Design, synthesis, and biological evaluation of novel azaspirooxindolinone derivatives as potent inhibitors of ITK and BTK-positive cancers

Viswanath, Das, Gopal , Muddasani, Naveen Kumar , Rampeesa, Sreenivasareddy , Anugu, Pullareddy , Muddasani, Soňa, Gurská, Petr , Džubák, Marián , Hajdúch, Rambabu, Gundla
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Abstract

Bruton's tyrosine kinase (BTK) and Interleukin-2-inducible T-cell kinase (ITK) are two important members of the Tec family with crucial roles in immune system function. Deregulation in ITK and BTK activity is linked to several hematological malignancies, making them key targets for cancer immunotherapy. In this study, we synthesized new azaspirooxindolinone derivatives and evaluated their cytotoxic activity against ITK/BTK-negative and -positive cancer cell lines. Compounds 3d and 3j exhibited high cytotoxicity in both ITK-positive Jurkat (IC50 = 3.58 µM and 4.16 µM, respectively) and BTK-positive Ramos (IC50 = 3.06 µM and 1.38 µM, respectively) cell lines, indicating their potential dual activity against ITK and BTK. 3a and 3e showed high cytotoxicity specifically in ITK-positive Jurkat cells with IC50 values of 9.36 µM and 10.85 µM, respectively. Compounds 3f and 3g were highly cytotoxic specifically in Ramos cells with IC50 values of 1.82 µM and 1.42 µM, respectively. None of the active compounds exhibited cytotoxic effects against non-cancer cell lines (IC50 > 50 µM). These findings suggest that the synthesized azaspirooxindolinone derivatives, particularly compounds 3d and 3j, hold promise as dual inhibitors for ITK and BTK-positive cancers, while compounds 3a, 3e, 3f, and 3g demonstrate potential as specific inhibitors, warranting further investigation.
作为 ITK 和 BTK 阳性癌症强效抑制剂的新型氮杂螺吲哚啉酮衍生物的设计、合成和生物学评价
布鲁顿酪氨酸激酶(BTK)和白细胞介素-2诱导型T细胞激酶(ITK)是Tec家族的两个重要成员,在免疫系统功能中发挥着关键作用。ITK 和 BTK 活性的失调与多种血液恶性肿瘤有关,因此成为癌症免疫疗法的关键靶点。在这项研究中,我们合成了新的氮杂螺吲哚啉酮衍生物,并评估了它们对 ITK/BTK 阴性和阳性癌细胞株的细胞毒活性。化合物 3d 和 3j 在 ITK 阳性的 Jurkat(IC50 分别为 3.58 µM 和 4.16 µM)和 BTK 阳性的 Ramos(IC50 分别为 3.06 µM 和 1.38 µM)细胞系中均表现出较高的细胞毒性,表明它们对 ITK 和 BTK 具有潜在的双重活性。3a 和 3e 在 ITK 阳性的 Jurkat 细胞中显示出较高的细胞毒性,IC50 值分别为 9.36 µM 和 10.85 µM。化合物 3f 和 3g 对拉莫斯细胞具有很强的细胞毒性,IC50 值分别为 1.82 µM 和 1.42 µM。没有一种活性化合物对非癌细胞系具有细胞毒性作用(IC50 > 50 µM)。这些发现表明,合成的氮杂螺环氧化吲哚啉酮衍生物,尤其是化合物 3d 和 3j,有望成为 ITK 和 BTK 阳性癌症的双重抑制剂,而化合物 3a、3e、3f 和 3g 则显示出作为特异性抑制剂的潜力,值得进一步研究。
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