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Evidence for evolutionary divergence of activity-dependent gene expression in developing neurons.

TitleEvidence for evolutionary divergence of activity-dependent gene expression in developing neurons.
Publication TypeJournal Article
Year of Publication2016
AuthorsQiu J, McQueen J, Bilican B, Dando O, Magnani D, Punovuori K, Selvaraj BT, Livesey M, Haghi G, Heron S, Burr K, Patani R, Rajan R, Sheppard O, Kind PC, Simpson I, Tybulewicz VLj, Wyllie DJa, Fisher EMc, Lowell S, Chandran S, Hardingham GE
JournalElife
Volume5
Date Published2016 Oct 01
ISSN2050-084X
Abstract

Evolutionary differences in gene regulation between humans and lower mammalian experimental systems are incompletely understood, a potential translational obstacle that is challenging to surmount in neurons, where primary tissue availability is poor. Rodent-based studies show that activity-dependent transcriptional programs mediate myriad functions in neuronal development, but the extent of their conservation in human neurons is unknown. We compared activity-dependent transcriptional responses in developing human stem cell-derived cortical neurons with those induced in developing primary- or stem cell-derived mouse cortical neurons. While activity-dependent gene-responsiveness showed little dependence on developmental stage or origin (primary tissue vs. stem cell), notable species-dependent differences were observed. Moreover, differential species-specific gene ortholog regulation was recapitulated in aneuploid mouse neurons carrying human chromosome-21, implicating promoter/enhancer sequence divergence as a factor, including human-specific activity-responsive AP-1 sites. These findings support the use of human neuronal systems for probing transcriptional responses to physiological stimuli or indeed pharmaceutical agents.

DOI10.7554/eLife.20337
Alternate JournalElife
PubMed ID27692071
Publication institute
CRM