YONKERS, NY, USA I February 24, 2020 IContraFect Corporation (Nasdaq:CFRX), a clinical-stage biotechnology company focused on the discovery and development of direct lytic agents (DLAs), including lysins and amurin peptides, as new medical modalities for the treatment of life-threatening, antibiotic-resistant infections, today announced that that the U.S. Food and Drug Administration (FDA) has granted Breakthrough Therapy designation to exebacase for the treatment of MRSA bloodstream infections (bacteremia), including right-sided endocarditis, when used in addition to standard-of-care (SOC) anti-staphylococcal antibiotics in adult patients.

Breakthrough Therapy designation is a program designed by the FDA to expedite the development and review of medicines for serious or life-threatening diseases with preliminary clinical evidence that the investigational therapy may demonstrate substantial improvement on at least one clinically significant endpoint over available therapies.

“Since 1958, when vancomycin was first approved, only one additional agent has gained FDA approval for the treatment of MRSA bacteremia, based on non-inferiority to vancomycin. Despite this new agent, clinical failure and mortality rates for this neglected infectious disease have not improved in over 60 years.” said Roger J. Pomerantz, MD, President, Chief Executive Officer, and Chairman of ContraFect. “The decision by the FDA to grant Breakthrough Therapy designation to exebacase recognizes the urgent need for new therapies that can impact the lives of patients with these MRSA infections. Based on the Phase 2 data, we believe exebacase could be the first anti-infective agent to demonstrate superior outcomes for these patients.” 

The Breakthrough Therapy designation was based on final data from a Phase 2 superiority trial of exebacase in patients with Staphylococcus aureus bacteremia, including endocarditis. This Phase 2 trial evaluated whether the addition of exebacase to SOC antibiotic therapy improved clinical response rates compared to treatment with SOC antibitotics alone. In a pre-specified analysis of the subgroup with MRSA infections, the clinical responder rate at Day 14 among exebacase-treated patients was 42.8 percentage points higher than the responder rate among patients treated with SOC antibiotics alone (74.1% vs 31.3%, respectively, p=0.010). Treatment with exebacase was also associated with a 21-percentage point reduction in the 30-day all-cause mortality (p=0.056), a four day reduction in length of hospital stay, and meaningful reductions in 30-day hospital readmission rates in MRSA-infected patients.

“I’m thrilled that the FDA has granted Breakthrough Therapy designation for exebacase for the treatment of MRSA bacteremia, a difficult to treat infection with consistently poor outcomes   despite conventional antibiotics. In our Phase 2 study, the addition of exebacase to standard-of-care antibiotics to treat MRSA bacteremia was associated with higher clinical success rates and a reduction in mortality,” said Cara Cassino, MD, Chief Medical Officer and Executive Vice President of Research and Development at ContraFect. “We designed the pivotal Phase 3 DISRUPT study of exebacase for the treatment of Staph aureus bacteremia, including right-sided endocarditis, to enable definitive confirmation of these findings. Based on our interactions with the FDA regarding streamlined development of exebacase, this single Phase 3 study, in addition to the full package of data generated to date, may serve as the basis of a Biologics License Application for FDA review and potential approval of exebacase. We look forward to continuing to work closely with the FDA to expedite the development of this promising product candidate.”

About DISRUPT:

DISRUPT is an ongoing, randomized, double-blind, placebo-controlled, multi-center Phase 3 clinical study of exebacase for the treatment of Staph aureus bacteremia, including right-sided endocarditis, caused by MRSA or methicillin-senstitive Staph aureus. This study compares the efficacy, safety and tolerability of exebacase used in addition to SOC antibiotics to SOC antibiotics alone. The Company expects to enroll approximately 350 patients randomized 2:1 to receive either a single dose of exebacase administered as a 2-hour IV infusion in addition to SOC antibiotics or placebo plus SOC antibiotics. The primary efficacy endpoint will be clinical response at Day 14 in patients with MRSA bacteremia, including right-sided endocarditis. Secondary endpoints will include clinical response at Day 14 in All Staph aureus patients (MRSA and MSSA), 30-day all-cause mortality in MRSA patients, and clinical response at Day 30 and Day 60 in both MRSA and All Staph aureus patients. The principal investigator is Dr. Vance Fowler, Professor of Medicine in the Division of Infectious Diseases at Duke University.

About Exebacase (CF-301):

Exebacase is a recombinantly-produced lysin (cell wall hydrolase enzyme) with potent bactericidal activity against Staph aureus, a major cause of bloodstream infections (BSIs) also known as bacteremia. Exebacase has the potential to be a first-in-class treatment for Staph aureus bacteremia.  It has a novel, rapid, and specific mechanism of action that targets the peptidoglycan cell wall that is vital to Staph aureus bacteria. In addition, in vitro and in vivo experiments have shown that exebacase is highly active against biofilms which complicate Staph aureus infections. Exebacase was licensed from The Rockefeller University and is being developed at ContraFect.

About ContraFect:

ContraFect is a biotechnology company focused on discovering and developing differentiated biologic therapies for life-threatening, drug-resistant infectious diseases, particularly those treated in hospital settings. An estimated 700,000 deaths worldwide each year are attributed to antimicrobial-resistant infections. We intend to address life threatening infections using our therapeutic product candidates from our platform of DLAs, which include lysins and amurin peptides. Lysins are a new class of DLAs which are recombinantly produced antimicrobial proteins with a novel mechanism of action associated with the rapid killing of target bacteria, eradication of biofilms and synergy with conventional antibiotics. Amurin peptides are a new class of DLAs, which exhibit broad-spectrum activity against a wide range of antibiotic-resistant Gram-negative pathogens, including Pseudomonas aeruginosa, Acinetobacter baumannii, and Enterobacter species. We believe that the properties of our lysins and amurin peptides will make them suitable for targeting antibiotic-resistant organisms, such as MRSA and P. aeruginosa, which can cause serious infections such as bacteremia, pneumonia and osteomyelitis.

SOURCE: ContraFect