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Supplementary Materials and Methods from Sequential Targeting of Retinoblastoma and DNA Synthesis Pathways Is a Therapeutic Strategy for Sarcomas That Can Be Monitored in Real Time

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posted on 2023-03-31, 06:02 authored by Tuyen Duong Thanh Nguyen, Yan Wang, Tuyen N. Bui, Rossana Lazcano, Davis R. Ingram, Min Yi, Varshini Vakulabharanam, Linjie Luo, Marc A. Pina, Cansu Karakas, Mi Li, Nicole M. Kettner, Neeta Somaiah, Peter J. Hougton, Osama Mawlawi, Alexander J. Lazar, Kelly K. Hunt, Khandan Keyomarsi

This file contains the description of supplementary materials and methods that is referred to in the manuscript

Funding

National Cancer Institute (NCI)

United States Department of Health and Human Services

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U.S. Department of Defense (DOD)

Cancer Prevention and Research Institute of Texas (CPRIT)

National Leiomyosarcoma Foundation

John Wayne Cancer Foundation (JWCF)

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ARTICLE ABSTRACT

Treatment strategies with a strong scientific rationale based on specific biomarkers are needed to improve outcomes in patients with advanced sarcomas. Suppression of cell-cycle progression through reactivation of the tumor suppressor retinoblastoma (Rb) using CDK4/6 inhibitors is a potential avenue for novel targeted therapies in sarcomas that harbor intact Rb signaling. Here, we evaluated combination treatment strategies (sequential and concomitant) with the CDK4/6 inhibitor abemacicib to identify optimal combination strategies. Expression of Rb was examined in 1,043 sarcoma tumor specimens, and 50% were found to be Rb-positive. Using in vitro and in vivo models, an effective two-step sequential combination strategy was developed. Abemaciclib was used first to prime Rb-positive sarcoma cells to reversibly arrest in G1 phase. Upon drug removal, cells synchronously traversed to S phase, where a second treatment with S-phase targeted agents (gemcitabine or Wee1 kinase inhibitor) mediated a synergistic response by inducing DNA damage. The response to treatment could be noninvasively monitored using real-time positron emission tomography imaging and serum thymidine kinase activity. Collectively, these results show that a novel, sequential treatment strategy with a CDK4/6 inhibitor followed by a DNA-damaging agent was effective, resulting in synergistic tumor cell killing. This approach can be readily translated into a clinical trial with noninvasive functional imaging and serum biomarkers as indicators of response and cell cycling. An innovative sequential therapeutic strategy targeting Rb, followed by treatment with agents that perturb DNA synthesis pathways, results in synergistic killing of Rb-positive sarcomas that can be noninvasively monitored.

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