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Sperm and offspring production in a nonobstructive azoospermia mouse model via testicular mRNA delivery using lipid nanoparticles

Daisuke Mashiko, Chihiro Emori, Yuki Hatanaka, Daisuke Motooka, Pan Chen, Yuki Kaneda, Martin M. Matzuk, Masahito Ikawa

2025Proceedings of the National Academy of Sciences8 citationsDOIOpen Access PDF

Abstract

Microsurgical testicular sperm extraction (microTESE) with intracytoplasmic sperm injection (ICSI) represents the current standard treatment for nonobstructive azoospermia (NOA). However, cures remain unavailable for NOA patients lacking retrievable haploid cells. mRNA supplementation could be a potential treatment for genetic defects leading to impaired spermatogenesis. Lipid nanoparticles (LNPs) have emerged as mRNA delivery vehicles with minimal risk of genome integration; however, their ability to selectively deliver mRNA to specific cell types remains limited. To overcome this, microRNA (miRNA) target sequences were incorporated into mRNA constructs to restrict expression specifically to germ cells. Using pyruvate dehydrogenase E1 subunit alpha 2 (PDHA2) knockout mice as an NOA model with meiotic arrest, we demonstrate that LNP-mediated delivery of Pdha2 mRNA enables the resumption and completion of meiosis, restores sperm production, and facilitates the generation of healthy fertile offspring via ICSI. Whole-genome sequencing of the offspring confirmed the absence of large-scale genomic abnormalities. Our results provide proof of concept for a safe and effective chemically synthesized LNP-based mRNA therapy with miRNA-regulated germ cell specificity, offering a promising therapeutic approach to treating male infertility caused by spermatogenesis arrest.

Topics & Concepts

SpermatogenesisSpermOffspringAndrologyIntracytoplasmic sperm injectionBiologyMessenger RNAAzoospermiaGerm cellMale infertilityTesticular sperm extractionInfertilityOocyteInternal medicineCell biologyMeiosisGene knockoutGene knockdownSperm RetrievalEndocrinologyGeneEmbryoSperm and Testicular FunctionRNA Interference and Gene DeliveryReproductive Biology and Fertility