Efficacy and Safety of the MDM2-p53 Antagonist Brigimadlin (BI 907828) in Patients with Advanced Biliary Tract Cancer: A Case Series.

Background: In patients with advanced biliary tract cancer (BTC), first-line chemotherapy plus immunotherapy has improved outcomes; however, second-line options that reflect the disease's molecular heterogeneity are still needed. One emerging target is MDM2, amplified in ~5-8% of BTC cases. Methods: This is a subset analysis of two ongoing Phase Ia/Ib trials assessing patients treated with brigimadlin (BI 907828; a highly potent, oral MDM2-p53 antagonist) ± ezabenlimab (PD-1 inhibitor) ± BI 754111 (anti-LAG-3; n = 1). Results: Results from 12 patients with BTC are shown (monotherapy: n = 6/combination: n = 6). Six patients achieved partial response (monotherapy: n = 2/combination: n = 4), four had stable disease; responses were durable. Brigimadlin had a manageable safety profile. Seven patients had dose reductions due to adverse events, but no treatment-related adverse events led to treatment discontinuation. Conclusion: Brigimadlin demonstrated anti-tumor activity in patients with advanced MDM2-amplified BTC, and warrants further investigation.

Biliary tract carcinoma (BTC) is a cancer that affects the bile ducts which are part of the digestive system. Usually, the first treatment for advanced BTC (ie cannot be removed surgically and/or has spread) is chemotherapy in combination with immunotherapy. However, if chemotherapy does not work, or stops working, there are few treatment options available in second-line. Accordingly, intensive research is ongoing to try and find effective drugs. One potential medicine, called brigimadlin (or BI 907828), is a tablet that activates a molecule in tumor cells called p53. The normal function of p53 is to kill cells when they first start to become cancerous. However, if p53 is turned off by genetic mutations, or other mechanisms, then cancer can develop. Although p53 is rarely mutated in BTC tumors, it is inactivated by another molecule called MDM2 which is usually present at abnormally high levels in BTC. Brigimadlin prevents interaction between MDM2 and p53. This activates p53 and causes the cancer to die. Two clinical trials are currently assessing brigimadlin in a range of cancers, including BTC, with the aim of identifying a safe dose that can be examined in more detail in larger trials. So far, 12 patients with BTC have been treated. The patients' tumors significantly shrank in six of these patients and remained stable in a further four patients. Side effects were as expected and could be tolerated by pausing treatment or lowering the dose. These results show that brigimadlin should be tested further in patients with advanced BTC.

The MDM2-p53 Antagonist Brigimadlin (BI 907828) in Patients with Advanced or Metastatic Solid Tumors: Results of a Phase Ia, First-in-Human, Dose-Escalation Study.

Brigimadlin (BI 907828) is an oral MDM2-p53 antagonist that has shown encouraging antitumor activity in vivo. We present phase Ia results from an open-label, first-in-human, phase Ia/Ib study investigating brigimadlin in patients with advanced solid tumors (NCT03449381). Fifty-four patients received escalating doses of brigimadlin on day 1 of 21-day cycles (D1q3w) or days 1 and 8 of 28-day cycles (D1D8q4w). Based on dose-limiting toxicities during cycle 1, the maximum tolerated dose was selected as 60 mg for D1q3w and 45 mg for D1D8q4w. The most common treatment-related adverse events (TRAE) were nausea (74.1%) and vomiting (51.9%); the most common grade ≥3 TRAEs were thrombocytopenia (25.9%) and neutropenia (24.1%). As evidence of target engagement, time- and dose-dependent increases in growth differentiation factor 15 levels were seen. Preliminary efficacy was encouraging (11.1% overall response and 74.1% disease control rates), particularly in patients with well-differentiated or dedifferentiated liposarcoma (100% and 75% disease control rates, respectively). SIGNIFICANCE: We report phase Ia data indicating that the oral MDM2-p53 antagonist brigimadlin has a manageable safety profile and shows encouraging signs of efficacy in patients with solid tumors, particularly those with MDM2-amplified advanced/metastatic well-differentiated or dedifferentiated liposarcoma. Further clinical investigation of brigimadlin is ongoing. See related commentary by Italiano, p. 1765. This article is highlighted in the In This Issue feature, p. 1749.

Rational design of an oxygen-enriching nanoemulsion for enhanced near-infrared laser activatable photodynamic therapy against hypoxic tumors.

Photodynamic therapy (PDT) has emerged as one of the most promising modalities to treat cancers. However, the hypoxic microenvironment in tumors severely limits the efficiency of PDT. IR780 is a near-infrared light activatable photosensitizer for PDT. It has attracted intensive attention owing to its intriguing properties such as mitochondria-targeting ability and fluorescence imaging capability. Nevertheless, its application in tumor treatment is hampered by its low aqueous solubility and poor stability. To address these obstacles, here we designed a novel hierarchical nanoplatform containing a uniquely stable high loading capacity oxygen carrier (perfluoropolyether, in short, PFPE) and IR780. This nanoplatform (IR780-P/W NE, in abbreviation for IR780-PFPE-in-water nanoemulsion) has no detectable dark cytotoxicity. It not only improves the aqueous solubility and stability of IR780, but also transports oxygen to relieve hypoxia and boosts the efficiency of near-infrared light triggered PDT via augmentation of reactive oxygen species generation. Particularly, the innovative nanosized oxygen carrier developed in this research, P/W NE, is a potential universal platform for loading hydrophobic photosensitizers (including but not limited to IR780), sonosensitizers, or radiosensitizers, and simultaneously improving the therapeutic efficacy. Our results highlight the intriguing potential of the developed nanoemulsions for mitigating tumor hypoxia and enhancing the efficiencies of oxygen-dependent therapies including PDT, sonodynamic therapy, radiotherapy, and so on.