Abstract
Cyclopropane FAs (CpFAs) are members of the mammalian lipidome, originating from the diet and gut microbial metabolism. Despite being fully saturated, conformational modeling of CpFAs from C12 to C24 in length revealed that they are bent lipids sharing structural similarities with MUFAs. We therefore hypothesized that CpFAs might share some bioactivities with MUFAs. We modeled and docked a total of 429 known and theoretical CpFAs, MUFAs, and saturated lipids into PPAR α, δ, and γ nuclear receptor structures. CpFAs showed unique spatial binding patterns, especially with PPARδ. In vitro, several CpFAs bound PPARα and δ with potencies comparable to dietary MUFAs, whereas in 3T3-L1 preadipocytes, they upregulated the pan-PPAR target gene Angptl4, indicating downstream functional engagement. These findings suggest that CpFAs share some structural and functional aspects with MUFAs and represent an under-recognized class of metabolically relevant food- and gut-derived lipids.