DNA-barcoded microneedle array patch enabling the profiling of in vivo spatiotemporal transcriptomics

Recent years have witnessed profound advances in spatial transcriptomics (ST). However, current ST strategies are limited to tissue sections, unable to directly profile spatiotemporal transcriptome landscapes of individual living animals. To overcome this limitation, we present acupuncture-extracted in vivo spatiotemporal transcriptomics (aivST). It is mainly based on engineering clinical-grade acupuncture gold microneedles as a spatial-barcoding array patch with high-performance DNA recognition interfaces. These interfaces first utilize nanoparticles surface deposition to increase the density of DNA probes. A freeze-thawing method is further developed to regulate interfaced DNA probes with laterally uniform distribution and vertically upright conformation, mainly by loose stretching and local concentration of these DNA probes. It increased mRNA capture with 250% and speeded up reaction (from 60 min to 15 min), compared to that without freeze-thawing surface engineering. Using this method, we explored in vivo spatiotemporal transcriptome dynamics during skin wound healing of individual mice. We found four distinct expression changes of transcripts, including continuous upregulation, continuous downregulation, initial upregulation then downregulation, and initial downregulation then upregulation. Our aivST method advances the field from sparse tissue section sampling toward in vivo measurements of biological stereotypy and variability in individual living animals.