Emily S Pickering scite author profile

Emily S Pickering

2Publications

14Citation Statements Received

169Citation Statements Given

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164

Affiliations

Western Caspian University, William & Mary, Williams (United States)

Publications

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Pseudophosphatase MK-STYX Alters Histone Deacetylase 6 Cytoplasmic Localization, Decreases Its Phosphorylation, and Increases Detyrosination of Tubulin

Cao

Banks

Mattei

et al. 2019

IJMS

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The catalytically inactive mitogen-activated protein (MAP) kinase phosphatase, MK-STYX (MAPK (mitogen-activated protein kinase) phosphoserine/threonine/tyrosine-binding protein) interacts with the stress granule nucleator G3BP-1 (Ras-GAP (GTPase-activating protein) SH3 (Src homology 3) domain-binding protein-1), and decreases stress granule (stalled mRNA) formation. Histone deacetylase isoform 6 (HDAC6) also binds G3BP-1 and serves as a major component of stress granules. The discovery that MK-STYX and HDAC6 both interact with G3BP-1 led us to investigate the effects of MK-STYX on HDAC6 dynamics. In control HEK/293 cells, HDAC6 was cytosolic, as expected, and formed aggregates under conditions of stress. In contrast, in cells overexpressing MK-STYX, HDAC6 was both nuclear and cytosolic and the number of stress-induced aggregates significantly decreased. Immunoblots showed that MK-STYX decreases HDAC6 serine phosphorylation, protein tyrosine phosphorylation, and lysine acetylation. HDAC6 is known to regulate microtubule dynamics to form aggregates. MK-STYX did not affect the organization of microtubules, but did affect their post-translational modification. Tubulin acetylation was increased in the presence of MK-STYX. In addition, the detyrosination of tubulin was significantly increased in the presence of MK-STYX. These findings show that MK-STYX decreases the number of HDAC6-containing aggregates and alters their localization, sustains microtubule acetylation, and increases detyrosination of microtubules, implicating MK-STYX as a signaling molecule in HDAC6 activity.

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Cell-free DNA

Pickering

2020

UWOMJ

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Chromosomal disorders arise from errors in cell division and many are detected during prenatal development. Prenatal genomic screening techniques involve invasive methods such as chorionic villus sampling and amniocentesis. In this feature, current invasive techniques for genetic screening will be examined in relation to the development of non-invasive prenatal technology. As cell-free fetal DNA methods continue to develop and be integrated into clinical practice, there is an opportunity for improvement in the detection and reliability of the screening process. In clinic, there are disparities between clinicians and patients surrounding both understanding of the processes and the discussion on the technique limitations. Non-invasive methods are continually being improved for detecting genetic disorders through the use of cell-free fetal DNA, and with these advancements, these processes will become safe, cost-effective, and reliable for pregnant mothers when undergoing genetic screening and counselling.

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