Shantá D. Hinton scite author profile

Shantá D. Hinton

3Publications

221Citation Statements Received

266Citation Statements Given

How they've been cited

217

How they cite others

186

262

Affiliations

Williams (United States), William & Mary, Cold Spring Harbor Laboratory

Publications

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The role of pseudophosphatases as signaling regulators

Hinton

2019

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Pseudophosphatases are atypical members of the protein tyrosine phosphatase superfamily. Mutations within their catalytic signature motif render them catalytically inactive. Despite this lack of catalytic function, pseudophosphatases have been implicated in various diseases such as Charcot Marie-Tooth disorder, cancer, metabolic disorder, and obesity. Moreover, they have roles in various signaling networks such as spermatogenesis, apoptosis, stress response, tumorigenesis, and neurite differentiation. This review highlights the roles of pseudophosphatases as essential regulators in signaling cascades, providing insight into the function of these catalytically inactive enzymes.

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The pseudophosphatase MK-STYX interacts with G3BP and decreases stress granule formation

Hinton

Myers

Roggero

et al. 2010

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MK-STYX [MAPK (mitogen-activated protein kinase) phospho-serine/threonine/tyrosine-binding protein] is a pseudophosphatase member of the dual-specificity phosphatase subfamily of the PTPs (protein tyrosine phosphatases). MK-STYX is catalytically inactive due to the absence of two amino acids from the signature motif that are essential for phosphatase activity. The nucleophilic cysteine residue and the adjacent histidine residue, which are conserved in all active dual-specificity phosphatases, are replaced by serine and phenylalanine residues respectively in MK-STYX. Mutations to introduce histidine and cysteine residues into the active site of MK-STYX generated an active phosphatase. Using MS, we identified G3BP1 [Ras-GAP (GTPase-activating protein) SH3 (Src homology 3) domain-binding protein-1], a regulator of Ras signalling, as a binding partner of MK-STYX. We observed that G3BP1 bound to native MK-STYX; however, binding to the mutant catalytically active form of MK-STYX was dramatically reduced. G3BP1 is also an RNA-binding protein with endoribonuclease activity that is recruited to ‘stress granules’ after stress stimuli. Stress granules are large subcellular structures that serve as sites of mRNA sorting, in which untranslated mRNAs accumulate. We have shown that expression of MK-STYX inhibited stress granule formation induced either by aresenite or expression of G3BP itself; however, the catalytically active mutant MK-STYX was impaired in its ability to inhibit G3BP-induced stress granule assembly. These results reveal a novel facet of the function of a member of the PTP family, illustrating a role for MK-STYX in regulating the ability of G3BP1 to integrate changes in growth-factor stimulation and environmental stress with the regulation of protein synthesis.

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Pseudophosphatase MK‐STYX: the atypical member of the MAP kinase phosphatases

Hinton

2020

The FEBS Journal

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The regulation of the phosphorylation of mitogen-activated protein kinases (MAPKs) is essential for cellular processes such as proliferation, differentiation, survival, and death. Mutations within the MAPK signaling cascades are implicated in diseases such as cancer, neurodegenerative disorders, arthritis, obesity, and diabetes. MAPK phosphorylation is controlled by an intricate balance between MAPK kinases (enzymes that add phosphate groups) and MAPK phosphatases (MKPs) (enzymes that remove phosphate groups). MKPs are complex negative regulators of the MAPK pathway that control the amplitude and spatiotemporal regulation of MAPKs. MK-STYX (MAPK phosphoserine/threonine/tyrosine-binding protein) is a member of the MKP subfamily, which lacks the critical histidine and nucleophilic cysteine residues in the active site required for catalysis. MK-STYX does not influence the phosphorylation status of MAPK, but even so it adds to the complexity of signal transduction cascades as a signaling regulator. This review highlights the function of MK-STYX, providing insight into MK-STYX as a signal regulating molecule in the stress response, HDAC 6 dynamics, apoptosis, and neurite differentiation. Abbreviations CH2, cell division cycle 25 phosphatase homology 2; DUSP, dual-specificity phosphatase; FBXW7, F-box and WD repeat domain containing 7; HDAC6, histone deacetylase 6; MAPK, mitogen-activated protein kinase; MKP, MAPK phosphatase; MK-STYX, MAPK phosphoserine/ threonine/tyrosine-binding protein; MTM, myotubularin; PTP, protein tyrosine phosphatase; STYX, phosphoserine/threonine/tyrosineinteracting protein.

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Shantá D. Hinton

The role of pseudophosphatases as signaling regulators

The pseudophosphatase MK-STYX interacts with G3BP and decreases stress granule formation

Pseudophosphatase MK‐STYX: the atypical member of the MAP kinase phosphatases

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