Atherosclerosis is one of the chronic inflammatory vascular diseases with high prevalence and mortality worldwide. It is mainly resulted from accumulative uptake of lipid and prolonged chronic inflammation in tissue. Exposure to adverse maternal environment in utero or at infancy stage may permanently influence the development and health later in life. This phenomenon is so called “developmental programming” or “fetal programming”. Epidemiological studies showed that adverse condition such as overnutrition or ill state of mother may increase the risk of cardiovascular diseases and metabolic disorders in adult offspring. However, the mechanisms underlying the increased susceptibility of offspring to atherosclerosis and metabolic diseases are still unclear. We hypothesized that diet-induced maternal hypercholesterolemia increased the susceptibility to atherosclerosis in adult offspring by inflammation. Apolipoprotein E deficient (ApoE-/-) female mice were fed with control diet (CD) or western diet (WD) prior to and throughout pregnancy and lactation. All mice were fed with WD after weaning. We found that offspring from WD-fed dams were more prone to develop metabolic syndrome and atherosclerosis later in life. Offspring from WD-fed dams exhibited an increased percentage of pro-inflammatory Ly6Chigh monocyte in the blood compared with offspring from CD-fed dams. The expression of inflammatory mediators and macrophages were significantly up-regulated in aorta of female offspring from WD-fed dams, suggesting acceleration of vascular inflammation. Moreover, we showed that maternal hypercholesterolemia promoted M1 macrophage polarization. Together, our study showed that maternal hypercholesterolemia promoted the development of atherosclerosis in female offspring through augmenting inflammation.