Litcius/Paper detail

Genetically Encoded Stealth Nanoparticles of a Zwitterionic Polypeptide-Paclitaxel Conjugate Have a Wider Therapeutic Window than Abraxane in Multiple Tumor Models

Samagya Banskota, Soumen Saha, Jayanta Bhattacharya, Nadia Kirmani, Parisa Yousefpour, Michael Dzuricky, Nikita Zakharov, Xinghai Li, Ivan Spasojević, Kenneth H. Young, Ashutosh Chilkoti

2020Nano Letters54 citationsDOI

Abstract

Small-molecule therapeutics demonstrate suboptimal pharmacokinetics and bioavailability due to their hydrophobicity and size. One way to overcome these limitations—and improve their efficacy—is to use “stealth” macromolecular carriers that evade uptake by the reticuloendothelial system. Although unstructured polypeptides are of increasing interest as macromolecular drug carriers, current recombinant polypeptides in the clinical pipeline typically lack stealth properties. We address this challenge by developing new unstructured polypeptides, called zwitterionic polypeptides (ZIPPs), that exhibit “stealth” behavior in vivo. We show that conjugating paclitaxel to a ZIPP imparts amphiphilicity to the polypeptide chain that is sufficient to drive its self-assembly into micelles. This in turn increases the half-life of paclitaxel by 17-fold compared to free paclitaxel, and by 1.6-fold compared to the nonstealth control, i.e., ELP-paclitaxel. Treatment of mice bearing highly aggressive prostate or colon cancer with a single dose of ZIPP-paclitaxel nanoparticles leads to near-complete eradication of the tumor, and these nanoparticles have a wider therapeutic window than Abraxane, an FDA-approved taxane nanoformulation.

Topics & Concepts

PaclitaxelConjugateTaxaneChemistryIn vivoNanoparticleDrug carrierNanomedicineBioavailabilityPharmacokineticsPharmacologyBiophysicsDrugNanotechnologyCancerMaterials scienceMedicineBiologyBreast cancerInternal medicineMathematicsBiotechnologyMathematical analysisGlycosylation and Glycoproteins ResearchNanoparticle-Based Drug DeliveryMonoclonal and Polyclonal Antibodies Research