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Newly identified gut cells nurture lymph capillaries

- Understanding the mechanisms that impair lymphatics growth and fat digestion in the small intestine -

You have just enjoyed a delicious summer BBQ. After approximately eight hours, food molecules reach your small intestine, where specialized lymph capillaries, called lacteals, absorb fat nutrients. Lacteals are different from other lymphatics, as they continue to regenerate during adulthood, with a slow, but steady pace. Their unique renewal capacity is still poorly understood.

A team of scientists led by KOH Gou Young at the Center for Vascular Research, within the Institute for Basic Science (IBS, South Korea) have identified new subsets of gut connective cells, which are crucial for lymphatic growth. Their new findings have been reported in the journal Nature Communications.

The walls of the small intestine are covered with fingerlike projections, called villi. Lining these villi, heterogeneous populations of epithelial, immune, vascular, connective and even neural cells co-exist and help the digestive process. Lacteals and blood capillaries run inside the villi and take in different food molecules. The gut environment needs to cope with water secretion and reabsorption (osmotic stress), as well as the repetitive muscular activity that moves food through the intestine. How all these complex mechanisms are harmonized is still a mystery.

Figure 1: Schematic image depicting intestinal villi – fingerlike projections that cover the intestinal wall and absorb nutrients in the small intestine.
▲ Figure 1: Schematic image depicting intestinal villi – fingerlike projections that cover the intestinal wall and absorb nutrients in the small intestine. During digestion, hydrophilic nutrients, such as glucose and amino acids, are absorbed by blood capillaries. On the other hand, hydrophobic nutrients, such as lipids, are taken in by specialized lymphatic capillaries called lacteals. The graphics also shows five types of connective cells (vFB1, vFB2, vFB3, FB4, and FB5), three of which were identified in this study, as well as smooth muscle cells (SMC), mural cells (MC), blood and lymph capillaries (lacteals).

The research team was able to place a new piece towards completing this mysterious puzzle. The researchers found that the regulatory proteins YAP/TAZ in villi’s connective cells, the intestinal stromal cells, play a role in the growth of nearby lacteals. In mice with an abnormal hyperactivation of YAP/TAZ, the team observed atypical sprouting of lacteals and impaired dietary fat uptake.

“The lacteals in these mice looked like tridents, which is very intriguing, since we did not manipulate the lacteals themselves, but the surrounding cells,” says HONG Seon Pyo, first co-author of this study.

Figure 2: YAP/TAZ hyperactivation in intestinal stromal cells induces lacteal sprouting and branching.
▲ Figure 2: YAP/TAZ hyperactivation in intestinal stromal cells induces lacteal sprouting and branching. Lacteals (in green) are shown in normal conditions (left) and with YAP/TAZ hyperactivation (right).

The researchers took a step further and discovered that intestinal stromal cells belong to several subtypes, with distinct gene expression and localizations within the villi. Among these subsets, three newly identified populations secrete VEGF-C – an essential molecule for lymphatic growth – upon YAP/TAZ activation. YANG Myung Jin, first co-author of this study, explains, “We were very surprised to see such heterogeneity in a cell population that was considered homogeneous.”

Lastly, researchers showed that mechanical force and osmotic stress regulate YAP/TAZ activity in stromal cells. In summary, mechanical stimulation activates YAP/TAZ in the intestinal stromal cells, which in turn release VEGF-C and can account for lacteal growth. CHO Hyunsoo, first co-author of this study notes, “This result implies a crucial link between the physiology of intestinal environment and biological interactions between cell types.”

“We are interested in investigating how each newly identified cell type works in healthy and diseased conditions,” adds Koh.

Figure 3: Mechanical stress induces YAP/TAZ activation in intestinal stromal cells.
▲ Figure 3: Mechanical stress induces YAP/TAZ activation in intestinal stromal cells. a, Representative images of YAP and TAZ (green) in unstretched and stretched intestinal stromal cells. b, Comparison of VEGF-C protein concentration in the culture medium of unstretched and stretched intestinal stromal cells. c, Secretion of VEGF-C and other factors upon mechanical stimuli induce YAP/TAZ activation.

Notes for editors

- References
Seon Pyo Hong, Myung Jin Yang, Hyunsoo Cho, Intae Park, Hosung Bae, Kibaek Choe, Sang Heon Suh, Ralf H. Adams, Kari Alitalo, Daesik Lim, Gou Young Koh. Distinct fibroblast subsets regulate lacteal integrity through YAP/TAZ-induced VEGF-C in intestinal villi. Nature Communications (2020). DOI: 10.1038/s41467-020-17886-y

- Media Contact
For further information or to request media assistance, please contact Dr. Seon Pyo Hong (Center for Vascular Research, Institute for Basic Science (IBS), sp_hong@ibs.re.kr), Myung Jin Yang (Biomedical Science and Engineering Interdisciplinary Program, Korea Advanced Institute of Science and Technology (KAIST), mjyang@kaist.ac.kr)

- About the Institute for Basic Science (IBS)
IBS was founded in 2011 by the government of the Republic of Korea with the sole purpose of driving forward the development of basic science in South Korea. IBS has 30 research centers as of January 2020. There are ten physics, two mathematics, six chemistry, six life science, one Earth science, and five interdisciplinary research centers.

IBS Communications Team
KIM Dahee Carol

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    Last Update 2023-11-28 14:20