ESTRO 2022 - Abstract Book
S113
Abstract book
ESTRO 2022
Conclusion Patients with localized prostate cancer reported some acute urinary toxicities and sexual problems still being increased one month following oMRgRT but reduced to the pre-treatment level at three months following oMRgRT. However, an increased HRQoL was reported after the end of oMRgRT. The acute symptom trajectory outside the fixed time-points remains to be investigated, thus a prospective study with weekly PROs is initiated.
Mini-Oral: 03: Radiobiology
MO-0137 A basis for combining atovaquone-mediated hypoxia alleviation with immunotherapy plus radiotherapy
G. Rodriguez-Berriguete 1 , R. Puliyadi 2 , R. Prevo 1 , C.W. Pugh 3 , G.S. Higgins 2
1 University of Oxford, CRUK RadNet Oxford, Department of Oncology, Oxford, United Kingdom; 2 MRC Oxford Institute for Radiation Oncology, Department of Oncology, Oxford, United Kingdom; 3 Nuffield Department of Medicine Research Building, Nuffield Department of Medicine, Oxford, United Kingdom Purpose or Objective Tumour hypoxia is a major factor contributing to radiotherapy resistance. We have previously shown that the antimalarial drug atovaquone increases tumour oxygen levels and synergises with radiotherapy in preclinical models. We have also recently demonstrated that atovaquone effectively and safely alleviates hypoxia at radiotherapy-relevant levels in lung cancer patients. Radiotherapy is increasingly combined with immunotherapy, which is also negatively affected by tumour hypoxia. Since radiotherapy boosts the antitumour immune response, increasing tumour oxygenation during combination treatment with radiotherapy and immunotherapy may provide further clinical benefit. Our purpose was to evaluate the efficacy and safety of atovaquone plus immune checkpoint blockade prior to testing the viability of this combination with radiotherapy in preclinical models. Materials and Methods Balb/c mice implanted with the syngeneic colorectal cancer cell line CT26 were treated with atovaquone and/or anti-PD- L1. Tumour hypoxia was determined by microscopy in tumour sections stained for the hypoxia probe EF5. Treatment efficacy was assessed by monitoring tumour growth. An anti-CD8 depleting antibody was used to ascertain if cytotoxic lymphocytes were involved in the antitumour response. Mice experiencing complete tumour eradication were re-inoculated with CT26 cells and monitored for tumour development to assess memory response. Finally, mouse weight and haematological (white blood cell count, platelet count and haemoglobin) and biochemical (bilirubin, alanine aminotransferase and albumin) blood markers were measured to evaluate treatment toxicity. Results Atovaquone alone efficiently reduced hypoxia but did not affect tumour growth. In contrast, treatment with atovaquone plus anti-PD-L1 resulted in higher rates of tumour regression than treatment with anti-PD-L1 alone. CD8+ T lymphocyte depletion completely abrogated the effect of the combination treatment, suggesting that this synergy is ultimately dependent on T cell-mediated killing. We also demonstrated that mice with complete tumour regression after atovaquone and anti-PD-L1 combination treatment did not develop tumours after re-challenge with CT26 cells, unlike those inoculated with a different syngeneic cancer cell line, demonstrating that mice had developed a memory antitumour response. No
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