Unified molecular approach for spatial epigenome, transcriptome, and cell lineages

Article

Huang, Yung-Hsin; Belk, Julia A.; Zhang, Ruochi; Weiser, Natasha E.; Chiang, Zachary; Jones, Matthew G.; Mischel, Paul S.; Buenrostro, Jason D.; Chang, Howard Y.

Stanford University; Harvard University; Massachusetts Institute of Technology (MIT); Broad Institute; Harvard University; Harvard University; Massachusetts Institute of Technology (MIT); Broad Institute; Stanford University; Stanford University; Stanford University; Howard Hughes Medical Institute

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

0027-14306

10.1073/pnas.2424070122

2025-04-22

Spatial epigenomics and multiomics can provide fine-grained insights into cellular states but their widespread adoption is limited by the requirement for bespoke slides and capture chemistries for each data modality. Here, we present SPatial assay for Accessible chromatin, Cell lineages, and gene Expression with sequencing (SPACE-seq), a method that utilizes polyadenine-tailed epigenomic libraries to enable facile spatial multiomics using standard whole transcriptome reagents. Applying SPACE-seq to a human glioblastoma specimen, we reveal the state of the tumor microenvironment, extrachromosomal DNA copy numbers, and identify putative mitochondrial DNA variants.