Lipopolysaccharide has been utilized as a carrier for the TNP hapten, producing an antigen which induces an in vivo thymus-independent antibody response to TNP as determined using athymic nude mice and their normal littermates. The immune response to TNP-LPS was investigated at both the antibody-forming cell and the serum antibody levels. The primary response to an optimal dose of TNP-LPS (1.0 μg) exhibited unusual kinetics reaching a sharp peak on day 3 of 58,000 anti-TNP PFC/spleen. Serum antibody to TNP was first detected on day 3 and reached a maximum log 2 titer of 17.5 on day 5, an uncommonly high level for hapten-carrier conjugates and most carriers. Both the anti-TNP serum antibody and PFCs were exclusively IgM. No IgG antibody was detected in the primary response through 28 days postimmunization, nor was any detected in any experiment described in this paper. The primary PFC response to 1.0 μg of TNP-LPS was specific for TNP, producing no evidence of polyclonal antibody synthesis. The relative affinities of PFC-secreted antibody were investigated using hapten inhibition. The hapten inhibition curves for TNP-LPS and TNP-SRBC were very similar, indicating that relatively high affinity antibody was elicited by TNP-LPS. The secondary response to this dose following priming with TNP-SRBC or TNP-LPS was similar to the primary response, though the peak was less sharp in both cases. The response to the homologous secondary challenge shifted somewhat, reaching a peak on days 3–4. The effect of various doses in priming or challenging for the secondary response to TNP-LPS was investigated. Using an increased PFC response as a criterion, no dose was optimal for priming or immunological memory to TNP-LPS. While the adoptive primary response to TNP-LPS reached a low level peak on day 7, the adoptive secondary attained a maximum on day 6. This shift in kinetics in intact mice and in adoptive hosts in comparing primary to secondary responses indicated that a state of B cell priming may be induced. However, its full expression may be suppressed by endogenous factors at the time of priming, such as the high level of circulating anti-TNP antibody or residual antigen. Adoptive transfer would remove the cells from these influences, allowing such B cell priming to manifest itself fully.