Azer-Cel Safety Profile was Significantly Improved Compared to Prior Cohorts in Patients Dosed Using Optimized Product at Lower Intensity Lymphodepletion; No Grade 3 or Greater Allogeneic CAR T Related Adverse Events Were Observed

Azer-Cel Achieved 83% Overall Response Rate (ORR), 61% Complete Response (CR) Rate with 55% Durable Response Greater Than or Equal to Six Months Among Evaluable CAR T Relapsed Subjects (n=18)

Upcoming Azer-Cel Meeting with FDA in June to Align on Potential Phase 2 Study in CAR T Relapsed Diffuse Large B-cell Lymphoma (DLBCL); Focus on Trial Design, Size, and Endpoints

PBCAR19B Stealth Cell Proof of Concept Achieved; Designed to Enable Expansion and Persistence by Delaying Host Rejection Through Immune Cloaking

PBCAR19B Stealth Cell Achieved 71% ORR with No Grade 3 or Greater Allogeneic CAR T Related Adverse Events; Most Compelling Signal in Third Line DLBCL (n=5) with 80% ORR and 60% CR (MRD-)

DURHAM, NC, USA I May 31, 2023 I Precision BioSciences, Inc. (Nasdaq: DTIL) a clinical stage gene editing company developing ARCUS®-based in vivo gene editing and ex vivo allogeneic CAR T therapies, today announced program updates across its allogeneic CAR T pipeline. The Company highlighted new interim clinical data for its lead candidate, azercabtagene zapreleucel (azer-cel), as a potential first-in-class allogeneic CD19 CAR T for the growing CAR T relapsed patient population with DLBCL. The Company also provided the first clinical update on PBCAR19B stealth cell, which is in development as a potential best-in-class allogeneic CAR T therapy for patients with relapsed or refractory (r/r) non-Hodgkin lymphoma (NHL), with primary focus on DLBCL.

“Over the last two years, we have pursued a deliberate, multi-faceted approach in the development of our CAR T programs with the aim of bringing off-the-shelf therapies to patients. In the process, we have built one of the most extensive data packages for an allogeneic product, with the goal of tailoring azer-cel for patients who have relapsed following autologous CAR T treatment,” said Michael Amoroso, Chief Executive Officer at Precision BioSciences. “With the updated clinical data presented today, including safety, efficacy, and durability, we believe we have identified the recommended azer-cel dosing regimen to discuss in a clinical meeting with the U.S. Food and Drug Administration (FDA) to align on next steps.”

Mr. Amoroso continued, “In addition to azer-cel, we are also advancing our CD19-targeted program, PBCAR19B stealth cell, which incorporates an immune cloaking approach designed to allow greater CAR T expansion and persistence. Last year, we applied platform-wide manufacturing optimizations using ARCUS for CAR T insertion for both of our clinical candidates. We believe the optimized stealth cell product resulted in preliminary efficacy and safety on par with autologous CAR T in the r/r DLBCL setting. The interim data highlighted today supports further investigation of the stealth cell product candidate in DLBCL patients. Looking ahead, we will continue to evaluate the durability of response in the stealth cell patients and seek potential partnerships in this larger, earlier line setting.”

Azer-cel as a Potential First-in Class Allogeneic CAR T Product Candidate for CD19+ CAR T Relapsed Patients

As of May 30, 2023, we observed continued high response rates with an acceptable safety profile in r/r NHL patients. Among all evaluable subjects (n=61), ORR was 58% with 41% achieving a CR, across all doses and lymphodepletion regimen.

  • Activity was most compelling among the azer-cel treated subjects who had relapsed following autologous CAR T therapy (n=18); ORR was achieved in 83% of subjects and 61% achieved CR.
  • In CAR T relapsed evaluable subjects (n=11), 55% had ongoing durable responses for ≥ 6-months.
  • In the most recent CAR T relapsed cohort receiving optimized Dose Level 4b with FluCy7501 (n=5), 60% ORR was achieved, and 66% of evaluable patients achieved a full molecular remission (MRD-) which may be predictive of durability.
  • No Grade 3 or greater cytokine release syndrome (CRS), immune effector cell-associated neurotoxicity syndrome (ICANS), infection or graft versus host disease was observed in the most recent cohort.

