell lymphoma ("DLBCL"), and Waldenstrom macroglobulinemia ("WM"). An overall response rate ("ORR") of 96% and complete response ("CR") rate of 72% was observed in all patients across all dose levels. Additionally, two patients had been previously treated with CD19-directed CAR T therapy and subsequently relapsed, and both responded to treatment, one patient with FL with a CR and the other with DLBCL with a partial response.

CAR T expansion was observed across all dose levels. At the 28-day evaluation, a favorable safety profile was observed in all 25 patients. No patients experienced grade 3 or 4 cytokine release syndrome or immune effector cell‐associated neurotoxicity syndrome ("ICANS"), and none of the FL patients experienced ICANS of any grade (n=18).

"We are pleased that in this single institution study, we observed a favorable safety profile and a high rate of complete and durable responses, which make MB-106 suitable for outpatient treatment. Additionally, the responses from patients treated previously with CD19-directed CAR T cell therapy show the potential of MB-106 as an immunotherapy option for these patients. Enrollment in this study remains open to patients with CD20+ B-NHLs and CLL, including patients with prior CAR T treatment," said Dr. Shadman.

Manuel Litchman, M.D., President and Chief Executive Officer of Mustang, said, "MB-106 continues to demonstrate highly promising clinical activity. In particular, the 100% response rates of WM patients as well as of NHL patients previously treated with CD19-directed CAR T cell therapy underscore the potential for MB-106 to treat these patient populations with high unmet needs. The possible outpatient administration of this therapy makes it potentially even more compelling. We are excited to advance our CD20-targeted CAR T cell therapy program with the launch of a multicenter Phase 1/2 clinical trial evaluating the safety and efficacy of MB-106 for relapsed or refractory B-NHL and CLL under Mustang’s IND and plan to dose the first patient this quarter."

Scientists at Fred Hutch played a role in developing these discoveries, and Fred Hutch and certain of its scientists may benefit financially from this work in the future.

About MB-106 (CD20-targeted autologous CAR T Cell Therapy)
CD20 is a membrane-embedded surface molecule which plays a role in the differentiation of B-cells into plasma cells. The CAR T was developed by Mustang’s research collaborator, Fred Hutch, in the laboratories of the late Oliver Press, M.D., Ph.D., and Brian Till, M.D., Associate Professor in the Clinical Research Division at Fred Hutch, and exclusively licensed to Mustang in 2017. The lentiviral vector drug substance used to transduce patients’ cells to create the MB-106 drug product produced at Fred Hutch has been optimized as a third-generation CAR derived from a fully human antibody, and MB-106 is currently in a Phase 1/2 open-label, dose-escalation trial at Fred Hutch in patients with B-NHLs and CLL. The same lentiviral vector drug substance produced at Fred Hutch will be used to transduce patients’ cells to create the MB-106 drug product produced at Mustang Bio’s Worcester, MA, cell processing facility for administration in the planned multicenter phase 1/2 clinical trial to be initiated shortly under Mustang Bio’s IND. It should be noted that Mustang Bio has introduced minor improvements to its cell processing to facilitate eventual commercial launch of the product. In addition, prior to commercial launch, Mustang Bio will replace the Fred Hutch lentiviral vector drug substance with vector produced at a commercial manufacturer. Additional information on the trial can be found at View Source using the identifier NCT03277729.