#384 - Special episode — Obicetrapib: The CETP inhibitor with cardiovascular benefits and potential Alzheimer's prevention
Peter Attia
Mar 16, 2026
Episode description
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In this special episode, Peter takes a deep dive into obicetrapib, an investigational drug that has captured his attention and renewed interest in an entire class of therapies known as CETP inhibitors. He explains what obicetrapib is and how it works, revisits the history of CETP inhibitors and why earlier versions of these drugs failed—sometimes dramatically—and breaks down the key clinical trials designed to evaluate their impact on cardiovascular risk. Peter examines how obicetrapib influences major lipid biomarkers, including LDL cholesterol and lipoprotein(a) [Lp(a)], and discusses emerging evidence from a study that explored the drug's effects on Alzheimer's-related blood biomarkers. He also highlights intriguing findings in individuals carrying the APOE4 allele and reflects on what these early results may mean for both cardiovascular disease prevention and potential implications for Alzheimer's risk, as well as how he is thinking about this therapy in the context of caring for his own patients.
We discuss:
Introducing obicetrapib: CETP inhibitor history, lipid biology, and early Alzheimer's biomarker signals in APOE4 carriers [2:15];
CETP biology explained: lipoproteins, reverse cholesterol transport, and how CETP inhibition alters HDL and LDL particles [5:15];
The early CETP inhibitor story: why raising HDL cholesterol alone failed to deliver cardiovascular protection [13:45];
The rise and fall of early CETP inhibitors: torcetrapib, dalcetrapib, evacetrapib, and anacetrapib [18:30];
Why obicetrapib may succeed where earlier CETP inhibitors failed [23:30];
The BROADWAY trial: obicetrapib's effects on LDL, ApoB, Lp(a), and residual cardiovascular risk [26:00];
Brain lipid metabolism and APOE4: how CETP inhibition may influence cholesterol transport in Alzheimer's disease [30:45];
Findings from the substudy of the BROADWAY trial which looked at changes in biomarkers of Alzheimer's disease [40:00];
Interpreting the BROADWAY Alzheimer's biomarker results: limitations, cautious optimism, and the need for a dedicated prevention trial [46:45];
Why Peter is optimistic about obicetrapib: cardiovascular benefits, Lp(a) reduction, and the path t
Mindsip insights from this episode:
Choose Obacetrapib for lipid-lowering without diabetes risk
Unlike statins which can slightly increase diabetes risk, Obacetrapib appears to be metabolically neutral or even beneficial, a significant advantage for a lipid-lowering drug.
Reduce Lp(a) levels with obacetrapib for cardiovascular health
Obacetrapib is shown to reduce the genetically-determined and hard-to-modify cardiovascular risk factor Lp(a) by about a third.
Leverage Obacetrapib to combat Alzheimer's risk in APOE4 carriers
A drug called Obacetrapib is generating excitement for its potential to impact Alzheimer's disease, particularly for those with an APOE4 allele.
Recognize high HDL may indicate heart disease risk
A very high HDL cholesterol level is not automatically protective and can be a sign of a genetic defect (like in the SRB1 receptor) that actually increases heart disease risk.
Utilize Obacetrapib to enhance brain health by increasing APOA1 levels
By increasing circulating APOA1, Obacetrapib may allow more of this protein to cross the blood-brain barrier to help clear lipids, partially offsetting the dysfunction caused by the APOE4 protein.
Leverage obacetrapib to effectively lower LDL and APOB
Obacetrapib may succeed where four previous CETP inhibitors failed because it robustly lowers LDL and APOB without the off-target toxicities or lack of efficacy seen in its predecessors.
Reduce Alzheimer's biomarkers with Obacetrapib for APOE4/E4 carriers
In a study, APOE4/E4 carriers on Obacetrapib saw their Alzheimer's biomarker P-Tau217 decrease by nearly 8%, while the placebo group's biomarker increased by almost 13%.
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