Using a systematic, whole-genome analysis of enhancer activity of human-specific endogenous retroviral inserts (hsERVs), we identified an element, hsERV PRODH , that acts as a tissue-specific enhancer for the PRODH gene, which is required for proper CNS functioning. PRODH is one of the candidate genes for susceptibility to schizophrenia and other neurological disorders. It codes for a proline dehydrogenase enzyme, which catalyses the first step of proline catabolism and most likely is involved in neuromediator synthesis in the CNS. We investigated the mechanisms that regulate hsERV PRODH enhancer activity. We showed that the hsERV PRODH enhancer and the internal CpG island of PRODH synergistically activate its promoter. The enhancer activity of hsERV PRODH is regulated by methylation, and in an undermethylated state it can up-regulate PRODH expression in the hippocampus. The mechanism of hsERV PRODH enhancer activity involves the binding of the transcription factor SOX2, whch is preferentially expressed in hippocampus. We propose that the interaction of hsERV PRODH and PRODH may have contributed to human CNS evolution.human-specific endogenous retrovirus | DNA methylation | central nervous system | human speciation | retroelement U nderstanding the molecular basis of phenotypic differences between humans and chimpanzees can provide important clues to human-specific behavioral peculiarities and neurological disorders. For this purpose we conducted a genome-wide analysis of human-specific endogenous retroviral (hsERV) inserts that may induce new regulatory pathways by acting as promoters and enhancers (1, 2). HsERVs of the HERV-K(HML-2) group are one of the four families of transposable elements that were able to transpose at the time of the radiation of human lineage from the lineage of its most closely related species, chimpanzee (3). At least 50% of all hsERV elements exhibit promoter activity in human tissues (4). We found only six hsERV inserts in the upstream regions of known human genes, close to transcription start sites. Three of them displayed strong enhancer activity in transient transfection experiments; of these three, only one-near the PRODH gene-matched the transcriptional activity pattern of its endogenous genomic copy. This copy of hsERV is a full-length, almost intact betaretrovirus belonging to the HERV-K(HML-2) group. PRODH encodes a mitochondrial enzyme proline, dehydrogenase (oxidase), that converts proline to D-1-pyrroline-5-carboxylate (5). PRODH regulates proline catabolism, which is vital for normal CNS functioning. Several PRODH mutations are associated with neuropsychiatric disorders, such as schizophrenia (6). Gene knockouts in mice cause severe changes in the executive functioning of the brain (7). Given the potential importance of PRODH in brain functioning and disease, we attempted to characterize its newly recognized hsERV PRODH enhancer. We showed that hsERV PRODH enhancer activity is regulated by methylation and that the hsERV PRODH enhancer and PRODH internal CpG island act syne...
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