Modification of Tumor Cell Exosome Content by Transfection with Wt-P53 and Microrna-125b Expressing Plasmid DNA and Its Effect on Macrophage Polarization

Authors

Malav Suchin Trivedi, Nova Southeastern UniversityFollow
Meghna Talekar, Northeastern University
P Shah
Qiyun Ouyang, Northeastern University
Mansoor M. Amiji, Northeastern University

Publication Title

Oncogenesis

Publisher

Nature Publishing Group

ISSN

2157-9024

Publication Date

8-8-2016

Keywords

DNA, transfection, tumor cell

Abstract

Exosomes are responsible for intercellular communication between tumor cells and others in the tumor microenvironment. These microvesicles promote oncogensis and can support towards metastasis by promoting a pro-tumorogenic environment. Modifying the exosomal content and exosome delivery are emerging novel cancer therapies. However, the clinical translation is limited due to feasibility of isolating and delivery of treated exosomes as well as an associated immune response in patients. In this study, we provide proof-of-concept for a novel treatment approach for manipulating exosomal content by genetic transfection of tumor cells using dual-targeted hyaluronic acid-based nanoparticles. Following transfection with plasmid DNA encoding for wild-type p53 (wt-p53) and microRNA-125b (miR-125b), we evaluate the transgene expression in the SK-LU-1 cells and in the secreted exosomes. Furthermore, along with modulation of wt-p53 and miR-125b expression, we also show that the exosomes (i.e., wt-p53/exo, miR-125b/exo and combination/exo) have a reprogramed global miRNA profile. The miRNAs in the exosomes were mainly related to the activation of genes associated with apoptosis as well as p53 signaling. More importantly, these altered miRNA levels in the exosomes could mediate macrophage repolarization towards a more pro-inflammatory/antitumor M1 phenotype. However, further studies, especially in vivo studies, are warranted to assess the direct influence of such macrophage reprogramming on cancer cells and oncogenesis post-treatment. The current study provides a novel platform enabling the development of therapeutic strategies affecting not only the cancer cells but also the tumor microenvironment by utilizing the 'bystander effect' through genetic transfer with secreted exosomes. Such modification could also support antitumor environment leading to decreased oncogenesis.

DOI

10.1038/oncsis.2016.52

Volume

5

Issue

8

First Page

250

Last Page

250

Disciplines

Medicine and Health Sciences | Pharmacy and Pharmaceutical Sciences

NSUWorks Citation

Trivedi, Malav Suchin; Talekar, Meghna; Shah, P; Ouyang, Qiyun; and Amiji, Mansoor M., "Modification of Tumor Cell Exosome Content by Transfection with Wt-P53 and Microrna-125b Expressing Plasmid DNA and Its Effect on Macrophage Polarization" (2016). Faculty Articles. 180.
https://nsuworks.nova.edu/hpd_corx_facarticles/180