Mfge8 regulates enterocyte lipid storage by promoting enterocyte triglyceride hydrolase activity
Amin Khalifeh-Soltani, … , Michael J. Podolsky, Kamran Atabai
Amin Khalifeh-Soltani, … , Michael J. Podolsky, Kamran Atabai
Published November 3, 2016
Citation Information: JCI Insight. 2016;1(18):e87418. https://doi.org/10.1172/jci.insight.87418.
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Research Article Cell biology Metabolism

Mfge8 regulates enterocyte lipid storage by promoting enterocyte triglyceride hydrolase activity

Abstract

The small intestine has an underappreciated role as a lipid storage organ. Under conditions of high dietary fat intake, enterocytes can minimize the extent of postprandial lipemia by storing newly absorbed dietary fat in cytoplasmic lipid droplets. Lipid droplets can be subsequently mobilized for the production of chylomicrons. The mechanisms that regulate this process are poorly understood. We report here that the milk protein Mfge8 regulates hydrolysis of cytoplasmic lipid droplets in enterocytes after interacting with the αvβ3 and αvβ5 integrins. Mice deficient in Mfge8 or the αvβ3 and αvβ5 integrins accumulate excess cytoplasmic lipid droplets after a fat challenge. Mechanistically, interruption of the Mfge8-integrin axis leads to impaired enterocyte intracellular triglyceride hydrolase activity in vitro and in vivo. Furthermore, Mfge8 increases triglyceride hydrolase activity through a PI3 kinase/mTORC2–dependent signaling pathway. These data identify a key role for Mfge8 and the αvβ3 and αvβ5 integrins in regulating enterocyte lipid processing.

Authors

Amin Khalifeh-Soltani, Deepti Gupta, Arnold Ha, Jahangir Iqbal, Mahmood Hussain, Michael J. Podolsky, Kamran Atabai

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Figure 1

Accumulation of intracellular triglyceride (TG) in Mfge8–/– and αvβ3/αvβ5–/– mice after a dietary fat challenge.

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Accumulation of intracellular triglyceride (TG) in Mfge8–/– and αvβ3/αvβ...
(A) TG content in primary enterocytes isolated from the proximal jejunum 2 hours after olive oil gavage. n = 5. (B and C) Serum TG concentrations over time after olive oil gavage in the presence (B) or absence (C) of i.p. administration of the lipoprotein lipase inhibitor Triton WR-1339. n = 5. (D and E) Baseline fecal TGs (D) and fecal TGs 2 hours after olive oil gavage (E). n = 5–6. (F and G) Radiolabel signal in proximal jejunal segments (F) or in the serum (G) 2 hours after gavage with 14C-triolein. n = 4–5. (H) Oil Red O staining of proximal jejunal segments 2 hours after olive oil gavage. (I) Jejunal sections obtained 30 minutes after olive oil gavage were stained with anti–perilipin 3 antibody. Female mice were used in all panels. *P < 0.05, **P < 0.01, ***P < 0.001. Paired data were analyzed by Student’s t test and group data were analyzed by 1-way ANOVA followed by a post-hoc Bonferroni test for multiple comparisons and expressed as the mean ± SEM.