Phosphorylation of TIMAP by Glycogen Synthase Kinase-3β Activates Its Associated Protein Phosphatase 1

Li, Laiji; Kozlowski, Kathy; Wegner, Binytha; Rashid, Tahsin; Yeung, Titus; Holmes, Charles F.B.; Ballermann, Barbara J.

doi:10.1074/jbc.m703532200

Cited by 24 publications

(38 citation statements)

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“…TIMAP is a member of the MYPT family of PP1c-targeting subunits (33,48). The question therefore arises whether the effects of TIMAP silencing observed here can be attributed to reduced TIMAP/PP1c phosphatase activity.…”

Section: Discussionmentioning

confidence: 91%

“…Endogenous TIMAP was immunoprecipitated from glomerular EC as previously described (33). Briefly, EC monolayers were washed once with ice-cold PBS and immediately harvested in cold immunoprecipitation lysis buffer, described earlier (33). The soluble cell fraction was incubated with control chicken anti-IgY antibody or chicken anti-TIMAP antibody at 4°C for 2 h followed by incubation with goat anti-chicken IgG-coated beads (Aves) overnight at 4°C.…”

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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TIMAP promotes angiogenesis by suppressing PTEN-mediated Akt inhibition in human glomerular endothelial cells

Obeidat

Ballermann

2014

American Journal of Physiology-Renal Physiology

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Obeidat M, Li L, Ballermann BJ. TIMAP promotes angiogenesis by suppressing PTEN-mediated Akt inhibition in human glomerular endothelial cells. Am J Physiol Renal Physiol 307: F623-F633, 2014. First published July 9, 2014 doi:10.1152/ajprenal.00070.2014.-The function of TIMAP, an endothelial cell (EC)-predominant protein phosphatase 1-regulatory subunit, is poorly understood. We explored the potential role of TIMAP in the Akt-dependent regulation of glomerular EC proliferation, survival, and in vitro angiogenesis. To deplete TIMAP, the EC were transfected with TIMAP-specific or nonspecific small interfering (si) RNA. The rate of electrical impedance development across subconfluent EC monolayers, a measure of the time-dependent increase in EC number, was 93 Ϯ 2% lower in TIMAP-depleted than in control EC. This effect on cell proliferation was associated with reduced DNA synthesis and increased apoptosis: TIMAP silencing reduced 5-ethynyl-2=-deoxyuridine incorporation by 38 Ϯ 2% during the exponential phase of EC proliferation, and cleaved caspase 3 as well as caspase 3 activity increased in TIMAPdepleted relative to control cells. Furthermore, TIMAP depletion inhibited the formation of angiogenic sprouts by glomerular EC in three-dimensional culture. TIMAP depletion strongly diminished growth factor-stimulated Akt phosphorylation without altering ERK1/2 phosphorylation, suggesting a specific effect on the PI3K/ Akt/PTEN pathway. Endogenous TIMAP and PTEN colocalized in EC and coimmunoprecipitated from EC lysates. The inhibitory PTEN phosphorylation on S370 was significantly reduced in TIMAP-depleted compared with control EC, while phosphorylation of PTEN on the S380/T382/T383 cluster remained unchanged. Finally, the PTEN inhibitor bpV(phen) fully reversed the suppressive effect of TIMAP depletion on Akt phosphorylation. The data indicate that in growing EC, TIMAP is necessary for Akt-dependent EC proliferation, survival, and angiogenic sprout formation and that this effect of TIMAP is mediated by inhibition of the tumor suppressor PTEN. endothelial cells; PTEN; protein phosphatase 1-regulatory subunit; PPP1R16B; apoptosis; clectric cell-substrate impedance sensing MECHANISMS THAT REGULATE ANGIOGENESIS have received massive attention since Folkman (15) first advanced the theory that tumor growth depends on new blood vessel formation. Angiogenesis involves the sprouting and elongation of new blood vessels from preexisting vessels followed by stabilization and vessel specification (28). This process is crucial for normal blood vessel formation and patterning during embryonic development, for postembryonic blood vessel repair (5), and remodeling in response to hypoxia, in the female reproductive cycle, and for the establishment of the placental vasculature. Pathological retinal and tumor vascularization also depend on angiogenesis. While endothelial cells (EC) at the tip of the angiogenic sprout determine the direction and pattern of new blood vessel growth, elongation of the new vessel stalk requires EC proliferatio...

