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A Dual-Biomineralized Yeast Micro-/Nanorobot with Self-Driving Penetration for Gastritis Therapy and Motility Recovery

Lishan Zhang, Baozhen Zhang, Ruijing Liang, Hui Ran, Denghui Zhu, Jian Ren, Lanlan Liu, Ai-Qing Ma, Lintao Cai

2023ACS Nano44 citationsDOI

Abstract

Micro-/nanorobots have attracted great interest in the field of drug delivery and treatment, while preparations for biocompatible robots are extremely challenging. Here, a self-driving yeast micro-/nanorobot ( [email protected] ) is designed via dual biomineralization and acid catalysis of calcium carbonate (CaCO 3 ). Inner nano-CaCO 3 inside yeast cells (CaY) is biomineralized through cell respiration and provides nanoscaffolds for highly encapsulating curcumin (Cur). Meanwhile, the CaCO 3 crystals outside yeast cells (outer-CaCO 3 ) through uniaxial growth offer an asymmetric power source for self-propelled motility. The [email protected] displays an efficient motion in gastric acid, with the potential for deep penetration to the thick gastric mucus, which significantly improves the accumulation of drug agents in the stomach wall tissue for robust gastritis therapy. More importantly, Ca 2+ cations released from the [email protected] also synergistically repair the gastric motility of gastritis mice. Such yeast micro-/nanorobots exhibit desirable biocompatibility and biodegradability with a good loading capacity for drugs. This work provides an idea for the design of micro-/nanorobots through an environmentally friendly biosynthesis strategy for active drug delivery and precise therapy.

Topics & Concepts

NanoroboticsBiocompatibilityDrug deliveryMaterials scienceNanotechnologyYeastBiophysicsChemistryBiochemistryBiologyMetallurgyMicro and Nano RoboticsAdvanced Materials and MechanicsModular Robots and Swarm Intelligence
A Dual-Biomineralized Yeast Micro-/Nanorobot with Self-Driving Penetration for Gastritis Therapy and Motility Recovery | Litcius