Summary

Purpose/Objectives: Immune checkpoint inhibitors (ICIs) are being increasingly used to improve patient outcomes across different cancer types. However, the response rate to ICIs remains low (~15%), indicating the need for novel strategies to improve treatment outcome. Emerging evidence suggests that radiation therapy (RT) could potentially enhance the antitumor response and provide synergy with ICIs. RT dose and ultimate efficacy are however limited by toxicity related to exposure of healthy tissues. The first-in-class radioenhancer NBTXR3, administered by direct intratumoral injection, is designed at the nanoscale to increase RT dose deposition within tumor cells and RT-dependent tumor cell killing, without increasing toxicity to surrounding normal tissue. Preclinical and early clinical data suggest NBTXR3 activated by RT can trigger an anti-tumor immune response, producing both local and systemic (abscopal) effects. We hypothesize that NBTXR3 activated by RT, in combination with anti-PD-1 therapy (R3/RT/PD-1), will act synergistically to maximize the local RT effect and produce a systemic response sufficient to increase the proportion of ICI responders or convert ICI non-responders to responders.

Materials/Methods: This multicenter, open-label, phase I trial [NCT03589339] will evaluate safety and tolerability of R3/RT/PD-1 in three cohorts: (1) Locoregional recurrent or recurrent and metastatic head and neck squamous cell carcinoma (HNSCC) amenable to re-irradiation of the HN field, (2) Lung metastases, or (3) Liver metastases, both from any primary cancer eligible for anti-PD-1 treatment. Approximately two-thirds of patients in each cohort will be anti-PD-1 non-responders. NBTXR3 injected volume is based on a percentage of baseline gross tumor volume (GTV).

Results: The primary objective is to determine the R3/RT/PD-1 recommended phase 2 dose in each cohort. Secondary objectives are to evaluate anti-tumor response (objective response rate; ORR), safety and feasibility of NBTXR3 injection, and NBTXR3 body kinetic profile. Exploratory objectives will assess biomarkers of R3/RT/PD-1 response, including PD-L1 status by IHC, as well as mRNA and cytokine immune marker profiling. Recruitment is ongoing. To date, three patients have been treated, one in cohort 1 and two in cohort 2.

Conclusions: NBTXR3 activated by RT induces an anti-tumor immune response which may convert immunologically “cold” tumors into “hot” tumors. In combination R3/RT/PD-1 holds the potential to increase the proportion of ICI responders or convert ICI non-responders to responders.

Summary

Background: Despite the past decade of transformative advances in immuno-oncology, the response rate to checkpoint inhibitors (ICIs) remains low (~15%). There is significant interest in developing strategies to overcome resistance to these treatments, thus increasing response rate. Emerging evidence suggests that radiation therapy (RT) could potentially augment the antitumor response to ICIs through synergic effect. However, RT dose and ultimate efficacy are limited by toxicity related to exposure of healthy tissues. NBTXR3 is a first-in-class radioenhancer administered by direct intratumoral injection, designed at the nanoscale to increase RT dose deposition within tumor cells and RT-dependent tumor cell killing, without increasing surrounding normal tissue toxicity. Preclinical and early clinical data suggest NBTXR3 activated by RT can trigger an anti-tumor immune response, producing both local and systemic (abscopal) effects. We hypothesize that NBTXR3 activated by RT, in combination with anti-PD-1 therapy (R3/RT/PD-1), will act synergistically to maximize the local RT effect and produce a systemic response sufficient to increase the proportion of ICI responders or convert ICI non-responders to responders.

Method: This trial [NCT03589339] is a multicenter, open-label, phase I study to evaluate safety and tolerability of R3/RT/PD-1 in three cohorts: (1) Locoregional recurrent or recurrent and metastatic head and neck squamous cell carcinoma (HNSCC) amenable to re-irradiation of the HN field, (2) Lung metastases, or (3) Liver metastases, both from any primary cancer eligible for anti-PD-1 treatment. Approximately two-thirds of patients in each cohort will be anti-PD-1 non-responders. NBTXR3 injected volume is based on a percentage of gross tumor volume (GTV). The primary objective is to determine the R3/RT/PD-1 recommended phase 2 dose in each cohort. Secondary objectives are to evaluate anti-tumor response (objective response rate; ORR), safety and feasibility of NBTXR3 injection, and NBTXR3 body kinetic profile. Exploratory objectives will assess biomarkers of R3/RT/PD-1 response, including PD-L1 status by IHC, as well as mRNA and cytokine immune marker profiling. To date, three patients have been treated, one in cohort 1, two in cohort 2.

