Peroxisomal targeting of a protein phosphatase type 2C via mitochondrial transit

Abstract We have identified two proteins that bind with high specificity to type 1 serine/threonine protein phosphatase (PP1) and have exploited their inhibitory properties to develop an efficient and flexible strategy for conditional inactivation of PP1 in vivo. We show that modest overexpression of Drosophila homologs of I-2 and NIPP1 (I-2Dm and NIPP1Dm) reduces the level of PP1 activity and phenotypically resembles known PP1 mutants. These phenotypes, which include lethality, abnormal mitotic figures, and defects in muscle development, are suppressed by coexpression of PP1, indicating that the effect is due specifically to loss of PP1 activity. Reactivation of I-2Dm:PP1c complexes suggests that inhibition of PP1 activity in vivo does not result in a compensating increase in synthesis of active PP1. PP1 mutants enhance the wing overgrowth phenotype caused by ectopic expression of the type II TGFβ superfamily signaling receptor Punt. Using I-2Dm, which has a less severe effect than NIPP1Dm, we show that lowering the level of PP1 activity specifically in cells overexpressing Punt is sufficient for wing overgrowth and that the interaction between PP1 and Punt requires the type I receptor Thick-veins (Tkv) but is not strongly sensitive to the level of the ligand, Decapentaplegic (Dpp), nor to that of the other type I receptors. This is consistent with a role for PP1 in antagonizing Punt by preventing phosphorylation of Tkv. These studies demonstrate that inhibitors of PP1 can be used in a tissue- and developmental-specific manner to examine the developmental roles of PP1.

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Bryophyllum fedtschenkoi protein phosphatase type 2A can dephosphorylate phosphoenolpyruvate carboxylase

FEBS Letters ◽

10.1016/0014-5793(90)81381-w ◽

1990 ◽

Vol 263 (2) ◽

pp. 233-236 ◽

Cited By ~ 67

Author(s):

P.J. Carter ◽

H.G. Nimmo ◽

C.A. Fewson ◽

M.B. Wilkins

Keyword(s):

Protein Phosphatase ◽

Phosphoenolpyruvate Carboxylase ◽

Protein Phosphatase Type

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Differential expression of protein phosphatase type 1 isotypes and nucleolin during cell cycle arrest

Cell Biochemistry and Function ◽

10.1002/cbf.1300 ◽

2007 ◽

Vol 25 (4) ◽

pp. 369-375 ◽

Cited By ~ 5

Author(s):

Hiroyuki Morimoto ◽

Akiko Ozaki ◽

Hirohiko Okamura ◽

Kaya Yoshida ◽

Bruna Rabelo Amorim ◽

...

Keyword(s):

Cell Cycle ◽

Cell Cycle Arrest ◽

Differential Expression ◽

Protein Phosphatase ◽

Cycle Arrest ◽

Protein Phosphatase Type 1 ◽

Protein Phosphatase Type

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The role of serine/threonine protein phosphatase type 5 (PP5) in the regulation of stress-induced signaling networks and cancer

Cancer and Metastasis Reviews ◽

10.1007/s10555-008-9125-z ◽

2008 ◽

Vol 27 (2) ◽

pp. 169-178 ◽

Cited By ~ 56

Author(s):

Teresa Golden ◽

Mark Swingle ◽

Richard E. Honkanen

Keyword(s):

Protein Phosphatase ◽

Signaling Networks ◽

Protein Phosphatase Type

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Diurnal expression of five protein phosphatase type 2C genes in the common ice plant, Mesembryanthemum crystallinum

Functional Plant Biology ◽

10.1071/fp06342 ◽

2007 ◽

Vol 34 (7) ◽

pp. 581 ◽

Cited By ~ 1

Author(s):

Ko Sato ◽

Hiroaki Ohsato ◽

Shunsuke Izumi ◽

Saori Miyazaki ◽

Hans J. Bohnert ◽

...

Keyword(s):

Salt Stress ◽

Protein Phosphatase ◽

Continuous Light ◽

Mesembryanthemum Crystallinum ◽

Diurnal Fluctuation ◽

Mrna Levels ◽

Ice Plant ◽

Carboxylase Activity ◽

The Common ◽

Protein Phosphatase Type

The common ice plant, Mesembryanthemum crystallinum L., is a eu-halophytic model species with an environmental stress-initiated switch from C3 photosynthesis to crassulacean acid metabolism (CAM). Phosphoenolpyruvate carboxylase activity in 6-week-old plants exposed to salt stress for 5 days was ~15-fold higher than before stress, indicating the salinity-dependent induction of the C3 to CAM transition. Five plant protein phosphatase type 2C (PP2C) genes were cloned, representative of five of the 10 plant PP2C sub-families. We measured mRNA levels of these PP2Cs and of myo-inositol 1-phosphate synthase (Inps1) in 6-week-old plants before (C3) and after (CAM) salt stress. Remarkably, four PP2C genes and Inps1 were expressed with a diurnal fluctuation in plants in C3 mode. After salt-induced CAM induction, the six genes were expressed with more prominent fluctuations than before stress, suggesting that these PP2C genes may be involved in the diurnal regulation of protein phosphorylation in CAM. Under continuous light treatment the expression of two PP2C genes continued to fluctuate, indicating that their expression is controlled by circadian rhythm.

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Dynamic Localization of Protein Phosphatase Type 1 in the Mitotic Cell Cycle of Saccharomyces cerevisiae

The Journal of Cell Biology ◽

10.1083/jcb.149.1.125 ◽

2000 ◽

Vol 149 (1) ◽

pp. 125-140 ◽

Cited By ~ 46

Author(s):

Andrew Bloecher ◽

Kelly Tatchell

Keyword(s):

Saccharomyces Cerevisiae ◽

Cell Cycle ◽

Protein Phosphatase ◽

Essential Gene ◽

Mitotic Cell ◽

Type I ◽

Mitotic Cell Cycle ◽

Dependent Manner ◽

Bud Neck ◽

Protein Phosphatase Type

Protein phosphatase type I (PP1), encoded by the single essential gene GLC7 in Saccharomyces cerevisiae, functions in diverse cellular processes. To identify in vivo subcellular location(s) where these processes take place, we used a functional green fluorescent protein (GFP)–Glc7p fusion protein. Time-lapse fluorescence microscopy revealed GFP–Glc7p localizes predominantly in the nucleus throughout the mitotic cell cycle, with the highest concentrations in the nucleolus. GFP–Glc7p was also observed in a ring at the bud neck, which was dependent upon functional septins. Supporting a role for Glc7p in bud site selection, a glc7-129 mutant displayed a random budding pattern. In α-factor treated cells, GFP–Glc7p was located at the base of mating projections, again in a septin-dependent manner. At the start of anaphase, GFP–Glc7p accumulated at the spindle pole bodies and remained there until cytokinesis. After anaphase, GFP–Glc7p became concentrated in a ring that colocalized with the actomyosin ring. A GFP–Glc7-129 fusion was defective in localizing to the bud neck and SPBs. Together, these results identify sites of Glc7p function and suggest Glc7p activity is regulated through dynamic changes in its location.

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