Topographical transcriptome mapping of the mouse medial ganglionic eminence by spatially-resolved RNA-seq

Sabrina Zechel, Pawel Zajac, Peter Lönnerberg, Carlos F Ibáñez, Sten Linnarsson
2014 Genome Biology  
Cortical interneurons originating from the medial ganglionic eminence, MGE, are among the most diverse cells within the CNS. Different pools of proliferating progenitor cells are thought to exist in the ventricular zone of the MGE, but whether the underlying subventricular and mantle regions of the MGE are spatially patterned has not yet been addressed. Here, we combined laser-capture microdissection and multiplex RNA-sequencing to map the transcriptome of MGE cells at a spatial resolution of
more » ... μm. Results: Distinct groups of progenitor cells showing different stages of interneuron maturation are identified and topographically mapped based on their genome-wide transcriptional pattern. Although proliferating potential decreased rather abruptly outside the ventricular zone, a ventro-lateral gradient of increasing migratory capacity was identified, revealing heterogeneous cell populations within this neurogenic structure. Conclusions: We demonstrate that spatially resolved RNA-seq is ideally suited for high resolution topographical mapping of genome-wide gene expression in heterogeneous anatomical structures such as the mammalian central nervous system.
doi:10.1186/preaccept-9143209091271531 pmid:25344199 pmcid:PMC4234883 fatcat:xzk5q5bgtnbf7dtb2voaxi3yya