Department of Oncology, Centre Hospitalier Universitaire Vaudois (CHUV), Lausanne University, Lausanne, Switzerland.
Department of Clinical Medicine and Research, Peter MacCallum Cancer Centre, Melbourne, Australia.
Ann Oncol. 2024 Jul;35(7):607-629. doi: 10.1016/j.annonc.2024.04.002. Epub 2024 Apr 20.
Following the approval of the first antibody-drug conjugates (ADCs) in the early 2000s, development has increased dramatically, with 14 ADCs now approved and >100 in clinical development. In lung cancer, trastuzumab deruxtecan (T-DXd) is approved in human epidermal growth factor receptor 2 (HER2)-mutated, unresectable or metastatic non-small-cell lung cancer, with ADCs targeting HER3 (patritumab deruxtecan), trophoblast cell-surface antigen 2 [datopotamab deruxtecan and sacituzumab govitecan (SG)] and mesenchymal-epithelial transition factor (telisotuzumab vedotin) in late-stage clinical development. In breast cancer, several agents are already approved and widely used, including trastuzumab emtansine, T-DXd and SG, and multiple late-stage trials are ongoing. Thus, in the coming years, we are likely to see significant changes to treatment algorithms. As the number of available ADCs increases, biomarkers (of response and resistance) to better select patients are urgently needed. Biopsy sample collection at the time of treatment selection and incorporation of translational research into clinical trial designs are therefore critical. Biopsy samples taken peri- and post-ADC treatment combined with functional genomics screens could provide insights into response/resistance mechanisms as well as the impact of ADCs on tumour biology and the tumour microenvironment, which could improve understanding of the mechanisms underlying these complex molecules. Many ADCs are undergoing evaluation as combination therapy, but a high bar should be set to progress clinical evaluation of any ADC-based combination, particularly considering the high cost and potential toxicity implications. Efforts to optimise ADC dosing/duration, sequencing and the potential for ADC rechallenge are also important, especially considering sustainability aspects. The ETOP IBCSG Partners Foundation are driving strong collaborations in this field and promoting the generation/sharing of databases, repositories and registries to enable greater access to data. This will allow the most important research questions to be identified and prioritised, which will ultimately accelerate progress and help to improve patient outcomes.
继 21 世纪初批准首批抗体药物偶联物(ADC)以来,ADC 的开发取得了显著进展,目前已有 14 种 ADC 获批,超过 100 种处于临床开发阶段。在肺癌中,曲妥珠单抗 deruxtecan(T-DXd)获批用于人表皮生长因子受体 2(HER2)突变、不可切除或转移性非小细胞肺癌,针对 HER3(patritumab deruxtecan)、滋养细胞表面抗原 2 [datopotamab deruxtecan 和 sacituzumab govitecan(SG)]和间充质上皮转化因子(telisotuzumab vedotin)的 ADC 处于临床开发后期。在乳腺癌中,已经有几种药物获批并广泛使用,包括曲妥珠单抗emtansine、T-DXd 和 SG,并且正在进行多项后期试验。因此,在未来几年,我们可能会看到治疗方案发生重大变化。随着可用 ADC 数量的增加,迫切需要更好地选择患者的生物标志物(反应和耐药性)。因此,在治疗选择时采集活检样本并将转化研究纳入临床试验设计至关重要。在 ADC 治疗前后采集活检样本,并结合功能基因组筛选,可以深入了解反应/耐药机制以及 ADC 对肿瘤生物学和肿瘤微环境的影响,从而更好地理解这些复杂分子的作用机制。许多 ADC 正在作为联合疗法进行评估,但应设定很高的标准来推进任何基于 ADC 的联合疗法的临床评估,尤其是考虑到高成本和潜在毒性影响。优化 ADC 剂量/持续时间、测序以及 ADC 再挑战的可能性也很重要,尤其是考虑到可持续性方面。ETOP IBCSG 合作伙伴基金会在该领域推动了强有力的合作,并促进了数据库、存储库和注册中心的生成/共享,以实现更大的数据访问。这将能够确定和优先考虑最重要的研究问题,最终加速进展并有助于改善患者的预后。
