ID #155 CONNECT TarGeT-H Phase 1/2 Clinical Study of a Novel Telomere-Targeting Therapy for Pediatric High-Grade Glioma (HGG) including Diffuse Intrinsic Pontine Glioma (DIPG) Harboring Telomerase Activation
Ryuma Tanaka, Banlanjo Umaru, Ralph Salloum, Mariah Wright-Nadkarni, Margot Lazow, Joanna Weinbrecht-Acree, Kristen Haskinson, Joshua Palmer, Diana Thomas, Diana Rodriguez, Susan Geyer, Jeffrey Leonard, Elaine Mardis, Maryam Fouladi, Rachid DrissiAbstract
Pediatric high-grade gliomas (HGGs), including diffuse intrinsic pontine glioma (DIPG), are among the most aggressive childhood brain tumors, with five-year survival rates below 10%. Current treatment options are limited to radiation, highlighting the urgent need for novel therapies. Telomere maintenance via telomerase activation is a hallmark of cancer, enabling replicative immortality. Our prior studies demonstrate telomerase activity in 73% of HGGs and 47% of DIPG, implicating telomere biology as a critical therapeutic target. 6-thio-dG (THIO) is a first-in-class telomere-targeting agent that incorporates into telomeres of telomerase-positive cells, inducing telomere uncapping, genomic instability, and apoptosis. THIO crosses the blood–brain barrier and exhibits synergy with radiation in preclinical DIPG models. Telomere dysfunction is confirmed by telomere dysfunction-induced foci (TIFs), marked by colocalization of DNA damage response proteins (ATM S1981-P, γH2AX, 53BP1) at telomeres. Historical pediatric leukemia trials established THIO’s safety profile, and recent adult studies in non-small cell lung cancer demonstrated efficacy at lower doses.
As part of the biologically-guided umbrella trial CONNECT TarGeT [NCT05839379], we are developing TarGeT-H, a phase 1/2 and surgical study to evaluate THIO combined with focal radiation in pediatric, adolescent, and young adult patients with newly diagnosed HGG or DIPG harboring telomerase activation, confirmed by hTERT mRNA expression—assessed via tumor submission, profiling, and rapid central screening through TarGeT-SCR. Specific aims include: (1) determining pharmacokinetics and safety to establish the recommended Phase 2 dose (RP2D); (2) estimating efficacy by progression-free survival (HGG) and overall survival (DIPG) compared to historical controls; and (3) assessing telomere dysfunction in resected HGG tumors via TIF analysis. Up to 90 patients will receive THIO intravenously during radiation and maintenance cycles for up to two years.
By leveraging a selective telomere-targeting mechanism distinct from current therapies and demonstrating synergy with radiation, THIO represents a promising strategy to improve outcomes in devastating pediatric cancers.