Publication of the LOCATION clinical study results in the renowned scientific journal of the European Atherosclerosis Society (EAS)
Results of the LOCATION study demonstrate the functionality of CER-001
and are reassuring prior to the publication of the study CARAT, planned for first quarter of 2017
Toulouse, FRANCE, Ann Arbor, UNITED STATES, June 2, 2016 – Cerenis Therapeutics (FR0012616852 – CEREN), an international biopharmaceutical company dedicated to the discovery and development of innovative HDL therapies (“good cholesterol”) for treating cardiovascular and metabolic diseases, today announces the publication of the LOCATION clinical study results in the internationally peer-reviewed journal ATHEROSCLEROSIS (Click here to access the abstract), the reference publication of the European Atherosclerosis Society (EAS).
Dr. Jean-Louis Dasseux, Founder and CEO of Cerenis Therapeutics declared: “Results of the LOCATION study offer a valuable validation of the functionality of CER-001, demonstrating the mimetic’s capacity to penetrate the vessel walls, to preferentially target atherosclerotic plaques and to increase cholesterol efflux capacity. Indeed, these outcomes are of major scientific importance, as proved by their publication in the worldrenowned scientific journal ATHEROSCLEROSIS. Additionally, they are particularly reassuring prior to the publication of the CARAT study results, planned for first quarter of 2017, as the targeting of atherosclerotic plaques was observed at the dose of 3 mg/kg, dose used in this phase II clinical study in post-ACS patients which intends to demonstrate plaque regression”. Professor Erik Stroes, Principal Investigator of the LOCATION study commented: ” The LOCATION study confirms for the first time the targeting of atherosclerotic plaques by apoA-I containing HDL mimetics in humans, an effect only previously observed in experimental models of atherosclerotic disease. Our results are also consistent with the observed reduction in atherosclerosis shown in patients with HDL deficiencies, in patients with homozygous familial hypercholesterolaemia, and in post-ACS patients. Our data support the concept that CER-001 targets plaque regions in patients, which correlates with plaque contrast enhancement.
These clinical findings are supportive of the ongoing CARAT and TANGO studies and may also guide future nanomedicine development using HDL particles for drug delivery in atherosclerosis”. The LOCATION study, whose positive results were announced in July 2015, allowed to assess the selectivity of CER-001, an HDL mimetic made of recombinant human apolipoprotein A-I (apoA-I) and phospholipids, for carotid plaques in patients with advanced atherosclerotic disease. LOCATION provided the first evidence of CER-001 selective targeting of atherosclerotic plaques in patients, and of the role of plaque permeability in plaque penetration by an HDL mimetic. The study evaluated 8 patients with >50% atherosclerotic stenosis of the carotid artery who received an infusion of CER-001 (3 mg/kg body weight) labeled with Zirconium-89, a tracer suited for PET/CT imaging, to determine the extent to which CER-001 targets and penetrates atherosclerotic plaques and the effect on cholesterol efflux, a marker which is inversely related to the incidence of adverse cardiovascular events
The results of the LOCATION study are consistent with the findings of the CER-001 pre-clinical and clinical programs to date, which have shown that CER-001 effectively mobilises cholesterol and regress atherosclerosis. The findings of this study validate plaques targeting with CER-001at the dose being investigated in the planned CARAT study (NCT02484378), a double-blind, placebo-controlled, phase II study assessing the effect of CER-001 on atherosclerosis regression in patients with acute coronary syndrome (ACS). The press release on results of the LOCATION study is available on Cerenis’ website in the section Media/Press releases. Click here to access.
1. Rohatgi A, Khera A, Berry JD, Givens EG, Ayers CR, Wedin KE, Neeland IJ, Yuhanna IS, Rader DR, de Lemos JA, Shaul PW. HDL Cholesterol Efflux Capacity and Incident Cardiovascular Events. N Engl J Med. 2014;371(25):141118051511004.
Investor and scientific forum:
Jefferies Global Healthcare
June 7-10, 2016
Outstanding conference on HDL
therapy in Toulouse, France
June 10, 2016
Kepler Cheuvreux Biotech Days
June 15-16, 2016
June 10, 2016
Revenue for the 1st half of 2016
July 28, 2016
2016 half-year results
September 5, 2016
About Cerenis Therapeutics: www.cerenis.com
Cerenis Therapeutics is an international biopharmaceutical company dedicated to the discovery and development of innovative HDL
therapies for the treatment of cardiovascular and metabolic diseases. HDL is the primary mediator of the reverse lipid transport, or
RLT, the only natural pathway by which excess cholesterol is removed from arteries and is transported to the liver for elimination
from the body.
Cerenis is developing a portfolio of HDL therapies, including HDL mimetics for the rapid regression of atherosclerotic plaque in highrisk
patients such as post-ACS patients and patients with HDL deficiency, and drugs which increase HDL for patients with low number
of HDL particles to treat atherosclerosis and associated metabolic diseases.
Cerenis is well positioned to become one of the leaders in the HDL therapeutic market, with a broad portfolio of programs being
Since its inception in 2005, the company has been funded by top tier investors: Sofinnova Partners, HealthCap, Alta Partners, EDF
Ventures, Daiwa Corporate Investment, TVM Capital, Orbimed, IRDI/IXO Private Equity and Bpifrance (Fund for Strategic Investment)
and last March successfully completed an IPO on Euronext raising €53.4m.
CER-001 is an engineered complex of recombinant human apoA-I, the major structural protein of HDL, and phospholipids. It has been
designed to mimic the structure and function of natural, nascent HDL, also known as pre-beta HDL. Its mechanism of action is to
increase apoA-I and the number of HDL particles transiently, to stimulate the removal of excess cholesterol and other lipids from
tissues including the arterial wall and to transport them to the liver for elimination through a process called Reverse Lipid Transport.
Previous Phase II studies have provided important data demonstrating the efficacy of CER-001 in regressing atherosclerosis in several
distinct vascular beds in patients representing the entire spectrum of cholesterol homeostasis. The totality of the data to date
indicates that CER-001 performs all of the functions of natural pre-beta HDL particles and has the potential to be the best-in-class
HDL mimetic in the market.
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