Sum Eva, Rapp Moritz, Fröbel Philipp, Le Clech Marine, Dürr Harald, Giusti Anna Maria, Perro Mario, Speziale Dario, Kunz Leo, Menietti Elena, Brünker Peter, Hopfer Ulrike, Lechmann Martin, Sobieniecki Andrzej, Appelt Birte, Adelfio Roberto, Nicolini Valeria, Freimoser-Grundschober Anne, Jordaan Whitney, Labiano Sara, Weber Felix, Emrich Thomas, Christen François, Essig Birgit, Romero Pedro, Trumpfheller Christine, Umaña Pablo
Roche Innovation Center Zurich (RICZ), Roche Pharmaceutical Research and Early Development (pRED), Schlieren, Switzerland.
Roche Innovation Center Munich (RICM), pRED, Penzberg, Germany.
Clin Cancer Res. 2021 Jul 15;27(14):4036-4053. doi: 10.1158/1078-0432.CCR-20-4001. Epub 2021 Mar 26.
CD40 agonists hold great promise for cancer immunotherapy (CIT) as they enhance dendritic cell (DC) activation and concomitant tumor-specific T-cell priming. However, the broad expression of CD40 accounts for sink and side effects, hampering the efficacy of anti-CD40 antibodies. We hypothesized that these limitations can be overcome by selectively targeting CD40 agonism to the tumor. Therefore, we developed a bispecific FAP-CD40 antibody, which induces CD40 stimulation solely in presence of fibroblast activation protein α (FAP), a protease specifically expressed in the tumor stroma.
FAP-CD40's activity and FAP specificity were validated by antigen-presenting cell (APC) activation and T-cell priming assays. In addition, FAP-CD40 was tested in subcutaneous MC38-FAP and KPC-4662-huCEA murine tumor models.
FAP-CD40 triggered a potent, strictly FAP-dependent CD40 stimulation . , FAP-CD40 strongly enhanced T-cell inflammation and growth inhibition of KPC-4662-huCEA tumors. Unlike nontargeted CD40 agonists, FAP-CD40 mediated complete regression of MC38-FAP tumors, entailing long-term protection. A high dose of FAP-CD40 was indispensable for these effects. While nontargeted CD40 agonists induced substantial side effects, highly dosed FAP-CD40 was well tolerated. FAP-CD40 preferentially accumulated in the tumor, inducing predominantly intratumoral immune activation, whereas nontargeted CD40 agonists displayed strong systemic but limited intratumoral effects.
FAP-CD40 abrogates the systemic toxicity associated with nontargeted CD40 agonists. This enables administration of high doses, essential for overcoming CD40 sink effects and inducing antitumor immunity. Consequently, FAP-targeted CD40 agonism represents a promising strategy to exploit the full potential of CD40 signaling for CIT.
CD40激动剂在癌症免疫治疗(CIT)中具有巨大潜力,因为它们可增强树突状细胞(DC)激活以及随之而来的肿瘤特异性T细胞启动。然而,CD40的广泛表达导致其被消耗并产生副作用,从而妨碍了抗CD40抗体的疗效。我们推测,通过将CD40激动作用选择性地靶向肿瘤,可以克服这些局限性。因此,我们开发了一种双特异性FAP-CD40抗体,该抗体仅在成纤维细胞活化蛋白α(FAP,一种在肿瘤基质中特异性表达的蛋白酶)存在的情况下诱导CD40刺激。
通过抗原呈递细胞(APC)激活和T细胞启动试验验证了FAP-CD40的活性和FAP特异性。此外,在皮下MC38-FAP和KPC-4662-huCEA小鼠肿瘤模型中对FAP-CD40进行了测试。
FAP-CD40引发了强大的、严格依赖FAP的CD40刺激。FAP-CD40强烈增强了KPC-4662-huCEA肿瘤的T细胞炎症和生长抑制。与非靶向CD40激动剂不同,FAP-CD40介导MC38-FAP肿瘤完全消退,并带来长期保护。高剂量的FAP-CD40对于这些效应必不可少。虽然非靶向CD40激动剂会引起大量副作用,但高剂量的FAP-CD40耐受性良好。FAP-CD40优先在肿瘤中积累,主要诱导肿瘤内免疫激活,而非靶向CD40激动剂则表现出强烈的全身效应,但肿瘤内效应有限。
FAP-CD40消除了与非靶向CD40激动剂相关的全身毒性。这使得高剂量给药成为可能,而高剂量对于克服CD40消耗效应和诱导抗肿瘤免疫至关重要。因此,靶向FAP的CD40激动作用代表了一种有前景的策略,可充分发挥CD40信号传导在CIT中的全部潜力。
