The combination of atomic force microscopy (AFM) and the Langmuir trough technique was used in this work to investigate the molecular interactions of fengycin with lipid monolayers constituted of the major lipid classes found in human stratum corneum (SC). AFM imaging of spread SC lipids/fengycin monolayers showed that fengycin preferentially partitions into cholesterol-rich phases surrounding 2D domains mainly constituted of ceramide and fatty acid molecules. Penetration experiments of fengycin from the subphase into SC-mimicking monolayers clearly indicated that the lipopeptide insertion at the lipid interface is enhanced in the presence of cholesterol. AFM analysis of mixed SC lipids/fengycin monolayers obtained after lipopeptide penetration revealed that cholesterol strongly interacts with fengycin and undergoes specific molecular interactions with more disordered, loosely packed ceramide molecules. These results highlight the capacity of fengycin to interact with the lipid constituents of the extracellular matrix of SC and, in particular, with cholesterol.