On August 26, 2025 Marker Therapeutics, Inc. (Nasdaq: MRKR), a clinical-stage immuno-oncology company focusing on developing next-generation T cell-based immunotherapies for the treatment of hematological malignancies and solid tumor indications, reported an update on the progress and clinical observations from the Phase 1 APOLLO study (Press release, Marker Therapeutics, AUG 26, 2025, View Source [SID1234655481]).

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The Company’s Phase 1 APOLLO study (clinicaltrials.gov identifier: NCT05798897) is a multicenter, open-label clinical study investigating MT-601, a Multi-Antigen Recognizing (MAR)-T cell product, in patients with lymphoma who have relapsed after anti-CD19 CAR-T cell therapy or for whom anti-CD19 CAR-T cell therapy is not an option. Today, Marker is reporting an update on the safety and efficacy data from the dose escalation portion of the study showing a favorable safety profile across all evaluated doses (dose range 100×106-400×106 cells) and a 66% objective response rate in patients with NHL, with 50% demonstrating complete response.

A total of 24 B-cell lymphoma patients have been treated with MT-601 across 7 U.S. clinical sites, including 15 patients with Non-Hodgkin Lymphoma (NHL) and 9 patients with Hodgkin Lymphoma (HL). At the time of the data cutoff (June 2025), 12 NHL and 9 HL patients have been assessed. Patients with NHL and HL received doses ranging from 100×106-400×106 cells and showed objective responses and a favorable safety profile.

"We are very excited and encouraged by the progress of the study," said Juan Vera, M.D., President and CEO of Marker Therapeutics. "The safety and preliminary efficacy data from our Phase 1 APOLLO study underscore the potential of MT-601 in heavily pre-treated patients with lymphoma, who have relapsed after multiple lines of therapy, including CAR-T cells and bispecific antibodies. While CAR-T cells have gained acceptance in the treatment of lymphoma, with approximately 8,000 patients treated globally in 2024, 40-60% of such patients have disease progression within the first year of treatment. We believe that MT-601 could address this critical unmet need and offer new hope to patients who have exhausted multiple lines of treatment, including CAR-T cell therapy."

Efficacy and Duration of Response

The 12 NHL patients received doses ranging from 100×106-200×106 cells and had undergone multiple lines of therapy (median of 5 prior lines of therapy), including anti-CD19 CAR-T cells (n=9) and bispecific antibodies (n=4); dual exposed patients (n=4). 8 out of 12 NHL patients had objective responses (66%), with 6 patients demonstrating complete response (CR) as best response (50%). Durable responses were observed (range 3-24 months) with 5 patients showing continued response ≥6 months, including 3 patients with ≥12 months durability.

HL patients received doses ranging from 200×106-400×106 cells and had undergone a median of 8 prior lines of therapy. Seven out of 9 HL patients had objective responses (78%), with 1 patient demonstrating CR (11%) highlighting the versatility of MT-601 across multiple histologies.

Safety Profile

The dose escalation portion of the study tested doses ranging from 100×106-400×106 cells in patients with B-cell lymphoma. To date, no DLTs have been reported at the highest dose (400×106 cells). Infusion of MT-601 was well tolerated in all study participants, with no observation of ICANS and two reported Grade 1 cytokine release syndrome (CRS) events (fever; no treatment was required). Patients were treated with or without lymphodepleting chemotherapy prior to receiving infusions of MT-601. No change in DLTs or ICANS was observed between patients treated with and without lymphodepletion. Data collected from the 24 patients treated demonstrated a robust safety profile with no reported serious adverse events reinforcing the benefit of MT-601.

Study Design and Dose Expansion

The Phase 1 APOLLO study is composed of a dose escalation phase, followed by a dose expansion phase. The dose escalation cohort evaluated the safety and optimum dose level of MT-601 with doses ranging from 100×106-400×106 cells. On June 17, the Safety Review Committee (SRC) cleared the pre-specified maximum dose (400×106 cells) for the dose expansion portion of the trial. The dose expansion will enroll patients with DLBCL who have relapsed after anti-CD19 CAR-T cells or who are ineligible for CAR-T therapy.

"The observed outcomes in NHL demonstrate that certain patients can achieve clinically meaningful responses with MT-601 even at lower doses of 100×106 or 200×106 cells," commented Dr. Vera. "We look forward to advancing the study to the dose expansion phase, where we will investigate MT-601 at the maximum dose of 400×106 cells in patients with relapsed DLBCL to potentially build upon these promising results."

Dr. Vera continued, "The encouraging efficacy in patients with NHL was achieved at doses ranging from 100×106-200×106 cells. We believe that investigating MT-601 at the maximum dose of 400×106 cells in the dose expansion cohort could have the potential to further improve the clinical efficacy and durability we are currently observing in patients with NHL. It is particularly encouraging that even at the highest dose level no DLTs were reported in the dose escalation phase. We will continue to closely monitor the safety and efficacy of MT-601 in treated patients and anticipate to provide another data update in the first half of 2026."Webcast Details

Marker will host a live, online-only webcast today at 8:30 am E.D.T. to discuss the clinical results and provide a corporate update. To attend the live event, please use this link to register. During the event, attendees will have the opportunity to submit written questions via the webcast platform’s Q&A feature. After the event, a recording will be made available for replay on the Company’s IR website under Events & Presentations for approximately 30 days.

About MT-601

The Company’s lead product, MT-601, is a multi-antigen recognizing (MAR) T cell product that utilizes a non-genetically modified approach that specifically targets six different tumor antigens upregulated in lymphoma cells (Survivin, PRAME, WT-1, NY-ESO-1, SSX-2, MAGEA-4). Marker is currently investigating MT-601 in the Company-sponsored Phase 1 APOLLO trial (clinicaltrials.gov identifier: NCT05798897) for the treatment of patients with lymphoma who have relapsed after or are not candidates for anti-CD19 CAR-T cell therapies.

About APOLLO

The APOLLO trial (clinicaltrials.gov Identifier: NCT05798897) is a Phase 1, multicenter, open-label study designed to evaluate the safety and efficacy of MT-601 in participants with relapsed or refractory lymphoma who have either failed anti-CD19 chimeric antigen receptor (CAR) T cell therapy or are not candidates for anti-CD19 CAR-T cell therapy. The primary objective of this exploratory Phase 1 clinical trial is to evaluate the optimum dose, safety, and preliminary efficacy of MT-601 in participants with various lymphoma subtypes. The APOLLO study is supported by the National Cancer Institute of the National Institutes of Health under Award Number R44CA291521.

About MAR-T cells

The multi-antigen recognizing (MAR) T cell platform (formerly known as multiTAA-specific T cells) is a novel, non-genetically modified cell therapy approach that selectively expands tumor-specific T cells from a patient’s/donor’s blood capable of recognizing a broad range of tumor antigens. Unlike other T cell therapies, MAR-T cells allow the recognition of hundreds of different epitopes within up to six tumor-specific antigens, thereby reducing the possibility of tumor escape. Since MAR-T cells are not genetically engineered, Marker believes that its product candidates will be easier and less expensive to manufacture, with an improved safety profile compared to current engineered T cell approaches and may provide patients with meaningful clinical benefits.