Litcius/Paper detail

Unlocking the Mitochondria for Nanomedicine-based Treatments: Overcoming Biological Barriers, Improving Designs, and Selecting Verification Techniques

Camilla Pegoraro, Inés Domingo-Ortí, Inmaculada Conejos‐Sánchez, Marı́a J. Vicent

2024Advanced Drug Delivery Reviews41 citationsDOIOpen Access PDF

Abstract

Enhanced targeting approaches will support the treatment of diseases associated with dysfunctional mitochondria, which play critical roles in energy generation and cell survival. Obstacles to mitochondria-specific targeting include the presence of distinct biological barriers and the need to pass through (or avoid) various cell internalization mechanisms. A range of studies have reported the design of mitochondrially-targeted nanomedicines that navigate the complex routes required to influence mitochondrial function; nonetheless, a significant journey lies ahead before mitochondrially-targeted nanomedicines become suitable for clinical use. Moving swiftly forward will require safety studies, in vivo assays confirming effectiveness, and methodologies to validate mitochondria-targeted nanomedicines' subcellular location/activity. From a nanomedicine standpoint, we describe the biological routes involved (from administration to arrival within the mitochondria), the features influencing rational design, and the techniques used to identify/validate successful targeting. Overall, rationally-designed mitochondria-targeted-based nanomedicines hold great promise for precise subcellular therapeutic delivery.

Topics & Concepts

NanomedicineMitochondrionRational designComputational biologyComputer scienceBiologyNanotechnologyCell biologyMaterials scienceNanoparticleMitochondrial Function and PathologyAnesthesia and Neurotoxicity ResearchNanoplatforms for cancer theranostics