Summary

Background: The majority of cancer patients are resistant to immune therapy; only around 15% respond to immune checkpoint inhibitors (ICI). Thus, strategies able to increase ICI response are of great interest. Recent work suggests radiotherapy (RT) can act as an immunomodulator to increase the proportion of ICI responders and improve clinical outcomes. However, RT dose and ultimate efficacy are limited by toxicity related to exposure of healthy tissues. NBTXR3 is a first-in-class radioenhancer administered by intratumoral injection, designed at the nanoscale to increase RT energy dose deposition within the tumor. The result is increased radiation-dependent tumor cell killing, without increasing radiation exposure of healthy tissues. Preclinical and early clinical data suggest NBTXR3 activated by RT can increase the anti-tumor immune response, producing both local and systemic (abscopal) effects. We hypothesize that NBTXR3 activated by RT, in combination with anti-PD-1 therapy (R3/RT/PD-1), will act synergistically to maximize the local RT effect while also producing a systemic response sufficient to increase the proportion of ICI responders or convert ICI non-responders to responders.

Trial Design: NANORAY-1100 [NCT03589339] is a multicenter, open-label, phase 1 study to evaluate safety and tolerability of R3/RT/PD-1 in three cohorts: (1) Locoregional recurrent or recurrent and metastatic head and neck squamous cell carcinoma (HNSCC) amenable to re-irradiation of the HN field, (2) Lung metastases from any primary cancer eligible for anti-PD-1, or (3) Liver metastases from any primary cancer eligible for anti-PD-1. Approximately two-thirds of each cohort will be composed of anti-PD-1 non-responders. NBTXR3 injection volume is based on a percentage of gross tumor volume (GTV) determined by central review. The primary objective is to determine R3/RT/PD-1 RP2D. Secondary objectives are to evaluate anti-tumor response (objective response rate; ORR) of R3/RT/PD-1, safety and feasibility of NBTXR3 injection, and NBTXR3 body kinetic profile. Exploratory objectives will assess biomarkers of R3/RT/PD-1 response, including PD-L1 status by IHC, mRNA and cytokine immune marker profiling.

Summary

Purpose: First in class hafnium oxide nanoparticles (NBTXR3) activated by radiotherapy (RT) increase radiation dose deposit within cancer cells compared to RT alone. Given that RT can prime an anti-tumor immune response we hypothesized that this response could be enhanced by NBTXR3+RT in both animals and humans.

Method & Materials: Different abscopal assays in mice were conducted. Immunocompetent mice were injected in both flanks with murine tumor cells. Intratumoral injection of NBTXR3 (or vehicle) was performed in right flank tumors, followed by RT of right flank tumors only. Tumor growth was followed and immune cell infiltrates were analyzed by immunohistochemistry (IHC). Some mice received anti-PD-1 injections and tumor growth was monitored. Pts with locally advanced soft tissue sarcoma (STS) [NCT02379845] received either NBTXR3+RT or RT alone. Pts pre- and post-treatment tumor tissues were analyzed by IHC and Digital Pathology for immune biomarkers.

Results: Animal studies demonstrated that NBTXR3+RT induces an immune response which was not observed with RT alone. IHC showed significantly more CD8+ cells present in NBTXR3+RT treated and untreated tumors. Furthermore, NBTXR3+RT improved the effect of anti-PD-1. Similarly, increased CD8+ T cell infiltration pre- vs post-treatment was observed in tumor tissues from STS pts treated with NBTXR3+RT. An increase in biomarkers, including CD8, following NBTXR3+RT was also observed by IHC in tumor samples from STS pts compared to RT alone.

Conclusion: These results demonstrate that NBTXR3+RT induces a specific adaptive immune profile in both mice and STS pts. NBTXR3+RT also improved response to anti-PD-1 in mice, opening the potential for combination with immunotherapeutic agents in humans. We have therefore sought to investigate the safety and systemic effect of NBTXR3 activated by stereotactic ablative radiotherapy (SABR) in combination with anti-PD-1 in pts with locoregionally recurrent or metastatic (lung or liver) head and neck squamous cell carcinoma, as well as in metastatic non-small cell lung cancer and liver metastasis pts [NCT03589339].

Clinical Relevance & Application: The results of this study highlight the potential of NBTXR3 to be used in combination with immune checkpoint inhibitors in order to improve patient outcomes.