お知らせ • May 25
BioLineRx Ltd. And Hemispherian AS Highlight New Data On GLIX1 At The American Society Of Clinical Oncology Annual Meeting
BioLineRx Ltd. and Hemispherian AS announced that two abstracts featuring GLIX1 will be published at the American Society of Clinical Oncology 2026 Annual Meeting, which is being held May 29-June 2, 2026, in Chicago, IL. The first-in-human Phase 1/2a clinical trial of GLIX1 in glioblastoma (GBM) was initiated in March. The wealth of pre-clinical data support its novel mechanism of action and provide strong rationale for the development of GLIX1 in GBM as well as in other cancers. This oral small molecule enhances TET2 activity, a novel mechanism of action designed to induce tumor-selective DNA strand breaks in a broad range of cancers. The ASCO abstracts describe the potential of GLIX1 as monotherapy as well as possible therapeutic synergies when combined with PARP inhibitors. The abstract describes GLIX1, a first-in-class oral small molecule designed to target the DNA damage response by restoring activity of the TET2 enzyme, which is typically suppressed in cancer. TET2 plays a key role in DNA demethylation, and its inhibition in tumors contributes to abnormal DNA hypermethylation. By reactivating TET2, GLIX1 increases DNA demethylation and triggers excessive base excision repair, leading to the accumulation of single-strand DNA breaks that ultimately convert into lethal double-strand breaks in cancer cells. This mechanism is applicable across tumor types and is particularly relevant in glioblastoma, where TET2 activity is significantly impaired. Preclinical studies have shown that GLIX1 effectively increases TET2 activity and downstream 5hmC production in biochemical assays, cell models, and in vivo animal systems. The high potency of GLIX1 was observed in vitro in a broad range of cancer cell lines. The drug demonstrated strong antitumor activity in multiple glioblastoma xenograft models (including U87-MG and SNB-19) and was able to penetrate the brain efficiently after oral dosing, with brain exposure corresponding to 68-85% of plasma levels in mice. Safety studies in animals indicated that GLIX1 is well-tolerated even at the highest feasible doses tested: 2,000mg/kg in rats and 1,000mg/kg in dogs. These findings, together with the fact that high-grade gliomas are characterized by markedly reduced genomic levels of 5hmC compared with normal tissue, reflecting impaired TET2 activity and potential therapeutic vulnerability, support clinical evaluation of GLIX1 in GBM as the first indication. A first-in-human Phase 1/2a clinical trial is currently enrolling (NCT07464925). The abstract explores the potential of combining GLIX1, a small-molecule activator of TET2, with PARP inhibitors (PARPi) to enhance cancer cell killing. PARP normally detects and helps repair single-stranded DNA breaks, and PARP inhibitors work by blocking this repair process, leading to cell death, particularly in tumors already deficient in homologous recombination (HR) repair. However, their effectiveness is limited in many cancers that retain this repair capability. GLIX1 is designed to increase tumor-selective DNA damage by restoring TET2 activity, which generates single-stranded DNA breaks through base excision repair. When paired with PARP inhibition, these breaks are not properly repaired, creating a mechanistic basis for enhanced antitumor activity. In preclinical in vitro studies across a wide range of cancer cell lines, the combination of GLIX1 with multiple PARP inhibitors produced strong and consistent cytotoxic effects, including in tumor types typically less responsive to PARP inhibition. This synergy was observed across different PARP inhibitors with varying properties, suggesting a class-wide effect rather than dependence on a specific agent. Overall, the findings provide a compelling mechanistic rationale for combining GLIX1 with PARP inhibitors and warrant further investigation of this strategy across diverse cancers. GLIX1 is a first-in-class, orally administered, brain penetrating, small molecule activator of the Ten-Eleven Translocation 2 (TET2) pathway that is commonly inhibited in cancer. Activating the novel TET2 pathway by GLIX1 overwhelms the DNA repair capacity of cancer cells, resulting in apoptotic cancer cell death. The Phase 1/2a trial is an open-label, multicenter trial. Part 1 of the trial is a dose escalation study where patients receive GLIX1 daily as monotherapy. This part is expected to recruit up to 30 patients with recurrent and progressive GBM and other high-grade gliomas. The primary objective is to establish a maximum tolerated dose (MTD) and/or a recommended dose based on safety, PK/PD and preliminary efficacy. Updates to the Phase 1/2a trial are anticipated during Second Half 2026, with full results on the dose escalation part expected in 2027. The Phase 2a expansion part of the trial is planned to include additional indications, including newly diagnosed GBM, as well as select cancers, with GLIX1 as monotherapy or in combination with standard of care (including in combination with PARP inhibitors). These cohorts are expected to identify preliminary efficacy, PD assessments and dose optimization data, serving as the basis for a rapid and effective advanced clinical development plan.