On April 21, 2015 Blend Therapeutics, Inc., a biopharmaceutical company discovering and developing two distinct classes of targeted anti-cancer medicines to advance the treatment of patients with solid tumor cancers, presented preclinical data today on its lead Pentarin program, BTP-277, showing specific and potent targeting of tumor cells expressing the somatostatin receptor, which is known to be over expressed in small cell lung cancer (SCLC) and neuroendocrine cancer tumor cells (Press release, Tarveda Therapeutics, APR 21, 2015, View Source [SID:1234508889]). BTP-277 is the first in a series of proprietary drug candidates from Blend’s Pentarin platform, which creates miniaturized biologic drug conjugates (mBDCs) incorporated in polymeric nanoparticles that offer the potential for highly effective penetration and distribution of targeted anti-cancer treatment deep into the tumor tissue. The results were presented in a poster entitled "Pentarins: Improved tumor targeting through nanoparticle encapsulation of miniaturized biologic drug conjugates" at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting in Philadelphia, Penn.
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BTP-277’s biologic targeting ligand is designed to specifically and selectively target cancers that over-express the somatostatin receptor. The targeting ligand is conjugated to a potent cytotoxic payload through an optimized chemical linker to create miniaturized biologic drug conjugates (mBDCs), which are incorporated in nanoparticles to create the Pentarin, BTP-277. Synergistic anticancer activity occurs based on the unique approach of the Pentarin: the nanoparticle enables high therapeutic concentration of mBDCs in the tumor; the small size of mBDCs allows for effective penetration deep into the tumor tissue; and ligand’s targeting ability allows for specific binding to tumor cells and selective intracellular payload delivery.
"Pentarins are novel biologic drug conjugates specifically designed for solid tumors, with a unique structure, miniaturization and nanoparticle combination designed to enable the selective targeting of cancer cells and impressive penetration deep into tumor tissue. Our approach represents a significant advance in the field since the first development of antibody drug conjugates 35 years ago and other medicines designed for the treatment of solid tumor cancers," said Richard Wooster, PhD, President of Research and Development of Blend. "Our most advanced Pentarin, BTP-277, has shown the ability to specifically and potently target small cell lung cancer tumor cells, providing highly encouraging results for the superior potential of a Pentarin. We expect BTP-277 to have a similar effect in additional somatostatin receptor over-expressing tumors. We are on track to complete the studies necessary to advance our first Pentarin into clinical trials in early 2016 to prove its potential to meet the unmet needs of cancer patients."
The data presentation at AACR (Free AACR Whitepaper) describes that the Pentarin from the BTP-277 program resulted in complete tumor regressions in small cell lung cancer tumors with no tumors reappearing by the end of the study at 103 days. In contrast, the miniaturized biologic drug conjugate (mBDC) alone – without the additional Pentarin components – resulted initially in shrinkage of tumors which then regrew. The mBDC in the BTP-277 Pentarin showed high affinity for the somatostatin receptor and was rapidly internalized into somatostatin over-expressing tumor cells where the potent cytotoxic payload exerted its cell killing effects. BTP-277 resulted in a 10-fold increase in total plasma levels and detectable levels in plasma 24 hours after dosing. In contrast, the mBDC alone was undetectable in plasma two hours after dosing.
About Pentarins
Pentarins represent a novel approach for the application of biologic drug conjugates to the treatment of cancer. Pentarins are comprised of a miniaturized biologic drug conjugate (mBDC) in a polymeric nanoparticle. Blend applies its proprietary suite of technologies to create novel mBDCs comprised of a proprietary targeting ligand conjugated to a potent cell-killing agent through a chemical linker. The mBDCs are incorporated in polymeric nanoparticles to protect them from their rapid clearance and allow for their accumulation in the tumor. Pentarins are designed to overcome the biological barriers that limit therapeutic effectiveness against solid tumors. Together, the components of Blend’s proprietary Pentarins have distinct yet synergistic anticancer capabilities: the nanoparticle enables high therapeutic concentration at the tumor site, the small size of mBDCs allows for effective penetration and distribution deep into the tumor tissue, the ligand’s targeting ability allows for specific binding to tumor cells, and the cell-killing payload is released inside the cancer cells.