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Allogeneic human neural stem cells for improved therapeutic delivery to peritoneal ovarian cancer

Rachael Mooney, Wafa Abidi, Jennifer Batalla‐Covello, Hoi Wa Ngai, Caitlyn Hyde, Diana Machado, Asma Abdul-Majid, Yanan Kang, Mohamed Hammad, Linda Flores, Greg Copeland, Thanh H. Dellinger, Ernest Han, Jacob M. Berlin, Karen S. Aboody

2021Stem Cell Research & Therapy30 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Immortalized, clonal HB1.F3.CD 21 human neural stem/progenitor cells (NSCs), loaded with therapeutic cargo prior to intraperitoneal (IP) injection, have been shown to improve the delivery and efficacy of therapeutic agents in pre-clinical models of stage III ovarian cancer. In previous studies, the distribution and efficacy of the NSC-delivered cargo has been examined; however, the fate of the NSCs has not yet been explored. METHODS: To monitor NSC tropism, we used an unconventional method of quantifying endocytosed gold nanorods to overcome the weaknesses of existing cell-tracking technologies. RESULTS: Here, we report efficient tumor tropism of HB1.F3.CD 21 NSCs, showing that they primarily distribute to the tumor stroma surrounding individual tumor foci within 3 h after injection, reaching up to 95% of IP metastases without localizing to healthy tissue. Furthermore, we demonstrate that these NSCs are non-tumorigenic and non-immunogenic within the peritoneal setting. CONCLUSIONS: Their efficient tropism, combined with their promising clinical safety features and potential for cost-effective scale-up, positions this NSC line as a practical, off-the-shelf platform to improve the delivery of a myriad of peritoneal cancer therapeutics.

Topics & Concepts

TropismOvarian cancerNeural stem cellCancer researchOncolytic virusStem cellProgenitor cellMedicineCancer cellCancer stem cellCancerBiologyImmunologyTumor cellsInternal medicineCell biologyVirusOvarian cancer diagnosis and treatmentNeuroblastoma Research and TreatmentsCancer Cells and Metastasis