Biomimetic Nanomotors for Deep Ischemia Penetration and Ferroptosis Inhibition in Neuroprotective Therapy of Ischemic Stroke

Adv Mater. 2024 Nov 26:e2409176. doi: 10.1002/adma.202409176. Online ahead of print.

Abstract

Nerve injury represents the primary reason of mortality and disability in ischemic stroke, but effective drug delivery to the region of cerebral ischemia and hypoxia poses a significant challenge in neuroprotective treatment. To address these clinical challenges, a biomimetic nanomotor, Pt@LF is designed, to facilitate deep delivery of neuroprotective agents and inhibit ferroptosis in ischemic stroke. Pt@LF traverses the blood-brain barrier (BBB) and penetrates into deep cerebral ischemic-hypoxic areas due to the active targeting capacity of apo-lactoferrin (Apo-LF) and the self-propelling motion properties of nanomotors. Subsequently, Pt@LF loosens thrombus and alleviates the "no reflow" phenomenon via mechanical thrombolysis. Thanks to the various enzyme-like abilities and multi-target ferroptosis inhibition capability, Pt@LF ameliorates the inflammatory microenvironment and rescues dying neurons. In conclusion, Pt@LF demonstrates efficiently deep penetration and neuroprotective effects in vitro and vivo. And this study provides a promising therapeutic platform for the treatment of ischemic stroke.

Keywords: ferroptosis; ischemic stroke; nanomotors; neuroprotection; no reflow phenomenon.