Rebstock Anne-Sophie, Wiedmann Mareike, Stelte-Ludwig Beatrix, Wong Harvey, Johnson Amy J, Izumi Raquel, Hamdy Ahmed, Lerchen Hans-Georg
Vincerx Pharma GmbH, Monheim, Germany.
Vincerx Pharma, Inc., Palo Alto, CA, United States.
Front Pharmacol. 2024 Mar 1;15:1358393. doi: 10.3389/fphar.2024.1358393. eCollection 2024.
The development of bioconjugates for the targeted delivery of anticancer agents is gaining momentum after recent success of antibody drug conjugates (ADCs) in the clinic. Smaller format conjugates may have several advantages including better tumor penetration; however, cellular uptake and trafficking may be substantially different from ADCs. To fully leverage the potential of small molecule drug conjugates (SMDCs) with potent binding molecules mediating tumor homing, novel linker chemistries susceptible for efficient extracellular activation and payload release in the tumor microenvironment (TME) need to be explored. We designed a novel class of SMDCs, which target αvβ3 integrins for tumor homing and are cleaved by neutrophil elastase (NE), a serine protease active in the TME. A peptidomimetic αvβ3 ligand was attached via optimized linkers composed of substrate peptide sequences of NE connected to different functional groups of various payload classes, such as camptothecins, monomethyl auristatin E, kinesin spindle protein inhibitors (KSPi) and cyclin-dependent kinase 9 inhibitors (CDK-9i). NE-mediated cleavage was found compatible with the diverse linker attachments via hindered ester bonds, amide bonds and sulfoximide bonds. Efficient and traceless release of the respective payloads was demonstrated in biochemical assays. The newly designed SMDCs were highly stable in buffer as well as in rat and human plasma. Cytotoxicity of the SMDCs in cancer cell lines was clearly dependent on NE. IC values were in the nanomolar or sub-nanomolar range across several cancer cell lines reaching similar potencies as compared to the respective payloads only in the presence of NE. pharmacokinetics evaluating SMDC and free payload exposures in rat and particularly the robust efficacy with good tolerability in triple negative breast and small cell lung cancer murine models demonstrate the utility of this approach for selective delivery of payloads to the tumor. These results highlight the broad scope of potential payloads and suitable conjugation chemistries paving the way for future SMDCs harnessing the safety features of targeted delivery approaches in combination with NE cleavage in the TME.
在抗体药物偶联物(ADC)近期在临床取得成功之后,用于抗癌药物靶向递送的生物偶联物的研发正蓬勃发展。较小形式的偶联物可能具有多种优势,包括更好的肿瘤穿透性;然而,其细胞摄取和转运可能与ADC有很大不同。为了充分利用小分子药物偶联物(SMDC)与介导肿瘤归巢的强效结合分子的潜力,需要探索在肿瘤微环境(TME)中易于进行有效细胞外激活和有效载荷释放的新型连接子化学。我们设计了一类新型的SMDC,其靶向αvβ3整合素用于肿瘤归巢,并被TME中具有活性的丝氨酸蛋白酶中性粒细胞弹性蛋白酶(NE)切割。一种拟肽αvβ3配体通过由NE的底物肽序列连接到各种有效载荷类别(如喜树碱、单甲基奥瑞他汀E、驱动蛋白纺锤体蛋白抑制剂(KSPi)和细胞周期蛋白依赖性激酶9抑制剂(CDK-9i))的不同官能团组成的优化连接子连接。发现NE介导的切割通过受阻酯键、酰胺键和亚磺酰亚胺键与多种连接子连接兼容。在生化分析中证明了各自有效载荷的高效无痕释放。新设计的SMDC在缓冲液以及大鼠和人血浆中高度稳定。SMDC在癌细胞系中的细胞毒性明显依赖于NE。在几种癌细胞系中,IC值处于纳摩尔或亚纳摩尔范围,仅在存在NE的情况下,与各自的有效载荷相比达到相似的效力。评估大鼠中SMDC和游离有效载荷暴露的药代动力学,特别是在三阴性乳腺癌和小细胞肺癌小鼠模型中具有良好耐受性的强大疗效,证明了这种方法用于将有效载荷选择性递送至肿瘤的实用性。这些结果突出了潜在有效载荷的广泛范围和合适的偶联化学,为未来利用靶向递送方法的安全特性并结合TME中的NE切割的SMDC铺平了道路。
