The POU proteins Brn-2 and Oct-6 share important functions in Schwann cell development

Jaegle, Martine; Ghazvini, Mehrnaz; Mandemakers, Wim; Piirsoo, Marko; Driegen, Siska; Levavasseur, Françoise; Raghoenath, Smiriti; Grosveld, Frank; Meijer, Dies

doi:10.1101/gad.258203

Cited by 260 publications

(313 citation statements)

References 42 publications

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“…Transcription of the Dhh gene has not been studied, and the regulatory region that mediates its expression in Schwann cells has not yet been identified. However, work by Jaegle et al (2003) had shown that 19 kb of genomic sequence around the Dhh gene are sufficient to achieve expression of a Cre transgene in Schwann cells. This region encompasses all three Dhh exons as well as upstream and downstream sequences.…”

Section: Resultsmentioning

confidence: 99%

Desert Hedgehog Links Transcription Factor Sox10 to Perineurial Development

Küspert

Weider²,

Müller³

et al. 2012

J. Neurosci.

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Schwann cells are the main glial cell type in the PNS. They develop along nerves during embryogenesis and rely on the HMG domain containing Sox10 transcription factor for specification, lineage progression, and terminal differentiation. Sox10 deletion in immature Schwann cells caused peripheral nerve defects in mice that were not restricted to this glial cell type, although expression in the nerve and gene loss were. Formation of the perineurium as the protecting sheath was, for instance, heavily compromised. This resembled the defect observed after loss of Desert hedgehog (Dhh) in mice. Here we show that Sox10 activates Dhh expression in Schwann cells via an enhancer that is located in intron 1 of the Dhh gene. Sox10 binds this enhancer in monomeric form via several sites. Mutation of these sites abolishes both Schwann-cell-specific activity and Sox10 responsiveness in vitro and in transgenic mouse embryos. This argues that Sox10 activates Dhh expression by direct binding to the enhancer and by increasing Dhh levels promotes formation of the perineurial sheath. This represents the first mechanism for a non-cell-autonomous function of Sox10 during peripheral nerve development.

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Section: Resultsmentioning

confidence: 99%

Desert Hedgehog Links Transcription Factor Sox10 to Perineurial Development

Küspert

Weider²,

Müller³

et al. 2012

J. Neurosci.

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“…The abil- ity of Brn-1 and Brn-2 to compensate for the loss of Pou3f1 was demonstrated using mutant knock-in mice in which Brn-1 (or Brn-2) was inserted into the Pou3f1 locus effectively replacing Pou3f1 expression. The Brn-1 knock-in mice displayed normal Egr2 expression and onset of myelination, whereas Brn-2 knock-in mice manifested a partial rescue of the aberrant myelination phenotype present in Pou3f1-deficient mice (Jaegle et al, 2003;Friedrich et al, 2005). These findings indicate that Brn-1 and Brn-2 are functionally capable of rescuing the myelination delay of the Pou3f1 null mice and provide additional evidence that, as previously hypothesized, Pou3f1 is required for the initiation of myelination (Jaegle and Meijer, 1998;Zorick et al, 1999).…”

Section: Discussionmentioning

confidence: 99%

Misexpression of Pou3f1 Results in Peripheral Nerve Hypomyelination and Axonal Loss

Ryu¹,

Wang²,

Le³

et al. 2007

J. Neurosci.

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Pou3f1/SCIP/Oct-6 is a POU-domain transcription factor that is an important regulator of peripheral nerve myelination by Schwann cells. Pou3f1-deficient mice experience a developmental delay in myelination indicating that transient induction of Pou3f1 is required for normal development of peripheral myelin. The mechanism by which Pou3f1 regulates myelination is unclear, because it can both increase expression of Egr2, a transcription factor that promotes the myelination program, and also repress the promoters of specific myelin genes such as myelin protein zero (MPZ) and myelin basic protein (MBP). Therefore, to investigate the effects of persistent Pou3f1 expression on peripheral nerve myelination, we created a conditional transgenic mouse [condPou3f1:MPZ(Cre)] that constitutively expresses Pou3f1 specifically in peripheral glia. Examination of sciatic nerves from condPou3f1:MPZ(Cre) mice revealed persistent hypomyelination and eventual axonal loss but no evidence of demyelination/remyelination processes or impaired Schwann cell proliferation. Nerves from these mice had normal levels of Egr2 mRNA but decreased levels of MPZ, MBP, and Pmp22 mRNA. Thus, unlike the Pou3f1 null mice, the condPou3f1:MPZ(Cre) mice exhibit persistent hypomyelination, indicating that strict control of Pou3f1 expression is critical to proper myelination. Our findings establish the importance of identifying factor(s) responsible for Pou3f1 downregulation during myelination, because they may play important roles in the development of peripheral neuropathies.

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“…Therefore, myelination is accompanied by the production of huge amounts of myelin proteins and lipids. The entry into the myelination program in Schwann cells is controlled on the transcriptional level by factors like Egr2 (Krox-20), Pou3f1 (Oct-6/Scip/Tst-1) and Pou3f2 (Brn2) that interact with Sox10 to drive expression of myelin genes (Topilko et al, 1994;Bermingham et al, 1996;Jaegle et al, 2003;Finzsch et al, 2010; see also Svaren and Meijer, 2008, and the references herein). In addition, lipid biosynthesis genes are coordinately regulated, and the Srebp/Scap transcription factors and the control of their expression play important roles in lipid production (Verheijen et al, 2009;Norrmen et al, 2014).…”

Section: Entry Into the Myelination Programmentioning

confidence: 99%

Neuregulin/ErbB Signaling in Developmental Myelin Formation and Nerve Repair

Birchmeier

Bennett

2016

Current Topics in Developmental Biology

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Myelin is essential for rapid and accurate conduction of electrical impulses by axons in the central and peripheral nervous system. Myelin is formed in the early postnatal period, and developmental myelination in the peripheral nervous system (PNS) depends on axonal signals provided by Nrg1/ErbB receptors. In addition, Nrg1 is required for effective nerve repair and remyelination in adulthood. We discuss here similarities and differences in Nrg1/ErbB functions in developmental myelination and remyelination after nerve injury.

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The POU proteins Brn-2 and Oct-6 share important functions in Schwann cell development

Cited by 260 publications

References 42 publications

Desert Hedgehog Links Transcription Factor Sox10 to Perineurial Development

Desert Hedgehog Links Transcription Factor Sox10 to Perineurial Development

Misexpression of Pou3f1 Results in Peripheral Nerve Hypomyelination and Axonal Loss

Neuregulin/ErbB Signaling in Developmental Myelin Formation and Nerve Repair

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