Sapu Nano Announce Deciparticle™ Led Biomarker Framework Identifying Tumors Most Likely to Respond t

San Diego, Calif., Dec. 05, 2025 (GLOBE NEWSWIRE) -- Sapu Nano today announced new biomarker data identifying a molecular signature that predicts sensitivity to Sapu003, the company’s intravenous Deciparticle™ formulation of everolimus. These data will be presented at the 2025 San Antonio Breast Cancer Symposium (SABCS) Dec 9-12. This work describes the first prospective biomarker framework for intravenous everolimus and establishes a foundation for mTOR therapy targeted to the patient populations most likely to benefit.

The analysis, which evaluated more than 9,000 patient tumor samples across 20 cancer types, revealed that tumors exhibiting a High-RICTOR / Low-RPTOR gene-expression pattern show a significantly greater dependency on mTOR signaling and are therefore, more likely to respond to potent mTOR inhibition delivered by IV Sapu003.

The biomarker analysis demonstrated that:

• Tumors with elevated RICTOR (mTORC2 activation) and suppressed RPTOR (limited mTORC1 scaffolding) show heightened reliance on mTORC2-AKT survival signaling.
• These tumors exhibit increased glycolytic flux, elevated metabolic stress markers, and reduced compensatory feedback, making them vulnerable to systemically distributed everolimus.
• This phenotype/genotype was strongly enriched in:
  • HR+/HER2- breast cancer
  • Lung adenocarcinoma
  • Gastric cancer
  • Renal cell carcinoma
  • Ovarian cancer
  • AML and T-cell malignancies

Across multiple datasets, patients with this signature had significantly worse survival with standard therapy, but showed predicted sensitivity to Sapu003.

This enables, for the first time, biomarker-enriched patient selection for an mTOR inhibitor.

“Up to now mTOR inhibitor therapy has lacked an empirical patient selection strategy beyond tumor type,” said Dr. Seymour Fein, Chief Medical Officer of Sapu Nano. “The High-RICTOR/Low-RPTOR signature gives us, for the first time, a molecular map of which patients are most likely to benefit. The potential for targeting a more sensitive patient population combined with the consistent pharmacokinetic profile of Sapu003 administered intravenously creates an entirely new therapeutic opportunity for mTOR-driven cancers.”

About Sapu003

Sapu003 is a novel intravenous nanoparticle formulation of everolimus engineered using Sapu Nano’s proprietary Deciparticle™ technology. It is designed to overcome the poor bioavailability, intestinal toxicity, and variable patient exposure seen with oral everolimus while enabling reliable, predictable weekly IV dosing.

About the Deciparticle™ Platform

The Deciparticle™ platform is a proprietary nanotechnology engineered to encapsulate hydrophobic molecules as uniform, sub-20 nm nanoparticles for intravenous administration. The platform improves systemic exposure, reduces GI deposition, and supports precision delivery while maintaining manufacturability at clinical scale.

About Sapu Nano

Sapu Nano is a clinical-stage biotechnology company developing Deciparticle™ nanomedicine therapeutics designed to optimize the delivery of hydrophobic oncology agents and peptide-based therapeutics. The company operates an integrated ISO-5 cGMP manufacturing facility supporting rapid progression from formulation to clinical trial supply.

For more information, visit www.sapunano.com.

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