Abstract 4858: CNS delivery of VX-970: A selective ATR inhibitor for radiosensitization in GBM

2019 
Glioblastoma (GBM) is an aggressive and infiltrative primary brain tumor with a median survival of 14.6 months following the current treatment strategy of radiation and chemotherapy. Therefore, there is a need to develop strategies to enhance the efficacy of chemo-radiation treatments for GBM. DNA damage response signaling pathways play a critical role in DNA repair and cell survival following radiation therapy and the inhibition of these pathways could augment the cytotoxicity associated with radiation providing a radiosensitizing effect. Ataxia Telangiectasia and Rad3-Related Protein (ATR) is a key regulator of the DNA damage response network and VX-970 is the first potent and selective inhibitor of ATR to enter clinical trials. Preliminary in vitro studies from our lab to determine a dose dependent effect of VX-970 in combination with a radiation dose of 5 Gy on the cell survival indicated that administration of radiation led to an enhancement in the cell death with an increasing dose of VX-970 in the U251 human GBM cell line. We evaluated the BBB penetration of VX-970 and studied the role of efflux transporters on the brain exposure of VX-970 in preparation for efficacy studies in PDX models of GBM. Brain distribution studies were performed in wild-type and Mdr1a/b-/- Bcrp1-/- (triple knockout) FVB mice (n=4) following intravenous administration of 20 mg/kg VX-970. Plasma and brain samples were collected at 7 time points post dosing and were analyzed using LC-MS. The brain-to-plasma (B/P) ratio in transporter (Pgp and Bcrp) knockout mice was 17.5 as opposed to 0.8 in transporter intact wild-type mice. This 22-fold increase in the B/P ratio in the triple knockout mice indicates that Pgp and/or Bcrp play a significant role in the efflux of VX-970 from the brain thereby limiting its brain penetration. Oral administration of VX-970 at a dose of 20mg/kg in transporter intact wild-type mice indicated an oral bioavailability of 38%. Steady state brain distribution studies were also performed in wild-type and triple knockout FVB mice following intraperitoneal implantation of the Alzet osmotic pumps to release VX-970 at a rate of 10ul/hr for 48 hours. We observed that the B/P ratio in transporter (Pgp and Bcrp) knockout mice was 12.6 as opposed to 0.12 in transporter intact wild-type mice We are in the process of conducting additional studies in Pgp and Bcrp single knockout mice to determine a more precise status of the role of efflux transporters in the brain delivery of VX-970. The free fraction of VX-970 was found to be 6.1% in plasma indicating that it has a relatively high unbound fraction as compared to other chemotherapeutics for brain delivery. We are in the process of determining free fraction in the brain and relating the concentration of free drug to a dose range associated with effective radiosensitization through efficacy studies in the PDX models of GBM. This PK-PD relationship will help guide future clinical trials. Citation Format: Surabhi Talele, Afroz Mohammad, Minjee Kim, Danielle Burgenske, Ann C. Mladek Tuma, Jann N. Sarkaria, William F. Elmquist. CNS delivery of VX-970: A selective ATR inhibitor for radiosensitization in GBM [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 4858.
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