Cleveland Clinic-Led Trial Finds That Experimental ‘Gene Silencing’ Therapy Reduces Lipoprotein(a), an Important Risk Factor of Heart Disease, By Up To 98%
From: Cleveland Clinic
April 3, 2022 -- Findings from a new Cleveland
Clinic-led phase 1 trial show that an experimental “gene silencing” therapy
reduced blood levels of lipoprotein(a), a key driver of heart disease risk, by
up to 98%.
Findings from the
“APOLLO Trial: Magnitude and Duration of Effects of a Short-interfering RNA
Targeting Lipoprotein(a): A Placebo-controlled Double-blind Dose-ranging Trial”
were presented today during a late-breaking science session at the American
College of Cardiology’s 71st Annual Scientific Session and
simultaneously published online in the Journal
of the American Medical Association.
In the trial,
participants who received higher doses of SLN360 – a small interfering RNA
(siRNA) therapeutic that “silences” the gene responsible for lipoprotein(a)
production – saw their lipoprotein(a) levels drop by as much as 96%-98%.
Five months later, these participants’ lipoprotein(a) – also known as Lp(a) –
levels remained 71%-81% lower than baseline.
The findings suggest
this siRNA therapy could be a promising treatment to help prevent premature heart
disease in people with high levels of Lp(a), which is estimated to affect 64
million people in the United States and 1.4 billion people worldwide. It is
estimated that nearly 20 to 25% of the world’s population has elevated Lp(a).
“These results showed
the safety and strong efficacy of this experimental treatment at reducing
levels of Lp(a), a common, but previously untreatable, genetically-determined
risk factor that leads to premature heart attack, stroke and aortic stenosis,”
said the study’s lead author Steven E. Nissen, M.D., Chief Academic Officer of
the Heart, Vascular & Thoracic Institute at Cleveland Clinic. “We hope that
further development of this therapy also will be shown to reduce the
consequences of Lp(a) in the clinical setting through future studies.”
Lp(a) has similarities
to LDL, also known as bad cholesterol. Lp(a) is made in the liver, where an
extra protein called apolipoprotein(a) is attached to an LDL-like particle.
Unlike other types of cholesterol particles, Lp(a) levels are 80 to 90%
genetically determined. The structure of the Lp(a) particle causes the
accumulation of plaques in arteries, which play a significant role in heart
disease. Elevated Lp(a) greatly increases the risk of heart attacks and
strokes.
Although effective therapies
to reduce the risk of heart disease by lowering LDL cholesterol and other
lipids exist, currently there are no approved treatments to lower Lp(a). Since
Lp(a) levels are determined by a person’s genes, lifestyle changes such as diet
or exercise have no effect. In the current study, the siRNA therapy reduces
Lp(a) levels by “silencing” the gene responsible for Lp(a) production and
blocking creation of apolipoprotein(a) in the liver.
In the APOLLO trial,
researchers enrolled 32 people at five medical centers in three countries. All
participants had Lp(a) levels above 150 nmol/L, with a median level of 224
nmol/L (75 nmol/L or less is considered normal). Eight participants received a
placebo and the remaining received one of four doses of SLN360 via a single
subcutaneous injection. The doses were 30 mg, 100 mg, 300 mg and 600 mg.
Participants were closely observed for the first 24 hours after their injection
and then assessed periodically for five months.
Participants receiving
300 mg and 600 mg of SLN360 had a maximum of 96% and 98% reduction in Lp(a)
levels, and a reduction of 71% and 81% at five months compared to baseline.
Those receiving a placebo saw no change in Lp(a) levels. The highest doses also
reduced LDL cholesterol by about 20%-25%. There were no major safety
consequences reported and the most common side effect was temporary soreness at
the injection site. The study was extended and researchers will continue to
follow participants for a total of one year.
The APOLLO trial was
funded by Silence Therapeutics plc (Nasdaq: SLN), London, UK. Dr. Nissen has
served as a consultant for many pharmaceutical companies and has overseen
clinical trials for Amgen, AstraZeneca, Bristol Myers Squibb, Eli Lilly,
Esperion, Novartis, Novo Nordisk, Orexigen, Takeda and Pfizer. However, he does
not accept honoraria, consulting fees or other compensation from commercial
entities.
The trial was
coordinated by the Cleveland Clinic Coordinating Center for Clinical Research
(C5Research) and sponsored by Silence Therapeutics plc (Nasdaq: SLN), London,
UK.
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