Functional coupling between TRPV4 channel and TMEM16F modulates human trophoblast fusion.

Zhang, Yang; Liang, Pengfei; Yang, Liheng; Shan, Ke Zoe; Feng, Liping; Chen, Yong; Liedtke, Wolfgang; Coyne, Carolyn B; Yang, Huanghe

doi:10.7554/elife.78840

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Abstract

TMEM16F, a Ca²⁺-activated phospholipid scramblase (CaPLSase), is critical for placental trophoblast syncytialization, HIV infection, and SARS-CoV2-mediated syncytialization, however, how TMEM16F is activated during cell fusion is unclear. Here, using trophoblasts as a model for cell fusion, we demonstrate that Ca²⁺ influx through the Ca²⁺ permeable transient receptor potential vanilloid channel TRPV4 is critical for TMEM16F activation and plays a role in subsequent human trophoblast fusion. GSK1016790A, a TRPV4 specific agonist, robustly activates TMEM16F in trophoblasts. We also show that TRPV4 and TMEM16F are functionally coupled within Ca²⁺ microdomains in a human trophoblast cell line using patch-clamp electrophysiology. Pharmacological inhibition or gene silencing of TRPV4 hinders TMEM16F activation and subsequent trophoblast syncytialization. Our study uncovers the functional expression of TRPV4 and one of the physiological activation mechanisms of TMEM16F in human trophoblasts, thus providing us with novel strategies to regulate CaPLSase activity as a critical checkpoint of physiologically and disease-relevant cell fusion events.

Type

Journal article

Subject

Trophoblasts
Placenta
Humans
HIV Infections
Calcium
Phospholipid Transfer Proteins
RNA, Viral
Pregnancy
Female
TRPV Cation Channels
Anoctamins
COVID-19
SARS-CoV-2

Permalink

https://hdl.handle.net/10161/25516

Published Version (Please cite this version)

10.7554/elife.78840

Publication Info

Zhang, Yang; Liang, Pengfei; Yang, Liheng; Shan, Ke Zoe; Feng, Liping; Chen, Yong; ... Yang, Huanghe (2022). Functional coupling between TRPV4 channel and TMEM16F modulates human trophoblast fusion. eLife, 11. pp. e78840. 10.7554/elife.78840. Retrieved from https://hdl.handle.net/10161/25516.

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Scholars@Duke

Yong Chen

Associate Professor in Neurology

Dr. Yong Chen is an Associate Professor of Neurology at the Duke University School of Medicine. He is also affiliated with Duke Anesthesiology-Center for Translational Pain Medicine (CTPM) and Duke-Pathology. The Chen lab mainly studies sensory neurobiology of pain and itch, with a focus on TRP ion channels and neural circuits. The main objective of our lab is to identify molecular and cellular mechanisms underlying chronic pain and chronic-disease associated itch, using a combi

Carolyn Coyne

George Barth Geller Distinguished Professor of Immunology

We study the pathways by which microorganisms cross cellular barriers and the mechanisms by which these barriers restrict microbial infections. Our studies primarily focus on the epithelium that lines the gastrointestinal tract and on placental trophoblasts, the cells that comprise a key cellular barrier of the human placenta. Our work is highly multidisciplinary and encompasses aspects of cell biology, immunology, and microbiology. Our long-term goals are to identify pathogen- and host-spe

Liping Feng

Associate Professor of Obstetrics and Gynecology

Liping Feng, MD's research has focused on understanding the mechanisms of pregnancy complications associated with placental development. These works are translated then to the clinical care of women through studies dedicated to identify risk factors and novel biomarkers for early prediction and prevention of adverse birth outcomes. Dr. Feng devotes her entire career to improving pregnancy outcomes through innovative research. Dr. Feng conducts both basic science/laboratory research, a

Wolfgang Bernhard Liedtke

Adjunct Professor in the Department of Neurology

Research Interests in the Liedtke-Lab: Pain/ nociception Sensory transduction and -transmission TRP ion channels Water and salt equilibrium regulated by the central nervous system Visit the lab's website, download papers and read Dr. Liedtke's CV here.

Huanghe Yang

Associate Professor of Biochemistry

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