Piezo1 incorporates mechanical force signals into the genetic program that governs lymphatic valve development and maintenance
Dongwon Choi, … , Il-Taeg Cho, Young-Kwon Hong
Dongwon Choi, … , Il-Taeg Cho, Young-Kwon Hong
Published January 24, 2019
Citation Information: JCI Insight. 2019;4(5):e125068. https://doi.org/10.1172/jci.insight.125068.
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Research Article Vascular biology

Piezo1 incorporates mechanical force signals into the genetic program that governs lymphatic valve development and maintenance

Abstract

The lymphatic system plays crucial roles in tissue homeostasis, lipid absorption, and immune cell trafficking. Although lymphatic valves ensure unidirectional lymph flows, the flow itself controls lymphatic valve formation. Here, we demonstrate that a mechanically activated ion channel Piezo1 senses oscillating shear stress (OSS) and incorporates the signal into the genetic program controlling lymphatic valve development and maintenance. Time-controlled deletion of Piezo1 using a pan-endothelial Cre driver (Cdh5[PAC]-CreERT2) or lymphatic-specific Cre driver (Prox1-CreERT2) equally inhibited lymphatic valve formation in newborn mice. Furthermore, Piezo1 deletion in adult lymphatics caused substantial lymphatic valve degeneration. Piezo1 knockdown in cultured lymphatic endothelial cells (LECs) largely abrogated the OSS-induced upregulation of the lymphatic valve signature genes. Conversely, ectopic Piezo1 overexpression upregulated the lymphatic valve genes in the absence of OSS. Remarkably, activation of Piezo1 using chemical agonist Yoda1 not only accelerated lymphatic valve formation in animals, but also triggered upregulation of some lymphatic valve genes in cultured LECs without exposure to OSS. In summary, our studies together demonstrate that Piezo1 is the force sensor in the mechanotransduction pathway controlling lymphatic valve development and maintenance, and Piezo1 activation is a potentially novel therapeutic strategy for congenital and surgery-associated lymphedema.

Authors

Dongwon Choi, Eunkyung Park, Eunson Jung, Boksik Cha, Somin Lee, James Yu, Paul M. Kim, Sunju Lee, Yeo Jin Hong, Chester J. Koh, Chang-Won Cho, Yifan Wu, Noo Li Jeon, Alex K. Wong, Laura Shin, S. Ram Kumar, Ivan Bermejo-Moreno, R. Sathish Srinivasan, Il-Taeg Cho, Young-Kwon Hong

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Figure 3

Piezo1 is required for lymphatic valve maintenance.

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Piezo1 is required for lymphatic valve maintenance. (A) Experimental des...
(A) Experimental design. Tamoxifen (75 mg/kg) was i.p. injected into young adult mice every other day for a total of 3 times starting from day 21, and lymphatic valve maintenance was analyzed at day 49. Control mice, Prox1-tdTomato and Prox1-CreERT2; lymphatic Piezo1-KO mice (Piezo1ΔLEC), Prox1-tdTomato, Prox1-CreERT2, and Piezo1fl/fl. (BG) Overview and progressively enlarged images of collecting lymphatic vessels running next to the saphenous vein in the hind limb show (B, D, and F) healthy, mature valves in the control mice but (C, E, and G) degenerated valve remnants in lymphatic Piezo1-KO mice. (HK) Mesenteric lymphatic vessels and valves in the (H and J) control mice and (I and K) lymphatic Piezo1-KO mice. (L and M) Box-and-whisker plots showing (L) lymphatic valve number per vessel length and (M) valve number per vessel branch. The box plots depict the minimum and maximum values (whiskers), the upper and lower quartiles, and the median. The length of the box represents the interquartile range. Scale bars: 1 mm (BE, H, and I), 200 μm (F and G). **P < 0.01, unpaired, 2-tailed t test. A representative of > 10 images was chosen for each panel. More than 5 adult mice were used for each group. No sex variations were found. Arrows mark lymphatic valves.