Polymer Functionalization of Isolated Mitochondria for Cellular Transplantation and Metabolic Phenotype Alteration

Suhong Wu; Aijun Zhang; Shumin Li; Somik Chatterjee; Ruogu Qi; Victor Segura‐Ibarra; Mauro Ferrari; Anisha Gupte; Elvin Blanco; Dale J. Hamilton

doi:10.1002/advs.201700530

Advanced Science (Mar 2018)

Polymer Functionalization of Isolated Mitochondria for Cellular Transplantation and Metabolic Phenotype Alteration

Suhong Wu,
Aijun Zhang,
Shumin Li,
Somik Chatterjee,
Ruogu Qi,
Victor Segura‐Ibarra,
Mauro Ferrari,
Anisha Gupte,
Elvin Blanco,
Dale J. Hamilton

Affiliations

Suhong Wu: Department of Nanomedicine Houston Methodist Research Institute Houston TX 77030 USA
Aijun Zhang: Center for Bioenergetics Houston Methodist Research Institute Houston TX 77030 USA
Shumin Li: Center for Bioenergetics Houston Methodist Research Institute Houston TX 77030 USA
Somik Chatterjee: Center for Bioenergetics Houston Methodist Research Institute Houston TX 77030 USA
Ruogu Qi: Department of Nanomedicine Houston Methodist Research Institute Houston TX 77030 USA
Victor Segura‐Ibarra: Department of Nanomedicine Houston Methodist Research Institute Houston TX 77030 USA
Mauro Ferrari: Department of Nanomedicine Houston Methodist Research Institute Houston TX 77030 USA
Anisha Gupte: Center for Bioenergetics Houston Methodist Research Institute Houston TX 77030 USA
Elvin Blanco: Department of Nanomedicine Houston Methodist Research Institute Houston TX 77030 USA
Dale J. Hamilton: Center for Bioenergetics Houston Methodist Research Institute Houston TX 77030 USA

DOI: https://doi.org/10.1002/advs.201700530
Journal volume & issue: Vol. 5, no. 3
pp. n/a – n/a

Abstract

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Abstract Aberrant mitochondrial energy transfer underlies prevalent chronic health conditions, including cancer, cardiovascular, and neurodegenerative diseases. Mitochondrial transplantation represents an innovative strategy aimed at restoring favorable metabolic phenotypes in cells with dysfunctional energy metabolism. While promising, significant barriers to in vivo translation of this approach abound, including limited cellular uptake and recognition of mitochondria as foreign. The objective is to functionalize isolated mitochondria with a biocompatible polymer to enhance cellular transplantation and eventual in vivo applications. Herein, it is demonstrated that grafting of a polymer conjugate composed of dextran with triphenylphosphonium onto isolated mitochondria protects the organelles and facilitates cellular internalization compared with uncoated mitochondria. Importantly, mitochondrial transplantation into cancer and cardiovascular cells has profound effects on respiration, mediating a shift toward improved oxidative phosphorylation, and reduced glycolysis. These findings represent the first demonstration of polymer functionalization of isolated mitochondria, highlighting a viable strategy for enabling clinical applications of mitochondrial transplantation.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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