曲妥珠单抗的重组抗原结合片段(Fab)在成人心肌细胞中显示出低细胞毒性特征:首个证据和 FcγRIIA 受体的关键作用。

IF 6.9 1区 医学 Q1 CHEMISTRY, MULTIDISCIPLINARY Acta Pharmacologica Sinica Pub Date : 2024-10-16 DOI:10.1038/s41401-024-01397-3
Anna De Bartolo, Naomi Romeo, Alessandro Marrone, Vittoria Rago, Maria Concetta Granieri, Maria Luigia Vommaro, Arianna Cupelli, Maria Carmela Cerra, Cesare Indiveri, Raffaele Ronca, Maria Cantile, Riccardo Sanna, Carmine Rocca, Tommaso Angelone
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引用次数: 0

摘要

片段可结晶γ受体(FcγRs)介导各种细胞反应,对心血管具有重要影响。它们有助于发挥曲妥珠单抗(TRZ)的抗癌活性,曲妥珠单抗是一种重组人源化单克隆抗体,可干扰人表皮生长因子受体 2(HER2),从而阻断其在心脏细胞中的生理功能。这就是阻碍 TRZ 临床应用的心脏并发症的原因。在这项研究中,我们调查了FcγRs参与TRZ心脏毒性的情况。我们使用了 TRZ 的重组抗原结合片段(Fab)(rFab-HER2)来研究 Fc 区的缺失是否会在保留 TRZ 抑制 HER2 能力的同时降低心肌细胞毒性。与 TRZ 相比,当暴露于 rFab-HER2 时,AC16 人类成人心室心肌细胞更不易受损和死亡。具体来说,与 rFab-HER2(250 微克/毫升,相当于约 5 微摩尔)相比,TRZ 在较低浓度(150 微克/毫升,相当于约 1 微摩尔)时表现出细胞毒性。与 TRZ 一样,rFab-HER2 也能负向调节心肌细胞中的 HER2 水平(在不表达或表达极低水平 HER2 的 BJ 人成纤维细胞中不会诱导细胞毒性活性),并抑制下游 ERK/AKT 级联。但是,rFab-HER2 并没有改变心肌细胞线粒体的动态平衡,也没有影响细胞凋亡和炎症反应,同时限制了细胞膜和线粒体的 ROS 指标。相反,Fc 区(50-250 μg/mL)对心肌细胞(但不包括缺乏 Fc 受体的人成纤维细胞)产生直接的细胞毒性作用。TRZ(150 μg/mL)显著上调了心肌细胞中FcγRIIA(一种FcγRs,与TRZ诱导的抗体依赖性细胞毒性密切相关)的表达水平,而Fab片段(150 μg/mL)则没有影响。我们的研究结果表明,Fc 区在 TRZ 诱导的心肌细胞毒性中起着重要的致病作用。此外,靶向 FcγRIIA 可能会导致 TRZ 治疗的脱靶效应。
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A recombinant fragment antigen-binding (Fab) of trastuzumab displays low cytotoxic profile in adult human cardiomyocytes: first evidence and the key implication of FcγRIIA receptor.

Fragment crystallizable gamma receptors (FcγRs) mediate various cellular responses with significant cardiovascular implications. They contribute to the anticancer activity of trastuzumab (TRZ), a recombinant humanized monoclonal antibody that interferes with human epidermal growth factor receptor 2 (HER2), thereby blocking its physiological function in cardiac cells. This is responsible for cardiac complications that hamper TRZ clinical application. In this study we investigated the involvement of FcγRs in the TRZ cardiotoxicity. We used a recombinant antigen-binding fragment (Fab) of TRZ (rFab-HER2) to examine whether the absence of the Fc region resulted in fewer cardiomyocyte toxicity while preserving TRZ's ability to inhibit HER2. When exposed to rFab-HER2, AC16 human adult ventricular cardiomyocytes were less vulnerable to damage and death, than to TRZ. Specifically, TRZ exhibited cytotoxicity at a lower concentration (150 µg/mL, corresponding to ~1 µM) compared to rFab-HER2 (250 µg/mL, corresponding to ~5 µM). Like TRZ, rFab-HER2 negatively modulated HER2 levels in cardiomyocyte (without inducing cytotoxic activity in BJ human fibroblast cells that either did not express or express very low levels of HER2) and inhibited the downstream ERK/AKT cascades. But rFab-HER2 did not alter cardiomyocyte mitochondrial dynamic balance, and affect apoptosis and inflammation, while it limited cytosolic and mitochondrial ROS indicators. On contrary, the Fc region (50-250 μg/mL) exerted direct cytotoxic action on cardiomyocytes (but not on human fibroblasts that lacked Fc receptors). TRZ (150 μg/mL) markedly upregulated the expression level of FcγRIIA (a FcγRs strongly involved in TRZ-induced antibody-dependent cellular toxicity) in cardiomyocytes, whereas the Fab fragment (150 μg/mL) had no effect. Our results demonstrate that Fc region plays an important pathogenic role in TRZ-induced cardiomyocyte toxicity. In addition, targeting FcγRIIA might contribute to the off-target effects of TRZ therapy.

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来源期刊
Acta Pharmacologica Sinica
Acta Pharmacologica Sinica 医学-化学综合
CiteScore
15.10
自引率
2.40%
发文量
4365
审稿时长
2 months
期刊介绍: APS (Acta Pharmacologica Sinica) welcomes submissions from diverse areas of pharmacology and the life sciences. While we encourage contributions across a broad spectrum, topics of particular interest include, but are not limited to: anticancer pharmacology, cardiovascular and pulmonary pharmacology, clinical pharmacology, drug discovery, gastrointestinal and hepatic pharmacology, genitourinary, renal, and endocrine pharmacology, immunopharmacology and inflammation, molecular and cellular pharmacology, neuropharmacology, pharmaceutics, and pharmacokinetics. Join us in sharing your research and insights in pharmacology and the life sciences.
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