April 17, 2017
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ANGPTL3 loss-of-function mutation may confer lower risk for CAD

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Individuals with a deficiency of angiopoietin-like 3 had a decreased risk for CAD, even in the presence of risk factors, according to findings in the Journal of the American College of Cardiology.

Angiopoietin-like 3 (ANGPTL3) is associated with lower LDL, HDL and triglycerides and operates as an effective inhibitor of lipoprotein lipase and an endogenous inhibitor of endothelial lipase. The researchers analyzed whether ANGPTL3 deficiency was also associated with reduced risk for CAD.

Nathan O. Stitziel, MD, PhD, assistant professor of medicine, cardiovascular division, assistant professor of genetics at Washington University School of Medicine in St. Louis and Cardiology Today Next Gen Innovator, reviewed data from three participants who have inherited compound heterozygous loss-of-function mutations in the ANGPTL3 gene and matched them with three first-degree relatives who did not carry the mutation.

All three family members with ANGPTL3 deficiency had very low plasma lipid concentrations. One participant with the deficiency reported a history of hypertension, type 2 diabetes and previous tobacco use.

Nathan O. Stitziel, MD
Nathan O. Stitziel

 

Researchers used coronary CTA to calculate participants’ coronary artery calcium score. Those with ANGPTL3 deficiency had a CAC score of 0 Agatston units while two of the three relatives without the deficiency had a CAC score > 0. In participants with ANGPTL3 deficiency, their total plaque burden was lower (mean, 0%) compared with the control group (mean, 39%).

Population effects

To review the effects of ANGPTL3 deficiency on the population, Stitziel and colleagues analyzed data from previous studies to see whether the mutations contributed to a lower risk for CAD compared with those without ANGPTL3 deficiency.

Data from ANGPTL3 gene sequencing from participants with CAD (n = 13,194) and without it (n = 26,198) were available for review. The researchers found that one in 309 participants had the ANGPTL3 loss-of-function mutation (0.32%; 95% CI, 0.27-0.39).

Researchers reviewed plasma lipid levels (n = 20,092). Those carrying the ANGPTL3 loss-of-function mutation had 17% lower triglyceride levels (P = .01), lower LDL (P = .04) and lower total cholesterol (P = .0008) when compared with participants who were not carriers of the mutation.

A cohort-based meta-analysis was executed to establish the link between the risk for CAD and loss-of-function mutations in ANGPTL3. Carriers of the mutation had a 34% reduction in the risk for CAD (OR = 0.66; 95% CI, 0.44-0.98) compared with noncarriers.

ANGPTL3 concentrations in participants who had their first MI and those who did not were also analyzed. Those with lowest concentrations had significantly reduced risk for MI vs. those with the highest concentrations (adjusted OR = 0.65; P = 2.2 x 107). After adjusted for observed plasma LDL and triglycerides, the result was moderately attenuated (adjusted OR = 0.71; P = .0001).

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The researchers also conducted a biomarker study measuring circulating ANGPTL3 concentration in 1,493 individuals with MI and 3,232 controls without MI. They found that those in the lowest tertile of circulating ANGPTL3 concentration had reduced odds of MI compared with those in the highest tertile (adjusted OR = 0.65; 95% CI, 0.55-0.77).

Future treatment options

“This study adds ANGPTL3 to the list of therapeutic targets for coronary disease, which includes ANGPTL4, APOC3, LPA, NPC1L1 and PCSK9, that have been validated by finding [loss-of-function] mutations that associate with protection from disease, highlighting the promise and potential of human genetic studies in identifying such targets,” Stitziel and colleagues wrote.

“This association does not imply causality,” Jacques Genest, MD, professor at the department of medicine, division of cardiology at McGill University in Montreal, wrote in a related editorial. “Furthermore, the presence of one [loss-of-function] allele was associated with modest changes in the average lipoprotein phenotype. This is important because a small molecule that decreases ANGPTL3 activity might produce only a modest benefit compared with currently available lipid-lowering agents.” – by Darlene Dobkowski

Disclosure: Stitziel reports receiving a research grant from AstraZeneca and consultant fees from Aegerion Pharmaceuticals. Please see the full study for the other researchers’ relevant financial disclosures. Genest reports no relevant financial disclosures.