“Azer-cel continues to demonstrate promising results in DLBCL patients who relapsed following CAR T, and we are encouraged by the high overall response rates with molecular remissions in this patient setting,” said Alan List, M.D., Chief Medical Officer at Precision BioSciences. “Based on this dataset, azer-cel has the potential to improve outcomes in this large and growing population with high unmet need. Also based on these results, a clinical meeting with the FDA has been scheduled in June to discuss next steps for azer-cel in the CAR T relapsed setting. We look forward to providing updates on the path forward in the near future.”

PBCAR19B Stealth Cell as a Potential Best-in Class Allogeneic CAR T Product Candidate for Earlier Line CAR T Naïve CD19+ DLBCL

PBCAR19B is Precision’s anti-CD19 targeting allogeneic CAR T candidate designed to evade immune rejection by host T cell and NK cells with a single ARCUS gene edit to insert a CD19 CAR transgene, knock-down beta-2 microglobulin, and insert an HLA-E transgene. The treatment goal of this program is to potentially displace autologous CAR T in the 2nd line DLBCL setting.

As of May 30, 2023, in Phase 1 results we observed an acceptable safety profile with high overall response rates among all evaluable subjects with evidence of molecular remission (MRD-) and preliminary durability at Dose Level 2 (540 million cells)2.

  • Out of seven evaluable subjects at Dose Level 2, five with DLBCL and two with mantle cell lymphoma, PBCAR19B achieved 71% ORR and 43% CR rate.
  • In DLBCL patients, ORR was achieved in 80% of subjects and 60% achieved a CR (MRD-).
  • No Grade 3 or greater cytokine release syndrome (CRS), immune effector cell-associated neurotoxicity syndrome (ICANS), infection or graft versus host disease was observed.
  • PBCAR19B stealth cell achieved proof of concept and appeared to be effective in delaying recovery of host T- and NK-cells.
  • PBCAR19B stealth cell dosed at 540M cells + FluCy750 has been established as the dosing regimen for further investigation in DLBCL patients.

“We are impressed with our PBCAR19B stealth cell construct which appeared to delay host rejection through immune cloaking. Stealth cell achieved a high response rate, especially in DLBCL subjects with a high frequency of MRD- complete responses, and acceptable safety with our improved manufacturing process at Dose Level 2 in the Phase 1 study,” said Dr. List. “The next steps for stealth cell will be to await further durability data and seek thoughtful partnership for ongoing development in the earlier line DLBCL setting.”

Company-Hosted Webcast and Conference Call Information

Precision will host a conference call and webcast today, May 31, 2023, at 8:30 AM ET. The dial-in conference call number is (800) 715-9871 and the conference ID number for the call is 4729500. Participants may access the live webcast, and accompanying presentation materials, as well as the archived webcast on Precision’s website in the Investors section under Events & Presentations:

About Precision BioSciences, Inc.

Precision BioSciences, Inc. is a clinical stage biotechnology company dedicated to improving life (DTIL) with its novel and proprietary ARCUS® genome editing platform. ARCUS is a highly precise and versatile genome editing platform that was designed with therapeutic safety, delivery, and control in mind. Using ARCUS, the Company’s pipeline consists of several in vivo gene editing candidates designed to cure genetic and infectious diseases where no adequate treatments exist and multiple ex vivo clinical candidates. For more information about Precision BioSciences, please visit

1 Dose Level 4b = 500 × 106 (flat dose). FluCy750 lymphodepletion = fludarabine 30 mg/m2 × 3 days + cyclophosphamide 750 mg/m2 × 3 days.

2 Dose Level 2 = 540 × 106 (flat dose) with FluCy750 lymphodepletion (fludarabine 30 mg/m2 × 3 days + cyclophosphamide 750 mg/m2 × 3 days).

SOURCE: Precision BioSciences