The Wistar Institute, Philadelphia, PA, USA.
Gilead Sciences, Inc., 333 Lakeside Dr, Foster City, CA, 94404.
Eur J Immunol. 2021 Oct;51(10):2441-2451. doi: 10.1002/eji.202049150. Epub 2021 Sep 16.
Inhibition of the BCL6 BTB domain results in killing Diffuse Large B-cell Lymphoma (DLBL) cells, reducing the T-cell dependent germinal center (GC) reaction in mice, and reversing GC hyperplasia in nonhuman primates. The available BCL6 BTB-specific inhibitors are poorly water soluble, thus, limiting their absorption in vivo and our understanding of therapeutic strategy targeting GC. We synthesized a prodrug (AP-4-287) from a potent BCL6 BTB inhibitor (FX1) with improved aqueous solubility and pharmacokinetics (PK) in mice. We also evaluated its in vivo biological activity on humoral immune responses using the sheep red blood cells (SRBC)-vaccination mouse model. AP-4-287 had a significant higher aqueous solubility and was readily converted to FX1 in vivo after intraperitoneally (i.p.) administration, but a shorter half-life in vivo. Importantly, AP-4-287 treatment led to a reversible effect on (1) the reduction in the frequency of splenic Ki67 CD4 T cells, Tfh cells, and GC B cells; (2) lower GC formation following vaccination; and (3) a decrease in the titers of antigen-specific IgG and IgM antibodies. Our study advances the preclinical development of drug targeting BCL6 BTB domain for the treatment of diseases that are associated with abnormal BCL6 elevation.
BCL6 BTB 结构域抑制导致弥漫性大 B 细胞淋巴瘤 (DLBL) 细胞死亡,减少小鼠中依赖 T 细胞的生发中心 (GC) 反应,并逆转非人类灵长类动物中的 GC 增生。现有的 BCL6 BTB 特异性抑制剂水溶性差,因此限制了其在体内的吸收,也限制了我们对靶向 GC 的治疗策略的理解。我们从一种有效的 BCL6 BTB 抑制剂 (FX1) 合成了一种前药 (AP-4-287),提高了其在水中的溶解度和小鼠体内的药代动力学 (PK)。我们还使用绵羊红细胞 (SRBC) 疫苗接种小鼠模型评估了其对体液免疫反应的体内生物学活性。AP-4-287 的水溶性显著提高,腹腔内 (i.p.) 给药后可迅速转化为 FX1,但体内半衰期较短。重要的是,AP-4-287 治疗可导致 (1) 脾脏 Ki67 CD4 T 细胞、Tfh 细胞和 GC B 细胞频率降低;(2) 疫苗接种后 GC 形成减少;(3) 抗原特异性 IgG 和 IgM 抗体滴度降低。我们的研究推进了针对 BCL6 BTB 结构域的药物靶向治疗与异常 BCL6 升高相关疾病的临床前开发。