Abstract
BackgroundPmp22, a member of the junction protein family Claudin/EMP/PMP22, plays an important role in myelin formation. Increase of pmp22 transcription causes peripheral neuropathy, Charcot-Marie-Tooth disease type1A (CMT1A). The pathophysiological phenotype of CMT1A is aberrant axonal myelination which induces a reduction in nerve conduction velocity (NCV). Several CMT1A model rodents have been established by overexpressing pmp22. Thus, it is thought that pmp22 expression must be tightly regulated for correct myelin formation in mammals. Interestingly, the myelin sheath is also present in other jawed vertebrates. The purpose of this study is to analyze the evolutionary conservation of the association between pmp22 transcription level and vertebrate myelin formation, and to find the conserved non-coding sequences for pmp22 regulation by comparative genomics analyses between jawed fishes and mammals.ResultsA transgenic pmp22 over-expression medaka fish line was established. The transgenic fish had approximately one fifth the peripheral NCV values of controls, and aberrant myelination of transgenic fish in the peripheral nerve system (PNS) was observed. We successfully confirmed that medaka fish pmp22 has the same exon-intron structure as mammals, and identified some known conserved regulatory motifs. Furthermore, we found novel conserved sequences in the first intron and 3'UTR.ConclusionMedaka fish undergo abnormalities in the PNS when pmp22 transcription increases. This result indicates that an adequate pmp22 transcription level is necessary for correct myelination of jawed vertebrates. Comparison of pmp22 orthologs between distantly related species identifies evolutionary conserved sequences that contribute to precise regulation of pmp22 expression.
Highlights
Pmp22, a member of the junction protein family Claudin/EMP/PMP22, plays an important role in myelin formation
The typical onion bulb formation, which is the remarkable feature of demyelinating-remyelinating neuropathies, was not observed in the pmp22 fish, our observations indicate that prevention of pmp22 over-expression is important for keeping fast peripheral nerve conduction velocity (NCV) and maintaining the myelin sheath in jawed vertebrates
We investigated the relation of pmp22 transcription level with peripheral nerve system (PNS) pathophysiology in medaka fish
Summary
A member of the junction protein family Claudin/EMP/PMP22, plays an important role in myelin formation. Increase of pmp transcription causes peripheral neuropathy, Charcot-MarieTooth disease type1A (CMT1A). The pathophysiological phenotype of CMT1A is aberrant axonal myelination which induces a reduction in nerve conduction velocity (NCV). It is thought that pmp expression must be tightly regulated for correct myelin formation in mammals. The purpose of this study is to analyze the evolutionary conservation of the association between pmp transcription level and vertebrate myelin formation, and to find the conserved non-coding sequences for pmp regulation by comparative genomics analyses between jawed fishes and mammals. It is known that in mammals an increase of the pmp transcription level induces a reduction in nerve conduction velocity (NCV), coupled with abnormal axonal myelination. Understanding the regulatory mechanisms of this gene might improve treatment of CMT1A patients
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