Abstract
Topoisomerase enzymes facilitate gene transcription by resolving DNA tangles. Malfunction of these enzymes seems to compromise the expression of very long genes, potentially mediating neurodevelopmental disorders. See Article p.58 Topoisomerases, enzymes involved in DNA winding, are expressed throughout the brain, and mutations have been discovered in some individuals with autism spectrum disorders (ASD). Mark Zylka and colleagues show that reducing topoisomerase activity selectively reduces the expression of long genes in mouse and human neurons by impairing transcription elongation. The authors note that many ASD candidate genes, including Cntnap2, Nrxn1 and Cntn4, are exceptionally long and confirm that expression of several ASD candidate genes is reduced by topoisomerase inhibition. These findings suggest that chemicals and genetic mutations that impair topoisomerases — and possibly other components of the transcription machinery — could contribute to ASD and other neurodevelopmental disorders.
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