Determining preclinical safety of Aclarubicin in pediatric malignancies.

bioRxiv : the preprint server for biology Pub Date : 2025-05-24 DOI:10.1101/2025.05.20.654130

Darleen S Tu, Aaron K Olson, Kimberly S Waggie, Nicolas M Garcia, Virginia J Hoglund, Stephanie Walter, Jenna R Rosinski, Harini Sadeeshkumar, Radhika Patel, Erolcan Sayar, Michael C Haffner, Lisa Maves, Jacques Neefjes, Jay F Sarthy, Elizabeth R Lawlor, Shireen S Ganapathi

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Abstract

Background: Anthracyclines are among the most effective chemotherapeutic agents used to treat pediatric malignancies. However, their clinical use is limited by dose-dependent toxicities, particularly cardiotoxicity and secondary malignancies. Aclarubicin (Acla) is an anthracycline derivative that induces chromatin damage while sparing DNA, offering potential therapeutic benefit with reduced longterm toxicity.

Methods: We evaluated the anti-tumor efficacy and safety profile of Acla in multiple in vitro pediatric cancer models and in vivo mouse models designed to mimic anthracycline re-treatment following prior doxorubicin (Doxo) exposure. Tumor growth, genotoxic stress, survival, and organ toxicity were assessed.

Results: Acla demonstrated robust anti-tumor activity comparable to Doxo across diverse pediatric in vitro models. Unlike Doxo, Acla treatment did not induce significant genotoxic stress. In vivo , mice receiving Acla after Doxo exposure showed no evidence of cumulative cardiotoxicity or end-organ damage. In contrast, a second course of Doxo led to significant toxic mortality, but was surprisingly not attributable to classic cardiac injury.

Conclusion: Our study highlights Acla as a promising anthracycline derivative for pediatric cancers, with potent anti-tumor efficacy and a superior safety profile, even following prior anthracycline exposure. These results support continued investigation of chromatin-damaging anthracyclines that can kill pediatric cancer cells without inducing genotoxic stress. In addition, our studies underscore the need to refine preclinical models to better understand both acute and chronic anthracycline toxicities in pediatric and adolescent populations.

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确定阿克鲁比星治疗儿童恶性肿瘤的临床前安全性。

背景：蒽环类药物是治疗儿童恶性肿瘤最有效的化疗药物之一。然而，它们的临床使用受到剂量依赖性毒性的限制，特别是心脏毒性和继发性恶性肿瘤。阿克拉霉素（Acla）是一种蒽环类衍生物，可诱导染色质损伤，同时保留DNA，具有降低长期毒性的潜在治疗益处。方法：我们在多种体外儿童癌症模型和体内小鼠模型中评估了Acla的抗肿瘤疗效和安全性，这些模型旨在模拟先前暴露于阿霉素（Doxo）后的蒽环类药物再治疗。评估肿瘤生长、基因毒性应激、生存和器官毒性。结果：在多种儿科体外模型中，Acla显示出与Doxo相当的强大抗肿瘤活性。与Doxo不同，Acla治疗没有引起显著的基因毒性应激。在体内，暴露于Doxo后接受Acla的小鼠没有显示出累积心脏毒性或终末器官损伤的证据。相比之下，第二个疗程的Doxo导致明显的毒性死亡，但令人惊讶的是，不是由经典的心脏损伤引起的。结论：我们的研究强调了Acla作为一种有前途的儿童癌症蒽环类衍生物，具有强大的抗肿瘤功效和优越的安全性，即使在先前接触过蒽环类药物后也是如此。这些结果支持继续研究破坏染色质的蒽环类药物可以杀死儿童癌细胞而不诱导基因毒性应激。此外，我们的研究强调需要完善临床前模型，以更好地了解儿科和青少年人群的急性和慢性蒽环类药物毒性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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