Verve Therapeutics, Inc. presented interim data from the Company?s ongoing heart-1 Phase 1b clinical trial of VERVE-101 at the American Heart Association?s (?AHA?) Scientific Sessions 2023 in Philadelphia, Pennsylvania, and at an investor webcast event following the AHA presentation. VERVE-101 is an investigational, in vivo base editing medicine designed to be a single-course treatment that inactivates the PCSK9 gene in the liver to durably lower blood low-density lipoprotein cholesterol (?LDL-C?). heart-1 is an open-label, Phase 1b clinical trial in patients living with heterozygous familial hypercholesterolemia, established atherosclerotic cardiovascular disease (?ASCVD?) and uncontrolled hypercholesterolemia.

The trial is designed to evaluate the safety and tolerability of VERVE-101, with additional analyses for pharmacokinetics and pharmacodynamic reductions in blood PCSK9 protein and LDL-C. Single doses of 0.1 mg/kg (n=3), 0.3 mg/kg (n=3), 0.45 mg/kg (n=3), and 0.6 mg/kg (n=1) of VERVE-101 were administered via intravenous infusion. Initial safety data reported were from all ten patients enrolled as of a data cut-off date of October 16, 2023. One patient who received a 0.45 mg/kg dose had not reached day 28 as of the data cut-off date and was not included in the efficacy analysis.

Patients included in both the safety and efficacy analyses had a high burden of coronary artery disease. Nine patients had prior coronary revascularizations with either coronary artery bypass grafting or coronary stenting procedures and four had prior myocardial infarctions. With a mean screening LDL-C of 193 mg/dl, none of the patients were at LDL-C goal on maximally tolerated oral lipid-lowering therapy.

Following a single infusion of VERVE-101, dose-dependent reductions in pharmacodynamic measures of blood PCSK9 protein levels and LDL-C, a validated measure of clinical efficacy for this patient population, were observed one month after treatment. In the interim dataset, six patients were treated at sub-therapeutic doses (0.1 mg/kg and 0.3 mg/kg) and three patients were treated at potentially therapeutic doses (0.45 mg/kg and 0.6 mg/kg). The two patients treated with 0.45 mg/kg of VERVE-101 had a time-averaged blood PCSK9 protein reduction of 59% and 84% and a time-averaged LDL-C reduction of 39% and 48%.

The patient treated with 0.6 mg/kg of VERVE-101 had a time-averaged blood PCSK9 protein reduction of 47% and a time-averaged LDL-C reduction of 55%. In this single participant in the highest dose cohort, the 55% reduction in LDL-C was durable out to 180 days, with follow-up ongoing. Blood PCSK9 protein and LDL-C reductions were quantified as percent change from baseline using the time-weighted average from day 28 through last available follow-up.

The safety profile observed in the heart-1 clinical trial supports continued development of VERVE-101, and the adverse events were consistent with the severe, advanced ASCVD patient population enrolled. VERVE-101 was well-tolerated in the two lower dose cohorts, with no treatment-related adverse events observed. In the two higher dose cohorts, treatment-related adverse events were observed, including transient, mild or moderate infusion reactions and transient, asymptomatic increases in liver transaminases with mean bilirubin levels below the upper limit of normal.

The increase in liver transaminases in the patient dosed in the 0.6 mg/kg cohort was classified as a Grade 3 event. All infusion reactions and liver transaminase elevations resolved without clinical sequelae. Two patients experienced serious adverse events, which were each cardiovascular events in the context of severe underlying ASCVD.

One patient dosed in the 0.3 mg/kg cohort had a fatal cardiac arrest approximately five weeks after treatment due to underlying ischemic heart disease, which was determined by the investigator and independent data and safety monitoring board (?DSMB?) to be unrelated to treatment. One patient dosed in the 0.45 mg/kg cohort experienced a myocardial infarction (Grade 3) the day after treatment. The event was considered potentially related to treatment due to the proximity to dosing.

The event occurred in the setting of unstable chest pain symptoms prior to dosing that were unreported to investigators. Coronary angiography taken after the event showed critical left main equivalent coronary artery disease. The same patient also experienced non-sustained ventricular tachycardia (Grade 2) more than four weeks after dosing, which was determined to be unrelated to treatment.

All safety events were reviewed with the independent DSMB who recommended continuation of trial enrollment with no protocol changes required. The heart-1 trial is enrolling patients in the 0.45 mg/kg and 0.6 mg/kg cohorts in the United Kingdom and New Zealand. With the recent clearance of the investigational new drug application by the FDA for VERVE-101, the Company plans to activate and open U.S. sites.

In 2024, the Company plans to select a single dose from the dose escalation phase, initiate an expansion cohort, and complete this expansion cohort of the heart-1 trial. In the first half of 2024, the Company plans to initiate a Phase 1 clinical trial of VERVE-102, subject to regulatory clearance. VERVE-102 is an in vivo base editing medicine that aims to inactivate the PCSK9 gene in a similar way to VERVE-101.

VERVE-101 and VERVE-102 share an identical guide RNA targeting PCSK9 as well as similar messenger RNA expressing an adenine base editor; however, VERVE-102 is delivered using the Company?s proprietary GalNAc-LNP delivery technology. In a preclinical study of VERVE-102 in non-human primates, a durable time-averaged mean LDL-C reduction of 62% was sustained up to six months following single dose administration at 3 mg/kg (n=4). Following completion of the heart-1 trial and the VERVE-102 trial, the Company plans to initiate a randomized, placebo-controlled Phase 2 clinical trial of either VERVE-101 or VERVE-102 in 2025.