On November 3, 2025 Precision BioSciences, Inc. (Nasdaq: DTIL), a clinical stage gene editing company utilizing its novel proprietary ARCUS platform to develop in vivo gene editing therapies for high unmet need diseases, reported financial results for the third quarter ended September 30, 2025, and provided a business update.

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"Throughout the third quarter, we made strong progress across our gene editing pipeline and reported compelling Phase 1 safety and efficacy data for PBGENE-HBV at the International Coalition to Eliminate HBV Cure Symposium. We’re also eagerly awaiting a late-breaking oral presentation at AASLD on November 10th," said Michael Amoroso, Chief Executive Officer of Precision BioSciences. "The PBGENE-HBV data presented so far this year has shown proof of durable activity and a safety profile that allows us to continue dose escalation in pursuit of achieving a complete cure for hepatitis B patients. With great excitement, in 2026 we anticipate starting the first-in-human clinical trial with our second program, PBGENE-DMD for DMD patients, following our targeted IND submission by the end of 2025. We are highly encouraged by the unique preclinical data showing the potential to restore a nearly full length dystrophin gene which is native to the human body with the goal of improving function over time."

Wholly-Owned Portfolio:

PBGENE-HBV (Hepatitis B Viral Elimination Program):

On October 14th, Precision announced that it had been selected to deliver a late-breaking oral presentation at the upcoming Liver Meeting 2025 during the 75th American Association for the Study of Liver Diseases. The oral presentation will feature new data from the multiple cohorts of the ongoing Phase 1 ELIMINATE-B Trial.

On October 7th, Precision announced that the first clinical trial sites in the U.S. for the ELIMINATE-B trial had officially been activated. The site at Massachusetts General Hospital in Boston, Massachusetts, is now actively recruiting chronic hepatitis B patients along with multiple global clinical trial sites.

On September 12th, the Company presented data from the Phase 1 ELIMINATE-B trial of PBGENE-HBV at the 6th International Coalition to Eliminate HBV Cure Symposium in Berlin, Germany. To date, PBGENE-HBV has shown to be well-tolerated by patients in both Cohort 1 and Cohort 2, who received multiple doses of 0.2 mg/kg of PBGENE-HBV and 0.4 mg/kg, respectively. In addition, PBGENE-HBV has demonstrated a substantial HBsAg reduction in all patients across Cohort 1 with one patient in Cohort 1 achieving a durable HBsAg reduction of approximately 50% from baseline that was ongoing seven months following initial dose administration. Given the favorable safety profile of Cohorts 1 and 2, the Data Monitoring Committee recommended the Company to proceed with dosing Cohort 3 which occurred during the third quarter of 2025.

On September 8th, Precision announced the issuance of a U.S. Patent (No. 12,410,418) by the U.S. Patent and Trademark Office (USPTO) titled "Optimized engineered meganucleases having specificity for a recognition sequence in the Hepatitis B Virus genome." The composition of matter claims in the patent encompass the PBGENE-HBV ARCUS nuclease which has an expiration date in March 2042. Patents in Europe and Hong Kong granted earlier this year included similar composition of matter claims.

PBGENE-DMD (Muscle Targeted Excision Program):

On October 10th, the Company presented a late-breaking poster presentation at the 30th Annual International Congress of the World Muscle Society meeting highlighting durable improvements in muscle function over time through increased dystrophin expression and dystrophin-positive cells for PBGENE-DMD. The data from a DMD mouse model demonstrated that dystrophin protein was detected in all muscles evaluated following the administration of PBGENE-DMD at doses up to 1×1014 vg/kg, with increased expression observed at nine months versus prior timepoints in the quadriceps, gastrocnemius, heart, and diaphragm, resulting in substantial and sustained functional muscle improvement. An increase in dystrophin-positive muscle cells were observed in all muscles. The maximum force output was significantly improved over untreated DMD mice at three, six and nine months post-treatment, highlighting strong durability of PBGENE-DMD outcomes.

Precision has completed final toxicology studies and is manufacturing clinical supplies, with an anticipated IND filing by the end of 2025. Pending IND clearance, Phase 1 initiation in DMD patients is anticipated in the first half of 2026 with initial data expected to follow in the second half of 2026.

Partnered In Vivo Gene Editing Programs:

iECURE-OTC (Gene Insertion Program)

Led by partner, iECURE, ECUR-506 is an ARCUS-mediated in vivo targeted gene insertion program currently in a first-in-human trial (OTC-HOPE) evaluating ECUR-506 as a potential treatment for neonatal onset ornithine transcarbamylase (OTC) deficiency.

Several recent medical conference presentations with updated ECUR-506 clinical data include:

The 6th International Symposium on Urea Cycle Disorders and the 15th International Congress of Inborn Errors of Metabolism, both held in early September in Kyoto, Japan. In October, presentations at medical conferences included the European Society of Gene & Cell Therapy Annual Congress held in Sevilla, Spain, and the American Society of Human Genetics Annual Meeting in Boston, Massachusetts.

These data presentations build upon previously reported clinical results demonstrating complete clinical response in the first participant at the lowest dose level (1.3×1013 GC/kg) of ECUR-506, as defined by the study protocol. The OTC-HOPE study is ongoing in the U.K., the U.S., Australia, and Spain with data from the trial expected in the first half of 2026.

Non-Core Ex Vivo Programs:

Azer-Cel (azercabtagene zapreleucel allogeneic CAR T treatment for cancer)

Imugene Limited, Precision’s clinical stage partner developing azer-cel for oncology indications, announced on September 17th, additional efficacy data from its Phase 1b clinical trial evaluating azer-cel in patients with relapsed/refractory diffuse large B-cell lymphoma. The updated data showcased an overall response rate of 81% in patients treated with azer-cel and IL-2 with seven complete responses and six partial responses including several patients remaining in durable remission beyond one year.

