Terns Pharmaceuticals Announces Data from Ongoing Phase 1 Pharmacokinetic Study Of Allosteric BCR-ABL Inhibitor TERN-701 In Adult Healthy Volunteers And Highlights Potential For Competitive Differentiation

Terns Pharmaceuticals, Inc. +3.58%

Terns Pharmaceuticals, Inc.




Ability to dose TERN-701 without regard to food represents a key potential differentiator within the allosteric BCR-ABL inhibitor class

Pharmacokinetic data show no clinically significant difference in exposure between fed and fasted dosing

Phase 1 CARDINAL trial evaluating TERN-701 in 2L+ CML patients remains ongoing, with interim data from initial cohorts anticipated in second half of 2024

FOSTER CITY, Calif., April 29, 2024 (GLOBE NEWSWIRE) -- Terns Pharmaceuticals, Inc. ("Terns" or the "Company") (NASDAQ:TERN), a clinical-stage biopharmaceutical company developing a portfolio of small-molecule product candidates to address serious diseases, including oncology and obesity, today announced findings from a Phase 1 study of TERN-701 in Western healthy volunteers. The study is an ongoing Phase 1 open-label, single ascending dose trial to evaluate the pharmacokinetics (PK), food effect, safety and tolerability of TERN-701 in healthy adults. TERN-701 is Terns' proprietary, oral, potent, allosteric BCR-ABL inhibitor, a novel class of therapy for CML that has demonstrated superior efficacy and safety compared to traditional active-site tyrosine kinase inhibitors (TKIs).

"We are pleased with the interim findings from this healthy volunteer study, which indicate TERN-701 can be administered once-daily (QD) with or without food at doses that achieve clinically efficacious exposures. TERN-701 has the potential to be a differentiated BCR-ABL inhibitor with advantages over asciminib, including more convenient dosing to improve treatment options and quality of life for people living with CML," said Emil Kuriakose, MD, chief medical officer at Terns Pharmaceuticals.  

"We are excited to see clinical PK data continuing to support once-daily dosing and new data showing lack of food effect with TERN-701. The ability to dose with or without food is a key potential differentiator from asciminib, the only currently approved allosteric BCR-ABL inhibitor, which requires three hours of fasting with each dose, and twice-daily dosing in multiple clinical settings. We look forward to reporting interim dose escalation data from the ongoing Phase 1 CARDINAL trial in the second half of 2024," concluded Dr. Kuriakose.

The Phase 1 single-ascending dose (SAD) trial is ongoing in the United States and has enrolled 32 healthy volunteers in four dose escalation cohorts of eight participants each to evaluate PK, food effect and safety and tolerability at single doses ranging from 20 mg to 160 mg. No clinically meaningful changes or trends were observed in clinical laboratory data, vital signs or electrocardiogram (ECG) parameters at any dose level. Across the dose range administered to date, TERN-701 PK was linear with a median half-life ranging from 8 to 12 hours. At the 80 mg and 160 mg doses, TERN-701 exposures over 24 hours met or exceeded the predicted efficacious concentrations based on preclinical data1, consistent with observed clinical activity and safety at these doses in the ongoing Phase 1 study in China conducted by our partner, Hansoh Pharmaceuticals. Overall, the PK profile of TERN-701 in Western participants was generally consistent with that observed in the Phase 1 clinical study in Chinese CML patients.

Results of the food effect evaluation at 80 mg of TERN-701 showed no clinically significant differences in plasma exposures (area under curve, AUC) when dosed with a high-fat meal, relative to the fasted state. These results support potential dosing of TERN-701 with or without food, an initial differentiation for TERN-701 as a potentially best-in-class allosteric BCR-ABL inhibitor.

The Phase 1 healthy volunteer study remains ongoing and will proceed to enroll 320 mg and 400 mg dose cohorts. Terns plans to present these healthy volunteer data at an upcoming scientific conference.

Phase 1 CARDINAL Trial Design

The CARDINAL trial is a global, multicenter, open-label, two-part Phase 1 clinical trial to evaluate the safety, PK, and efficacy of TERN-701 in participants with previously treated CML. Part 1 is the dose escalation portion of the trial that will evaluate once-daily TERN-701 monotherapy in approximately 24-36 adults living with CML to be enrolled in up to five dose cohorts. Participants will have chronic phase CML with confirmed BCR-ABL and a history of treatment failure or suboptimal response to at least one second generation TKI (nilotinib, dasatinib or bosutinib). Participants who are intolerant to prior TKI treatment (including asciminib) are also allowed. The primary endpoints for Part 1 are the incidence of dose limiting toxicities (DLTs) during the first treatment cycle, and additional measures of safety and tolerability. Secondary endpoints include TERN-701 PK and efficacy assessments, such as hematologic and molecular responses as measured by the change from baseline in BCR-ABL transcript levels. The starting dose is 160 mg QD with dose escalations as high as 500 mg QD and the option to explore a lower dose of 80 mg QD.

Part 2 is the dose expansion portion of the trial that is planned to enroll approximately 40 patients, randomized to QD treatment with one of two doses of TERN-701 to be selected based on data from Part 1. The primary endpoint of the dose expansion portion of the trial is efficacy, measured by hematologic and molecular responses. Secondary endpoints include safety, tolerability and PK. The overall objective of the CARDINAL trial is to select the optimal dose(s) of TERN-701 to move forward to a potential pivotal trial in chronic phase CML.

The CARDINAL trial plans to enroll at sites in the U.S., Europe and other Terns global territories.

About TERN-701

TERN-701 is Terns' proprietary, oral, potent, allosteric BCR-ABL inhibitor specifically targeting the BCR-ABL myristoyl pocket and is in clinical development for chronic myeloid leukemia. Allosteric inhibitors, which bind to the myristoyl-binding pocket, represent a novel treatment class for CML and have the potential to address the shortcomings of active-site TKIs, including off-target activity and limited efficacy against active site resistance mutations. TERN-701 aims to address the limitations of active-site TKIs with the goal of achieving improved tumor suppression through a combination of potent activity against BCR-ABL including a broad range of mutations and improved safety and tolerability profiles. Hansoh's Phase 1 trial (NCT05367700) evaluating the tolerability, efficacy, and pharmacokinetics of once-daily TERN-701 (HS-10382) for CML in China is ongoing.

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