Anastasiia Stratiievska scite author profile

Background: Whether phosphoinositide 4,5-bisphosphate (PI(4,5)P 2 ) activates or inhibits TRPV1 is controversial. Results: PI(4,5)P 2 in the intracellular leaflet activates TRPV1, whereas PI(4,5)P 2 in the extracellular leaflet inhibits TRPV1. Conclusion: Inhibition by PI(4,5)P 2 in the extracellular leaflet may explain previous findings that TRPV1 reconstituted into PI(4,5)P 2 -containing liposomes is inhibited. Significance: PI(4,5)P 2 in the physiologically relevant leaflet (the intracellular leaflet) of the membrane activates TRPV1.

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Reciprocal regulation among TRPV1 channels and phosphoinositide 3-kinase in response to nerve growth factor

Stratiievska

Nelson

Senning

et al. 2018

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Although it has been known for over a decade that the inflammatory mediator NGF sensitizes pain-receptor neurons through increased trafficking of TRPV1 channels to the plasma membrane, the mechanism by which this occurs remains mysterious. NGF activates phosphoinositide 3-kinase (PI3K), the enzyme that generates PI(3,4)P2 and PIP3, and PI3K activity is required for sensitization. One tantalizing hint came from the finding that the N-terminal region of TRPV1 interacts directly with PI3K. Using two-color total internal reflection fluorescence microscopy, we show that TRPV1 potentiates NGF-induced PI3K activity. A soluble TRPV1 fragment corresponding to the N-terminal Ankyrin repeats domain (ARD) was sufficient to produce this potentiation, indicating that allosteric regulation was involved. Further, other TRPV channels with conserved ARDs also potentiated NGF-induced PI3K activity. Our data demonstrate a novel reciprocal regulation of PI3K signaling by the ARD of TRPV channels.

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Evaluating stored platelet shape change using imaging flow cytometry

et al. 2022

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Cold temperature induces a TRPM8-independent calcium release from the endoplasmic reticulum in human platelets

Stratiievska

Filippova

Özpolat

et al. 2023

Preprint

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Platelets are sensitive to temperature changes and akin to sensory neurons, are activated by a decrease in temperature. However, the molecular mechanism of this temperature-sensing ability is unknown. Yet, platelet activation by temperature could contribute to numerous clinical sequelae, most importantly to reduced quality of ex vivo-stored platelets for transfusion. In this interdisciplinary study, we present evidence for the expression of the temperature-sensitive ion channel transient receptor potential cation channel subfamily member 8 (TRPM8) in human platelets and precursor cells. We found the TRPM8 mRNA and protein in MEG-01 cells and platelets. Inhibition of TRPM8 prevented temperature-induced platelet activation and shape change. However, chemical agonists of TRPM8 did not seem to have an acute effect on platelets. When exposing platelets to below-normal body temperature, we detected a cytosolic calcium increase which was independent of TRPM8 but was completely dependent on the calcium release from the endoplasmic reticulum. Because of the high interindividual variability of TRPM8 expression, a population-based approach should be the focus of future studies. Our study suggests that the cold response of platelets is complex and TRPM8 appears to play a role in early temperature-induced activation of platelets, while other mechanisms likely contribute to later stages of temperature-mediated platelet response.

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