Subcellular mRNA localization patterns across tissues resolved with spatial transcriptomics

Subcellular RNA localization plays a central role in post-transcriptional regulation, including apical-basal compartmentalization in polarized epithelia and nuclear retention of specific transcripts. However, methods for high-throughput mapping of mRNA localization within intact tissue sections remain limited. Here, we apply high-resolution spatial transcriptomics (VisiumHD) to systematically resolve intracellular RNA distribution across diverse mammalian tissues. We introduce a computational approach that extracts subcellular features from spatial data and quantifies transcript localization patterns. Using this framework, we map apical-basal localization in gastrointestinal epithelia and in liver hepatocytes, and map nuclear retention of mRNAs in both mouse and human tissues. Our analyses reveal conserved and tissue-specific localization signatures that can be readily obtained from standard VisiumHD experiments. This approach broadens the scope of spatial transcriptomics by enabling routine investigation of intracellular RNA dynamics in both healthy and diseased tissues.