PO.ET06.02 · 实验与分子治疗

Potent synergy between CHK1/2 inhibitor ACR-368 and the ADC payload topoisomerase I inhibitor: Rationale for ADC + ACR-368 combination therapy

海报缩略图:Potent synergy between CHK1/2 inhibitor ACR-368 and the ADC payload topoisomerase I inhibitor: Rationale for ADC + ACR-368 combination therapy
编号 239 展板 10 时间 4/19 02:00–05:00 区域 Section 11 主讲 Portia Lombardo, PhD
分会场 DNA Damage and Repair 1
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作者与单位

Portia Lombardo1, Ahmed Youssef1, Mohamed Eldeeb2, Nina Lipjankic3, Martina Pasetto3, Ruban Cornelius3, Sofija Skoric3, Ignacio Arribas Diez3, Zachary Best1, Anna-Maria Alves1, Subodh Kumar1, Kate Rappard1, Calvin Yang1, Corey Xu1, Emma Ahrman3, Valentina Siino3, Taronish Dubash1, Joelle Baddour-Sousounis1, Reina Improgo1, Magnus E. Jakobsson3, Ayesha Murshid1, Helén Åsa Nilsson3, Lei Shi1, Caroline Maria Wigerup3, Michail Shipitsin1, Joon Jung1, David Proia1, Erick Gamelin1, Mansoor Mirza1, Kristina Masson1, Peter Blume-Jensen1

1Acrivon Therapeutics, Watertown, MA,2Acrivon AB, Lund, Sweden,3Acrivon Therapeutics, Lund, Sweden

摘要 Abstract

Antibody-drug conjugates (ADCs) enable targeted delivery of cytotoxic payloads to tumor cells, improving the therapeutic index compared with conventional chemotherapy. Topoisomerase I (Topo I) inhibitors are potent ADC payloads that trap the Topo 1-DNA cleavage complex, leading to replication‐fork collapse and tumor cell death. However, this also activates the DNA damage response through CHK1/2-dependent cell cycle checkpoints, attenuating cytotoxicity and enhancing resistance to Topo1-containing ADCs. CHK1/2 inhibition exploits this therapeutic vulnerability, abrogating these checkpoints, increasing replication stress, and hence enhancing the efficacy of Topo I inhibitors across multiple tumor models. Consistent with this, treatment with the potent, selective CHK1/2 inhibitor ACR-368 combined with irinotecan has demonstrated encouraging clinical activity in heavily pretreated patients with sarcomas who had progressed on prior irinotecan therapy. Combined, these data provide a strong rationale for combining ACR-368 with Topo I inhibitor-based therapies. Using the Acrivon Predictive Precision Proteomics (AP3) platform for “Indication Finding”, we previously identified endometrial cancer as a tumor type predicted to be particularly sensitive to ACR-368, which has been shown and is being further evaluated in a Phase 2 registrational trial. In a panel of endometrial cancer cell lines, the combination of ACR-368 with exatecan or SN38 demonstrated synergy in a majority of these, with comparable synergy scores between both Topo I inhibitors. Synergy was observed in both Topo I-sensitive and -resistant lines, supporting the potential to overcome resistance to Topo I inhibitor-based ADCs. To elucidate the pathway mechanisms underlying Topo I inhibitor sensitivity and resistance and the potent, synergistic activity with ACR-368, results from our AP3 Generative Phosphoproteomics approach applied to endometrial cancer will be presented. Combined, these findings demonstrate that CHK1/2 inhibition with ACR-368 synergizes with Topo I inhibitors to enhance cytotoxicity and overcome resistance mechanisms, supporting a mechanistically rational combination strategy with potential to improve the therapeutic benefit of Topo I inhibitor-based ADC therapies.
利益披露 Disclosure
P. Lombardo, Acrivon Employment, Stock. A. Youssef, Acrivon Employment, Stock. M. Eldeeb, Acrivon Employment, Stock. N. Lipjankic, Acrivon Therapeutics Employment, Stock Option. M. Pasetto, Acrivon Therapeutics Employment, Stock Option. R. Cornelius, Acrivon Therapeutics Employment, Stock Option. S. Skoric, Acrivon Therapeutics Employment. I. Arribas Diez, Acrivon Therapeutics Employment, Stock Option. Z. Best, Acrivon Therapeutics Employment, Stock Option. A. Alves, Acrivon Employment, Stock. S. Kumar, Acrivon Employment, Stock. K. Rappard, Acrivon Employment, Stock. C. Yang, Acrivon Employment, Stock. C. Xu, Acrivon Therapeutics Employment, Stock Option. E. Ahrman, Acrivon Therapeutics Employment, Stock Option. V. Siino, Acrivon Therapeutics Employment, Stock Option. T. Dubash, Acrivon Therapeutics Employment, Stock Option. J. Baddour-Sousounis, Acrivon Therapeutics Employment, Stock Option. R. Improgo, Acrivon Therapeutics Employment, Stock Option. M. E. Jakobsson, Acrivon Therapeutics Employment, Stock Option. A. Murshid, Acrivon Therapeutics Employment, Stock Option. H. Å. Nilsson, Acrivon Therapeutics Employment, Stock Option. L. Shi, Acrivon Therapeutics Employment, Stock Option. C. M. Wigerup, Acrivon Therapeutics Employment, Stock Option. M. Shipitsin, Acrivon Therapeutics Employment, Stock Option. J. Jung, Acrivon Therapeutics Employment, Stock Option. D. Proia, Acrivon Therapeutics Employment, Stock Option. E. Gamelin, Acrivon Therapeutics Employment, Stock Option. M. Mirza, Acrivon Therapeutics Employment, Stock Option. K. Masson, Acrivon Therapeutics Employment, Stock Option. P. Blume-Jensen, Acrivon Therapeutics Employment, Stock Option.

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