Jessica C. Leung scite author profile

Remodelling of the nuclear membrane is essential for the dynamic changes of nuclear architecture at different stages of the cell cycle and during cell differentiation. The molecular mechanism underlying the regulation of nuclear membrane biogenesis is not known. Here we show that Smp2, the yeast homologue of mammalian lipin, is a key regulator of nuclear membrane growth during the cell cycle. Smp2 is phosphorylated by Cdc28/ Cdk1 and dephosphorylated by a nuclear/endoplasmic reticulum (ER) membrane-localized CPD phosphatase complex consisting of Nem1 and Spo7. Loss of either SMP2 or its dephosphorylated form causes transcriptional upregulation of key enzymes involved in lipid biosynthesis concurrent with a massive expansion of the nucleus. Conversely, constitutive dephosphorylation of Smp2 inhibits cell division. We show that Smp2 associates with the promoters of phospholipid biosynthetic enzymes in a Nem1-Spo7-dependent manner. Our data suggest that Smp2 is a critical factor in coordinating phospholipid biosynthesis at the nuclear/ER membrane with nuclear growth during the cell cycle.

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Clonogenic multipotent stem cells in human adipose tissue differentiate into functional smooth muscle cells

Rodríguez¹,

Alfonso²,

Zhang³

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

283

232

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TorsinA protein and neuropathology in early onset generalized dystonia with GAG deletion

Rostásy

Augood

Hewett

et al. 2003

Neurobiology of Disease

150

137

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Jessica C. Leung

The yeast lipin Smp2 couples phospholipid biosynthesis to nuclear membrane growth

Clonogenic multipotent stem cells in human adipose tissue differentiate into functional smooth muscle cells

TorsinA protein and neuropathology in early onset generalized dystonia with GAG deletion

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