Smad7 alone could

slightly decrease BMPR1a and β-catenin protein levels. When cotransfected with Smurf1, Smad7 substantially downregulated BMPR1a and β-catenin steady-state protein levels (Figure 7D). Similarly, the level of p-Smad is also reduced (Figure 7D), indicating that a decrease of BMP-Smad signaling parallels with downregulation of the BMPR1a level, possibly underlying a reduced sensitivity to BMPs (Figure 7D). Consistently, expression of Smad7 together with Smurf1 was found to reverse the inhibition of expression of myelin genes Mbp, Mag, and Plp in rat OPC culture exposed to BMP4 ( Figure 7E). In addition, Smad7/Smurf1 expression antagonized the inhibitory effects mediated by BMPRCA-Smad1/p300 expression on the Mbp promoter activity while repressing the Hes1 promoter activity ( Figure 7F). These data agree fully with other biochemical studies in the TGF-β field that inhibitory Smads negatively regulate receptor-activated Dinaciclib in vivo Smad signaling in BMP-stimulated cells ( Massagué et al., 2005). Collectively,

our observations suggest that Smad7 is a critical downstream target of Sip1 and promotes oligodendrocyte differentiation indirectly by inhibiting BMP-Smad signaling and perhaps β-catenin-mediated negative regulatory pathways. To further determine whether Smad7 is required for oligodendrocyte development, we generated and analyzed conditional Smad7 knockout mice, with the Smad7 allele deleted in the VX-770 price oligodendrocyte lineage by Olig1-Cre ( Chen et al., 2009b) ( Figure 8A). Conventional Smad7 null embryos die in utero due to multiple defects in cardiovascular development ( Chen et al., science 2009b). Although Smad7cKO (Smad7flox/flox;Olig1Cre+/−) mice are viable, they developed tremors at

postnatal week 2. To determine the role of Smad7 in oligodendrocyte development, we examined expression of the markers for mature oligodendrocytes and their precursors in the CNS of Smad7cKO animals at P7. In the brains and spinal cord of Smad7cKO mice, the expression of the myelin genes Mbp and Plp1 was diminished in the white matter in contrast to robust expression in control mice ( Figure 8B). In contrast, the OPC marker PDGFRα was detected throughout the spinal cord and the number of positive cells was comparable to that of control littermates ( Figure 8B). We did not detect any significant alteration of astrocytic GFAP expression in the spinal cord of Smad7 mutant mice (data not shown). The severe downregulation of myelin gene expression in Smad7cKO mice suggests that Smad7 is critically required for oligodendrocyte differentiation. BMP, Wnt, and Notch signaling activation is a major obstacle for remyelination by oligodendrocytes in acute and subacute demyelinating lesions, as these pathways inhibit oligodendrocyte precursor differentiation (Fancy et al., 2010, Franklin and Ffrench-Constant, 2008 and Kotter et al., 2011).