On October 28th, Imugene announced the first efficacy results from the CAR T-naïve indication cohort of its ongoing Phase 1b trial of azer-cel. Of the six evaluable CAR T-naïve patients, five (83%) achieved an overall response including three (50%) complete responses. The result of the sixth patient’s follow-up scan is pending. A total of ten patients have been treated in this CAR T-naïve cohort thus far, with additional results to come upon patient follow-up. These initial results encompass several rare lymphoma subtypes, notably Waldenström Macroglobulinemia (WM), Marginal Zone Lymphoma (MZL) and Primary Central Nervous System Lymphoma (PCNSL).

Imugene is actively enrolling patients in the Phase 1b azer-cel trial at ten U.S. sites and five sites in Australia. Imugene has scheduled a Type C meeting with the U.S. Food and Drug Administration (FDA) to discuss potential pivotal study design options for azer-cel. The decision to proceed to a meeting with the FDA to discuss a pivotal trial reflects the positive, durable clinical data that has been generated to date and adds to the growing clinical data set supporting the ARCUS platform. On October 31, 2025, Precision received an $8 million milestone payment in cash and stock from Imugene.

Corporate Updates:

Mark Sulkowski, M.D. Appointed Head Clinical Development Advisor

In August, Mark Sulkowski, Professor of Medicine at the Johns Hopkins University School of Medicine and renowned expert in hepatic and infectious diseases has expanded his advisory role with Precision. In the newly created role, Head Clinical Development Advisor, Dr. Sulkowski will work closely with Precision’s leadership and cross-functional teams to support clinical strategy across the development lifecycle for the Company’s on-going PBGENE-HBV Phase 1 clinical trial as well as initiation of later stage trials. His advisory role will focus on optimizing clinical trials, including translational integration, and aligning scientific rationale with regulatory objectives.

Quarter Ended September 30, 2025 Financial Results

In July 2025, the Company implemented operating efficiencies, including employment related and other expense reductions, to reduce annual operating expenses and extend its expected cash runway. In the third quarter of 2025, the Company realized reductions in early research and general & administrative expenses which reduced the Company’s operating expenses compared to both the second quarter of 2025 and third quarter of 2024.

Cash, Cash Equivalents, and Restricted Cash: As of September 30, 2025, Precision had approximately $71.2 million in cash, cash equivalents and restricted cash. Based on its expected cash runway, Precision believes it is sufficiently capitalized to reach important milestones for PBGENE-HBV and PBGENE-DMD. The Company expects existing cash and cash equivalents, potential near-term cash from CAR T transactions, along with expected operating efficiencies, operational receipts, and availability of Precision’s at-the-market (ATM) facility to extend Precision’s cash runway into the second half of 2027.

Revenues: Total revenues for the quarter ended September 30, 2025, were less than $0.1 million as compared to $0.6 million for the quarter ended September 30, 2024. The decrease was primarily the result of less billable effort under the Novartis Agreement.

Research and Development Expenses: Research and development expenses were $13.4 million for the quarter ended September 30, 2025, as compared to $13.1 million for the quarter ended September 30, 2024. The increase was primarily the result of an increase in the PBGENE-DMD program partially offset by decreases in the PBGENE-HBV program as it transitioned to the clinic at the end of 2024 and the PBGENE-3243 program which has been paused.

General and Administrative Expenses: General and administrative expenses were $7.3 million for the quarter ended September 30, 2025, as compared to $8.8 million for the quarter ended September 30, 2024. The decrease was primarily the result of employee-related costs and other general and administrative expenses.

Net Loss: Net loss was $21.8 million, or ($1.84) per share (basic and diluted), for the quarter ended September 30, 2025. Net loss was $16.4 million or $(2.25) per share (basic and diluted) for the quarter ended September 30, 2024.

About PBGENE-HBV, A Viral Elimination Program

PBGENE-HBV is Precision’s wholly owned in vivo gene editing program under investigation in a global first-in-human clinical trial, which is designed to be a potentially curative treatment for chronic Hepatitis B infection. PBGENE-HBV is the first and only potentially curative gene editing program to enter the clinic that is specifically designed to eliminate the root cause of chronic Hepatitis B, cccDNA, while inactivating integrated HBV DNA. The ELIMINATE-B trial is investigating PBGENE-HBV at multiple ascending dose levels with three dose administrations per dose level in patients with chronic Hepatitis B. PBGENE-HBV has been granted Breakthrough Therapy designation by the FDA.

About PBGENE-DMD, A Muscle-Targeted Excision Program

PBGENE-DMD is Precision’s development program for the treatment of DMD. DMD is a genetic disease caused by mutations in the dystrophin gene that prevent production of the dystrophin protein and affects approximately 15,000 patients in the U.S. alone. There are currently no approved therapies that can drive durable and significant functional improvements over time. PBGENE-DMD is designed to improve function for more than 60% of patients afflicted with DMD by employing two complementary ARCUS nucleases delivered in a single AAV to excise exons 45-55 of the dystrophin gene. The aim of this approach is to restore a near-full length functional dystrophin protein within the body that more closely resembles normal dystrophin as opposed to synthetic, truncated dystrophin approaches with minimal functional benefit. PBGENE-DMD has received both Rare Pediatric Disease and Orphan Drug designations from the U.S. FDA.

(Press release, Precision Biosciences, NOV 3, 2025, View Source [SID1234659275])