Functional association of Sun1 with nuclear pore complexes.

Sun1 and 2 are A-type lamin-binding proteins that, in association with nesprins, form a link between the inner nuclear membranes (INMs) and outer nuclear membranes of mammalian nuclear envelopes. Both immunofluorescence and immunoelectron microscopy reveal that Sun1 but not Sun2 is intimately associated with nuclear pore complexes (NPCs). Topological analyses indicate that Sun1 is a type II integral protein of the INM. Localization of Sun1 to the INM is defined by at least two discrete regions within its nucleoplasmic domain. However, association with NPCs is dependent on the synergy of both nucleoplasmic and lumenal domains. Cells that are either depleted of Sun1 by RNA interference or that overexpress dominant-negative Sun1 fragments exhibit clustering of NPCs. The implication is that Sun1 represents an important determinant of NPC distribution across the nuclear surface.

Role of Pinin in neural crest, dorsal dermis, and axial skeleton development and its involvement in the regulation of Tcf/Lef activity in mice.

Previous in vitro studies have indicated multiple and varied roles of Pinin (PNN); however, its in vivo role has remained unclear. Here, we report generation of null, hypomorphic, and conditional Pnn alleles in mice. We found that insertion of neomycin-resistance cassette into intron 8 of Pnn resulted in knockdown of Pnn, which allowed Pnn hypomorphic embryos to pass peri-implantation lethality. These mice are lethal at perinatal stages and exhibit defects in the cardiac outflow tract, palate, dorsal dermis, and axial skeleton. Since Wnt/beta-catenin signaling has been shown to play pivotal roles in development of all tissues affected by Pnn hypomorphism, we speculated that Pnn may affect Wnt/beta-catenin signaling. Supporting this view, we demonstrate abnormal activities of Tcf/Lef transcription factors, and alterations in beta-catenin level in multiple Pnn hypomorphic tissues. Taken together, the data suggest that Pnn plays important roles during mouse development through its involvement in regulation of Tcf/Lef activity.