DLL4 promotes continuous adult intestinal lacteal regeneration and dietary fat transport
Jeremiah Bernier-Latmani, … , Sanjiv A. Luther, Tatiana V. Petrova
Jeremiah Bernier-Latmani, … , Sanjiv A. Luther, Tatiana V. Petrova
Published November 3, 2015
Citation Information: J Clin Invest. 2015;125(12):4572-4586. https://doi.org/10.1172/JCI82045.
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Research Article Vascular biology

DLL4 promotes continuous adult intestinal lacteal regeneration and dietary fat transport

Abstract

The small intestine is a dynamic and complex organ that is characterized by constant epithelium turnover and crosstalk among various cell types and the microbiota. Lymphatic capillaries of the small intestine, called lacteals, play key roles in dietary fat absorption and the gut immune response; however, little is known about the molecular regulation of lacteal function. Here, we performed a high-resolution analysis of the small intestinal stroma and determined that lacteals reside in a permanent regenerative, proliferative state that is distinct from embryonic lymphangiogenesis or quiescent lymphatic vessels observed in other tissues. We further demonstrated that this continuous regeneration process is mediated by Notch signaling and that the expression of the Notch ligand delta-like 4 (DLL4) in lacteals requires activation of VEGFR3 and VEGFR2. Moreover, genetic inactivation of Dll4 in lymphatic endothelial cells led to lacteal regression and impaired dietary fat uptake. We propose that such a slow lymphatic regeneration mode is necessary to match a unique need of intestinal lymphatic vessels for both continuous maintenance, due to the constant exposure to dietary fat and mechanical strain, and efficient uptake of fat and immune cells. Our work reveals how lymphatic vessel responses are shaped by tissue specialization and uncover a role for continuous DLL4 signaling in the function of adult lymphatic vasculature.

Authors

Jeremiah Bernier-Latmani, Christophe Cisarovsky, Cansaran Saygili Demir, Marine Bruand, Muriel Jaquet, Suzel Davanture, Simone Ragusa, Stefanie Siegert, Olivier Dormond, Rui Benedito, Freddy Radtke, Sanjiv A. Luther, Tatiana V. Petrova

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Figure 3

Lacteal regeneration in the adult small intestine.

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Lacteal regeneration in the adult small intestine. (A) Adult lacteals, b...
(A) Adult lacteals, but not dermal lymphatic capillaries (LYVE1, red), display filopodia. Filopodia/lymphatic capillary (mean ± SD) in adult intestine and ear skin; n = 3–4. S.I., small intestine. (B) A small proportion of lacteal LECs are Ki67+ (PROX1+Ki67+DAPI+, white nuclei, arrowhead), while submucosal LECs (PROX1+DAPI+, pink nuclei, arrow) are quiescent. Percentage (mean ± SD) of Ki67+ LECs in the submucosal and lacteal lymphatic vessels of the small intestine; n = 8. (C) Adult ear skin LECs are quiescent (PROX1+DAPI+, pink nuclei). Percentage (mean ± SD) of Ki67+ LECs in adult ear skin; n = 4. (D) Embryonic skin LECs are actively proliferating (PROX1+Ki67+, yellow nuclei, arrowheads). Quiescent LECs are Ki67 (PROX1+DAPI+, pink nuclei, arrows). Percentage (mean ± SD) of Ki67+ LECs in E16.5–E17.5 embryonic skin; n = 3. (E) Relative lacteal length is constant along the entire small intestine. Whole-mount immunostaining of lacteals (LYVE1, red) and intestinal blood capillaries (PECAM1, green) from different intestinal segments of adult C57BL/6 mice. (F) The number of lacteals per villus (mean ± SD; n = 4) decreases from the duodenum to the ileum. (G) Quantification of relative lacteal length in the indicated parts of small intestine. Lacteal length/blood capillary cage length (mean ± SD); n = 4. (H) Quantification of lacteal filopodia in different parts of intestine. Filopodia/lacteal (mean ± SD); n = 4. Scale bars: 20 μm, AD; 100 μm, E. *P < 0.05, 2-tailed unpaired Student’s t test with Welch’s correction. duo, duodenum; jej, jejunum.