B7-2 expression on tumor cells is important for the acquisition of cytotoxic T lymphocyte activity by spleen cells from low-dose-melphalan-treated MOPC-315 tumor bearers via a mechanism that requires either B7-1 or B7-2 expression on host antigen-presenting cells.

We have previously shown that B7-2 (CD86) and, to a lesser extent, B7-1 (CD80) contribute to the curative effectiveness of low-dose melphalan (L-phenylalanine mustard) for mice bearing a large MOPC-315 tumor under conditions that lead to the acquisition of potent cytotoxic T lymphocyte (CTL) activity at the tumor site. Since B7-1 and B7-2 are expressed on both tumor cells and host antigen-presenting cells (APC), the current studies were undertaken to examine the relative importance of each costimulatory molecule on tumor cells and on host APC for the acquisition of anti-MOPC-315 CTL activity. Utilizing an in vitro system for the acquisition of CTL activity, we found that B7 expression on host APC is important for the development of CTL activity in stimulation cultures of spleen cells from low-dose-melphalan-treated MOPC-315 tumor bearers, although the expression of either B7-1 or B7-2 is sufficient. In addition, we found that B7-2, which is expressed at high levels on stimulator tumor cells, but not B7-1, which is expressed at much lower levels, is also important for the acquisition of CTL activity. However, the vast majority of the CTL activity acquired in vitro in response to stimulation with the B7-2-expressing MOPC-315 tumor cells was found to depend on B7-expressing host APC. Thus, it is likely that B7-2, which is expressed at high levels on MOPC-315 tumor cells, promotes the rapid lysis of MOPC-315 stimulator tumor cells, thereby making tumor-associated antigens more readily available for efficient presentation by B7-expressing host APC which, in turn, stimulate the acquisition of CTL activity by spleen cells from low-dose-melphalan-treated MOPC-315 tumor bearers.

Host B7-1 and B7-2 costimulatory molecules contribute to the eradication of B7-1-transfected P815 tumor cells via a CD8+ T cell-dependent mechanism.

B7-1 (CD80)-transfected P815 tumor cells were previously shown to elicit tumor-eradicating immunity that leads to the regression of B7-1+ P815 tumors after transient growth in normal syngeneic (DBA/2) mice. Here, we show that not only the B7-1 molecule but also the B7-2 (CD86) molecule contributed to the eradication of B7-1+ P815 tumors. The B7-1 molecule that contributed to the eradication of B7-1+ P815 tumors was expressed not only on the tumor cells but also on host APCs, including MAC-1+ cells. The B7-2 molecule that contributed to the eradication of B7-1+ P815 tumors was expressed only on host APCs, such as B220+ cells, and not on the tumor cells. In spite of the fact that B7-expressing host APCs contributed to the eradication of B7-1+ P815 tumors, only CD8+ T cells without help from CD4+ T cells were important for tumor eradication. Taken together, these findings indicate that in addition to the ability of B7-1-transfected tumor cells to stimulate CD8+ T cell-mediated tumor-eradicating immunity directly, such tumor cells can also stimulate CD8+ T cell-mediated tumor-eradicating immunity indirectly as a result of cross-priming through B7-expressing host APCs.

Importance of B7-1-expressing host antigen-presenting cells for the eradication of B7-2 transfected P815 tumor cells.

We have previously shown that B7-2 (CD86)-transfected P815 tumor cells elicit tumor-eradicating immunity that leads to the regression of the B7-2+ P815 tumor after transient growth in normal DBA/2 mice. Here, we show that both the B7-2 and B7-1 (CD80) molecules contribute to the eradication of B7-2+ P815 tumors as treatment of the mice with both anti-B7-2 and anti-B7-1 mAb was required to prevent B7-2+ P815 tumor regression. The cells that expressed the B7-1 molecule following inoculation of B7-2+ P815 tumor cells into normal mice were not the tumor cells but rather host APCs including MAC-1+ cells present in the draining lymph nodes. Moreover, B7-1-expressing host APCs were found to be important for the rejection of B7-2+ P815 tumors as anti-B7-2 mAb alone, which was ineffective in preventing B7-2+ P815 tumor rejection by normal wild-type mice, was effective in preventing B7-2+ P815 tumor rejection by mice in which the B7-1 gene was disrupted. Finally, consistent with the importance of B7-1-expressing host APCs for the generation of tumor-eradicating immunity against B7-2+ P815 tumor cells, CD4+ T cells (not only CD8+ T cells) were found to participate in tumor-eradicating immunity against B7-2+ P815 tumor cells. Thus, in addition to eliciting tumor-eradicating immunity directly, B7-2+ P815 tumor cells elicit tumor-eradicating immunity indirectly through B7-1-expressing host APCs that present tumor-associated Ags to CD4+ T cells.

Therapeutic effectiveness of the immunity elicited by P815 tumor cells engineered to express the B7-2 costimulatory molecule.

It is well accepted that inoculation of B7-1-transfected tumor cells into normal mice leads to tumor rejection and subsequent resistance to challenge. However, the effectiveness of B7-2-transfected tumor cells in eliciting protective antitumor immunity is less clear. Here we show that B7-2-transfected P815 tumor cells (B7-2+) are as effective as B7-1-transfected P815 tumor cells (B7-1+) in eliciting protective immunity in normal DBA/2 mice. In addition, B7-2+ cells were found to be at least as effective as B7-1+ cells retarding tumor progression when admixed with parental P815 tumor cells prior to inoculation into normal mice. Moreover, the B7-2+ cells and the B7-1+ cells were equivalent in their ability to retard tumor growth when administered peritumorally into mice bearing established (approx. 3 mm in diameter) parental P815 tumors. Finally, P815 tumor cells infected with a recombinant replication-defective adenovirus encoding the murine B7-2 gene were effective in retarding the growth of established parental P815 tumors. Thus, B7-1 and B7-2 are comparable in terms of their ability to stimulate the generation of tumor-eradicating immunity in normal mice as well as in mice bearing established parental tumors. Moreover, adenovirus vectors can be used to generate B7-2-expressing tumor cells effective in the immunotherapy of established parental tumors.