CRX-527 belongs to a new family of synthetic lipid A mimetics, the aminoalkyl glucosaminide 4-phosphates, which are considered as potential vaccine adjuvants or stand-alone immunotherapeutics to harness innate immune defenses. Since natural lipid A from bacterial LPS depends on membrane-bound (mCD14) or soluble CD14 for its TLR4 ligand activity, we investigated the involvement of both forms of CD14 in the responses elicited by CRX-527. First, we found that CRX-527 induces NF-kappaB and interferon regulatory factor-3 (IRF-3) activation in human embryonic kidney cells transfected with TLR4 and MD-2 genes alone, whereas the responses to LPS require either co-transfection of the gene encoding mCD14 or addition of soluble CD14. We then observed that monocyte-derived DC, which are devoid of mCD14 respond to CRX-527 but not to LPS in serum-free medium. Furthermore, we found that, in contrast to LPS, CRX-527 induces the production of cytokines in whole blood of a patient with paroxysmal nocturnal hemoglobinuria, a disease in which mCD14-dependent responses are defective. Finally, we demonstrated that splenocytes from CD14-deficient mice produce cytokines in response to CRX-527 but not to LPS. We conclude that the lipid A mimetic CRX-527 does not require the CD14 co-receptor to elicit TLR4-mediated responses.