On February 3, 2026 Allarity Therapeutics, Inc. ("Allarity" or the "Company") (NASDAQ: ALLR), a Phase 2 clinical-stage pharmaceutical company dedicated to developing stenoparib (2X-121)—a differentiated, dual PARP and WNT pathway inhibitor, reported that enrollment is now open for its new Phase 2 clinical trial evaluating the combination of stenoparib and temozolomide for the treatment of recurrent small cell lung cancer (SCLC).

Schedule your 30 min Free 1stOncology Demo!
Discover why more than 1,500 members use 1stOncology™ to excel in:

Early/Late Stage Pipeline Development - Target Scouting - Clinical Biomarkers - Indication Selection & Expansion - BD&L Contacts - Conference Reports - Combinatorial Drug Settings - Companion Diagnostics - Drug Repositioning - First-in-class Analysis - Competitive Analysis - Deals & Licensing

                  Schedule Your 30 min Free Demo!

The trial is being conducted in collaboration with the U.S. Department of Veterans Affairs (VA) and is fully funded through the VA’s Special Emphasis Panel on Precision Oncology. The trial is officially registered as NCT06681220: Biomarker directed trial of temozolomide and stenoparib in relapsed SCLC and is now open for enrollment at 11 VA sites throughout the US.

This Phase 2 study will assess the safety and efficacy of stenoparib in combination with temozolomide, a DNA-alkylating chemotherapy agent, in patients with recurrent SCLC who have progressed after frontline treatment. Prior studies have shown that PARP inhibitors can enhance the activity of temozolomide, but widespread use has been limited by severe hematologic toxicity. The study includes a blood based biomarker developed in the VA Lung Precision Oncology Program to select patients most likely to benefit from this combination.

"The opening of recruitment marks an important step in exploring stenoparib’s potential as a combination agent," said Thomas Jensen, Chief Executive Officer of Allarity Therapeutics. "Based on clinical data to date from our ongoing trial in ovarian cancer, stenoparib has demonstrated a favorable safety profile, making it a strong candidate for combination therapies — particularly in settings where tolerability has been a limiting factor, as is the case in SCLC. More broadly, we believe stenoparib may offer meaningful clinical benefit in cancers where the WNT signaling pathway plays a key role, which applies to both SCLC and ovarian cancer. We’re particularly enthusiastic about taking this next step in stenoparib’s development as it allows us to explore stenoparib’s enormous potential in other indications and in combination with other agents."

Shadia Jalal, the study’s Principal Investigator and Professor of Medicine at the Lawrence H. Einhorn Chair in Oncology at Indiana University’s Melvin and Bren Comprehensive Cancer Center said, "We’re excited to explore this novel combination. Patients with relapsed SCLC including veterans have very few effective treatment options. Previous clinical work has shown that the combination of temozolomide with first generation PARP inhibitors is very active but also very limited by the toxicities of the two agents. Stenoparib has not only a unique mechanism of action that could provide benefit to these patients but also has a favorable safety profile that may allow veterans to tolerate this combination therapy and realize meaningful, durable clinical benefit."

While offering a potentially more favorable safety profile with temozolomide, stenoparib may offer additional anti-tumor benefit through suppression of WNT signaling, a pathway associated with SCLC progression and resistance.

In addition, stenoparib’s ability to cross the blood-brain barrier may offer therapeutic potential for patients with brain metastases, a common and challenging complication in advanced SCLC.

About Stenoparib/2X-121
Stenoparib is an orally available, small-molecule dual-targeted inhibitor of PARP1/2 and tankyrase 1/2. At present, tankyrases are attracting significant attention as emerging therapeutic targets for cancer, principally due to their role in regulating the WNT signaling pathway. Aberrant WNT/β-catenin signaling has been implicated in the development and progression of numerous cancers. By inhibiting PARP and blocking WNT pathway activation, stenoparib’s unique therapeutic action shows potential as a promising therapeutic for many cancer types, including ovarian cancer, Small Cell Lung Cancer and colorectal cancer. Allarity has secured exclusive global rights for the development and commercialization of stenoparib, which was originally developed by Eisai Co. Ltd. and was formerly known under the names E7449 and 2X-121. Allarity has two ongoing Phase 2 trial protocols for stenoparib in Ovarian Cancer patients. In the first, patients who had had 2+ lines of therapy were enrolled on stenoparib and given drug twice daily. This protocol has been closed to further enrollment but continues for the enrolled patients who are still receiving benefit from stenoparib administration. The updated data from this study were presented at this AACR (Free AACR Whitepaper) special conference on advances in Ovarian Cancer. Note that, as these data are from an ongoing trial, analyses may change as the study fully matures. An amended protocol designed expressly to capitalize on the emerging clinical experience with stenoparib in platinum resistant patients began enrolling patients this summer. This amended protocol enrolls only platinum resistant or platinum-ineligible patients and is designed to accelerate the clinical development of stenoparib toward FDA approval.

About the Drug Response Predictor – DRP Companion Diagnostic
Allarity uses its drug-specific DRP to select those patients who, by the gene expression signature of their cancer, may have a high likelihood of benefiting from a specific drug. By screening patients before treatment, and only treating those patients with a sufficiently high, drug-specific DRP score, the therapeutic benefit rate may be enhanced. The DRP method builds on the comparison of sensitive vs. resistant human cancer cell lines, including transcriptomic information from cell lines, combined with clinical tumor biology filters and prior clinical trial outcomes. DRP is based on messenger RNA expression profiles from patient biopsies. The DRP platform has shown an ability to provide a statistically significant prediction of the clinical outcome from drug treatment in cancer patients across dozens of clinical studies (both retrospective and prospective). The DRP platform, which may be useful in all cancer types and is patented for dozens of anti-cancer drugs, has been extensively published in the peer-reviewed literature.

(Press release, Allarity Therapeutics, FEB 3, 2026, View Source [SID1234662434])