Emerging roles of nuclear protein phosphatases

Moorhead, Greg B. G.; Trinkle-Mulcahy, Laura; Ulke‐Lemée, Annegret

doi:10.1038/nrm2126

Cited by 337 publications

(339 citation statements)

References 113 publications

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“…Reversible protein phosphorylation by kinases and phosphatases is one of the most common mechanisms in controlling most, if not all, cellular processes [1]. Dephosphorylation of serine/threonine residues is regulated by two distinct groups of functionally diverse serine/threonine protein phosphatases, the PPM family (which includes PP2C) and the PPP family, which includes the type 1 (PP1) and the type 2A (PP2A, PP2B, PP3, PP4, PP5, PP6, and PP7) protein phosphatases.…”

Section: Dear Editormentioning

confidence: 99%

Protein phosphatase PP4 is overexpressed in human breast and lung tumors

et al. 2008

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Section: Dear Editormentioning

confidence: 99%

Protein phosphatase PP4 is overexpressed in human breast and lung tumors

et al. 2008

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“…Inhibitors of a PPM family phosphatase can activate 39 cleavage Most S/T phosphatases can be classified by catalytic subunit sequence homology into three superfamilies (Moorhead et al 2007): the phosphoprotein phosphatase (PPP) family, which includes PP1, PP2A, PP2B, PP4, PP5, and PP7; the protein phosphatase with Mg 2+ / Mn 2+ dependence (PPM), solely represented by the PP2Cs; and the DXDXT/V motif phosphatases, such as FCP1, which are specific for the C-terminal domain (CTD) of RNA Pol II. Although the CTD stimulates 39 cleavage in vitro (Hirose and Manley 1998), it does so independent of its CTD phosphorylation state (Hirose and Manley 1998;Ryan et al 2002).…”

Section: Resultsmentioning

confidence: 99%

“…As a class, they are expected to have similar structures and active sites (Stern et al 2007) and would therefore be expected to share sensitivity to the same inhibitors. While several of these paralogs are known to localize to the nucleus (Moorhead et al 2007), one in particular, PP2Cg (PPM1G), has been found to play a role in pre-mRNA splicing (Murray et al 1999;Allemand et al 2007), which is in turn coordinated with 39 cleavage (Niwa et al 1990;Kyburz et al 2006;Millevoi et al 2006). We detected PP2Cg at varying levels by Western blotting in our partially purified cleavage factors (Fig.…”

Section: Resultsmentioning

confidence: 99%

Small molecule activators of pre-mRNA 3′ cleavage

Ryan

Khleborodova²,

Pan³

et al. 2009

RNA

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39 Cleavage and polyadenylation are obligatory steps in the biogenesis of most mammalian pre-mRNAs. In vitro reconstitution of the 39 cleavage reaction from human cleavage factors requires high concentrations of creatine phosphate (CP), though how CP activates cleavage is not known. Previously, we proposed that CP might work by competitively inhibiting a cleavagesuppressing serine/threonine (S/T) phosphatase. Here we show that fluoride/EDTA, a general S/T phosphatase inhibitor, activates in vitro cleavage in place of CP. Subsequent testing of inhibitors specific for different S/T phosphatases showed that inhibitors of the PPM family of S/T phosphatases, which includes PP2C, but not the PPP family, which includes PP1, PP2A, and PP2B, activated 39 cleavage in vitro. In particular, NCI 83633, an inhibitor of PP2C, activated extensive 39 cleavage at a concentration 50-fold below that required by fluoride or CP. The testing of structural analogs led to the identification of a more potent compound that activated 39 cleavage at 200 mM. While testing CP analogs to understand the origin of its cleavage activation effect, we found phosphocholine to be a more effective activator than CP. The minimal structural determinants of 39 cleavage activation by phosphocholine were identified. Our results describe a much improved small molecule activator of in vitro pre-mRNA cleavage, identify the molecular determinants of cleavage activation by phosphoamines such as phosphocholine, and suggest that a PPM family phosphatase is involved in the negative regulation of mammalian pre-mRNA 39 cleavage.

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“…Functional PP1 holoenzymes consist of a highly conserved ~35 kDa catalytic subunit (C) associated with a regulatory (R) subunit that is responsible for subcellular localisation and determines substrate specificity. While there are only a few genes (PP1cα, PP1cβ/δ, and PP1cγ) that code for catalytic subunit proteins, more than a hundred putative R subunits have been identified [35]. The naturally occurring toxins okadaic acid (OKA) and microcystin are potent inhibitors of the catalytic subunit of both PP1 and PP2A [36,37] and are thus widely used to study the role of these phosphatases in various contexts.…”

Section: Protein Phosphatase 1 (Pp1)mentioning

confidence: 99%