Hdac3 regulates lymphovenous and lymphatic valve formation
Harish P. Janardhan, … , John F. Keaney Jr., Chinmay M. Trivedi
Harish P. Janardhan, … , John F. Keaney Jr., Chinmay M. Trivedi
Published October 16, 2017
Citation Information: J Clin Invest. 2017;127(11):4193-4206. https://doi.org/10.1172/JCI92852.
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Research Article Development Vascular biology

Hdac3 regulates lymphovenous and lymphatic valve formation

Abstract

Lymphedema, the most common lymphatic anomaly, involves defective lymphatic valve development; yet the epigenetic modifiers underlying lymphatic valve morphogenesis remain elusive. Here, we showed that during mouse development, the histone-modifying enzyme histone deacetylase 3 (Hdac3) regulates the formation of both lymphovenous valves, which maintain the separation of the blood and lymphatic vascular systems, and the lymphatic valves. Endothelium-specific ablation of Hdac3 in mice led to blood-filled lymphatic vessels, edema, defective lymphovenous valve morphogenesis, improper lymphatic drainage, defective lymphatic valve maturation, and complete lethality. Hdac3-deficient lymphovenous valves and lymphatic vessels exhibited reduced expression of the transcription factor Gata2 and its target genes. In response to oscillatory shear stress, the transcription factors Tal1, Gata2, and Ets1/2 physically interacted with and recruited Hdac3 to the evolutionarily conserved E-box–GATA–ETS composite element of a Gata2 intragenic enhancer. In turn, Hdac3 recruited histone acetyltransferase Ep300 to form an enhanceosome complex that promoted Gata2 expression. Together, these results identify Hdac3 as a key epigenetic modifier that maintains blood-lymph separation and integrates both extrinsic forces and intrinsic cues to regulate lymphatic valve development.

Authors

Harish P. Janardhan, Zachary J. Milstone, Masahiro Shin, Nathan D. Lawson, John F. Keaney Jr., Chinmay M. Trivedi

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Figure 1

Lymphatic endothelial Hdac3 regulates blood-lymphatic separation.

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Lymphatic endothelial Hdac3 regulates blood-lymphatic separation. (A) Di...
(A) Dissected E12.5 and E14.5 Hdac3TekKO embryos. Green arrow shows ectatic superficial vessels; black arrow shows pooling of blood in the jugular region; red arrow shows swelling. (B and C) Neonatal (P6) Hdac3Cdh5KO mice (B) and P0 Hdac3Lyve1KO mice (C) had abnormal blood-filled dermal vessels (green arrows) compared with controls. (DF) H&E and coimmunofluorescence staining for Lyve1 (lymphatic marker, red) and Emcn (venous marker, green) shows blood-filled (green arrows) dermal lymphatic vessels in E14.5 Hdac3TekKO murine embryos (D) and blood-filled dermal (E) and intestinal lymphatic vessels (F) in P6 Hdac3Cdh5KO neonates (E and F). White arrows show lymphatic vessels. (G) Dissected intestine of control and Hdac3Cdh5KO P6 neonates. White, red, and blue arrows indicate lymphatic, arterial, and venous vessels, respectively; black arrow shows a mesenteric lymph node; green arrows show blood-filled lymphatic vessels and a mesenteric lymph node in Hdac3Cdh5KO P6 neonates. (H and I) P8 Hdac3Cdh5KO (H) and P0 Hdac3Lyve1KO (I) hearts show ectatic and hemorrhagic superficial vessels (green arrows). H&E and coimmunofluorescence staining for Lyve1 (lymphatic marker, red) and Emcn (venous marker, green) shows blood-filled (green arrows) cardiac lymphatic vessels in P8 Hdac3Cdh5KO (H) and P0 Hdac3Lyve1KO (I) murine hearts. White arrows show lymphatic vessels. Scale bars: 100 μm. A, artery; LV, lymphatic vessel; MLN, mesenteric lymph node; V, vein. See also Supplemental Figures 1–4 and Supplemental Tables 1–5.