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Section: Discussionmentioning

confidence: 91%

Section: Methodsmentioning

confidence: 99%

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TIMAP promotes angiogenesis by suppressing PTEN-mediated Akt inhibition in human glomerular endothelial cells

Obeidat

Ballermann

2014

American Journal of Physiology-Renal Physiology

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“…Unlike nuclear targets, at least one membrane-associated target of TIMAP was already characterized (16,19). We studied membrane localization of TIMAP and showed an increased amount of membrane-associated TIMAP after S1P treatment.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, it was suggested that TIMAP, as a PP1 targeting subunit, regulates LAMR1 phosphorylation (16). Furthermore, TIMAP-associated PP1c regulation of filopodia formation was shown in glomerular endothelial (GEN) cells (19).…”

Section: Discussionmentioning

confidence: 99%

TIMAP is a positive regulator of pulmonary endothelial barrier function

Csortos¹,

Czikora²,

Bogatcheva

et al. 2008

American Journal of Physiology-Lung Cellular and Molecular Phys

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inhibited membrane-associated protein, TIMAP, is expressed at high levels in endothelial cells (EC). It is regarded as a member of the MYPT (myosin phosphatase target subunit) family of protein phosphatase 1 (PP1) regulatory subunits; however, its function in EC is not clear. In our pull-down experiments, recombinant TIMAP binds preferentially the ␤-isoform of the catalytic subunit of PP1 (PP1c␤) from pulmonary artery EC. As PP1c␤, but not PP1c␣, binds with MYPT1 into functional complex, these results suggest that TIMAP is a novel regulatory subunit of myosin phosphatase in EC. TIMAP depletion by small interfering RNA (siRNA) technique attenuates increases in transendothelial electrical resistance induced by EC barrier-protective agents (sphingosine-1-phosphate, ATP) and enhances the effect of barrier-compromising agents (thrombin, nocodazole) demonstrating a barrier-protective role of TIMAP in EC. Immunofluorescent staining revealed colocalization of TIMAP with membrane/cytoskeletal protein, moesin. Moreover, TIMAP coimmunoprecipitates with moesin suggesting the involvement of TIMAP/moesin interaction in TIMAPmediated EC barrier enhancement. Activation of cAMP/PKA cascade by forskolin, which has a barrier-protective effect against thrombininduced EC permeability, attenuates thrombin-induced phosphorylation of moesin at the cell periphery of control siRNA-treated EC. On the contrary, in TIMAP-depleted EC, forskolin failed to affect the level of moesin phosphorylation at the cell edges. These results suggest the involvement of TIMAP in PKA-mediated moesin dephosphorylation and the importance of this dephosphorylation in TIMAPmediated EC barrier protection. transendothelial electrical resistance; small interfering RNA; moesin interaction with protein phosphatase

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TIMAP, the versatile protein phosphatase 1 regulator in endothelial cells

Boratkó

Csortos

2017

IUBMB Life

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Transforming growth factor (TGF)-β inhibited membrane associated protein, TIMAP, is the member of the myosin phosphatase targeting protein (MYPT) family of protein phosphatase 1 (PP1) regulatory subunits. The N-terminal part of TIMAP has a typical MYPT family structure with a sequence element called MyPhone (myosin phosphatase N-terminal element), a putative bipartite nuclear localization signal, a PP1 catalytic subunit binding motif, and five ankyrin repeats. The C-terminal half of TIMAP is intrinsically disordered, but ends with a functional CAAX box for lipid modification which allows localization of TIMAP at the plasma membrane. TIMAP is prenylated by farnesyl transferase with the contribution of the anchoring protein, RACK1 in the cytoplasm. The controlling effect of TIMAP on PP1 is moderated by PKA/GSK3β and PKC mediated phosphorylation of TIMAP, the sites are located in the disordered region of the protein. TIMAP is abundant in endothelial cells. A growing body of evidence attained through characterization of newly identified protein partners calls attention to its critical role in normal and pathological activities of the endothelium via regulation of PP1. TIMAP binds the non-integrin laminin receptor 1 and the endothelin converting enzyme 1, which may connect TIMAP to angiogenesis, tumor invasion and metastasis. Barrier protecting role of TIMAP was shown for pulmonary artery endothelial cells. ERM (ezrin-radixin-moesin) proteins, as potential in vivo PP1-TIMAP substrates, are critical targets in the barrier maintenance. TIMAP affects phosphorylation level and subcellular localization of merlin and eukaryotic elongation factor-1A1. Merlin is a key component of signaling pathways regulating cell proliferation, membrane domain formation and cell-cell junction organization. Noncanonical functions of the elongation factor include a role in organization of cytoskeleton dynamics and in apoptosis. The interacting/binding partners identified so far demonstrate a rather complex role of TIMAP in key functions of the endothelium offering TIMAP as a plausible target in pathological issues. © 2017 IUBMB Life, 69(12):918-928, 2017.

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Phosphorylation of TIMAP by Glycogen Synthase Kinase-3β Activates Its Associated Protein Phosphatase 1

Cited by 24 publications

References 24 publications

TIMAP promotes angiogenesis by suppressing PTEN-mediated Akt inhibition in human glomerular endothelial cells

TIMAP promotes angiogenesis by suppressing PTEN-mediated Akt inhibition in human glomerular endothelial cells

TIMAP is a positive regulator of pulmonary endothelial barrier function

TIMAP, the versatile protein phosphatase 1 regulator in endothelial cells

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