Precise definition of PTEN C-terminal epitopes and its implications in clinical oncology

Mingo, Janire; Luna, Sandra; Gaafar, Ayman; Nunes‐Xavier, Caroline E.; Torices, Leire; Mosteiro, Lorena; Ruiz, R.; Guerra, I.; Llarena, Roberto; Angulo, Javier C.; López, José I.; Pulido, Rafael

doi:10.1038/s41698-019-0083-4

Cited by 16 publications

(23 citation statements)

References 83 publications

(63 reference statements)

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“…In the cytoplasm, PTEN exists as a monomer and can even form a homodimer in vitro (Heinrich et al, 2015). The disordered CTT is key to the regulation of the monomeric PTEN state in the cytosol through the phosphorylation of the serine-threonine cluster (Ser380, Thr382, Thr383, and Ser385) located in it (Bolduc et al, 2013;Masson et al, 2016;Masson and Williams, 2020;Mingo et al, 2019;Vazquez et al, 2000). Cytosolic PTEN monomers exhibit a Figure 1.…”

Section: Introductionmentioning

confidence: 99%

The mechanism of full activation of tumor suppressor PTEN at the phosphoinositide-enriched membrane

et al. 2021

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Section: Introductionmentioning

confidence: 99%

The mechanism of full activation of tumor suppressor PTEN at the phosphoinositide-enriched membrane

et al. 2021

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“…Previous PTEN studies showed that affinity to the membrane is reduced by the following: cancer-associated mutations (Masson and Williams, 2020) inhibit recruitment to the plasma membrane, thus abolishing its interactions with phospholipids (Nguyen et al, 2015); phosphorylation of the CTT serine-threonine cluster impairs PTEN membrane binding ability, resulting in a closed protein conformation (Bolduc et al, 2013;Malaney et al, 2013;Masson and Williams, 2020;Rahdar et al, 2009;Ross and Gericke, 2009); CTT deletion decreases protein stability leading to tumor development (Georgescu et al, 1999;Sun et al, 2014); and a mutation in the PBD (K13E) leads to PTEN inactivation (Masson and Williams, 2020;Nguyen et al, 2015;Walker et al, 2004). In the cytosol, monomeric PTEN is in the inactive state with its PBD bound to the phosphatase domain and the phosphorylated CTT interfering with the membrane binding interface (Bolduc et al, 2013;Chen et al, 2016;Malaney et al, 2013;Masson et al, 2016;Masson and Williams, 2020;Mingo et al, 2019;Rahdar et al, 2009;Ross and Gericke, 2009;Vazquez et al, 2000) (Figure 7), whereby the inactive, autoinhibited PTEN is in the "closedclosed" conformation.…”

Section: Discussionmentioning

confidence: 99%

The mechanism of full activation of tumor suppressor PTEN at the phosphoinositide-enriched membrane

Jang

Smith

Eng

et al. 2021

Preprint

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Tumor suppressor PTEN dephosphorylates signaling lipid PIP3 produced by PI3Ks. Abundant PIP3 promotes cell growth and proliferation. PTEN is the second most highly mutated protein in cancer and is drugless. The detailed mechanism at the membrane of this pivotal phosphatase is unknown hindering understanding and drug discovery. Here for the first time, exploiting explicit solvent simulations, we tracked full-length PTEN trafficking from the cytosol to the membrane, its interaction with membranes composed of zwitterionic phosphatidylcholine and anionic phosphatidylserine and phosphatidylinositol, including signaling lipids PIP2 and PIP3, and moving away from the zwitterionic and getting absorbed onto the anionic membrane that harbors the PIP3. PIP3 then allosterically unfolds the N-terminal PIP2 binding domain, translocating it to the membrane where its polybasic motif interacts with PIP2, localizing on microdomains enriched in signaling lipids, as PI3K does. Finally, we determined PTEN catalytic action at the membrane, all in line with available experimental observations.

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“…Cell nuclei were stained with Hoechst 33342 (ThermoFisher Scientific). For immunoblot, COS-7 cells were processed as described [ 26 ]. Briefly, cells were washed with PBS and lysed in ice-cold M-PER lysis buffer (ThermoFisher Scientific) supplemented with PhosSTOP phosphatase inhibitor and complete protease inhibitor cocktails (Roche).…”

Section: Methodsmentioning

confidence: 99%

MMADHC premature termination codons in the pathogenesis of cobalamin D disorder: Potential of translational readthrough reconstitution

Torices

Heras

Arango‐Lasprilla

et al. 2021

Molecular Genetics and Metabolism Reports

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Mutations in the MMADHC gene cause cobalamin D disorder (cblD), an autosomal recessive inborn disease with defects in intracellular cobalamin (cbl, vitamin B12) metabolism. CblD patients present methylmalonic aciduria (MMA), homocystinuria (HC), or combined MMA/HC, and usually suffer developmental delay and cognitive deficits. The most frequent MMADHC genetic alterations associated with disease generate MMADHC truncated proteins, in many cases due to mutations that create premature termination codons (PTC). In this study, we have performed a comprehensive and global characterization of MMADHC protein variants generated by all annotated MMADHC PTC mutations in cblD patients, and analyzed the potential of inducible translational PTC readthrough to reconstitute MMADHC biosynthesis. MMADHC protein truncation caused by disease-associated PTC differentially affected the alternative usage of translation initiation sites, protein abundance, and subcellular localization of MMADHC. Aminoglycoside compounds induced translational PTC readthrough of MMADHC truncated variants, allowing the biosynthesis of full-length MMADHC in a PTC-specific manner. Our results suggest that translational PTC readthrough-based interventions could complement current therapies for cblD patients carrying specific MMADHC PTC mutations.

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Precise definition of PTEN C-terminal epitopes and its implications in clinical oncology

Cited by 16 publications

References 83 publications

The mechanism of full activation of tumor suppressor PTEN at the phosphoinositide-enriched membrane

The mechanism of full activation of tumor suppressor PTEN at the phosphoinositide-enriched membrane

The mechanism of full activation of tumor suppressor PTEN at the phosphoinositide-enriched membrane

MMADHC premature termination codons in the pathogenesis of cobalamin D disorder: Potential of translational readthrough reconstitution

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