Background and aims: The small intestine plays a central role in lipid metabolism, most notably the uptake of dietary fats that are packaged into chylomicrons and secreted into the circulation for utilisation by peripheral tissues. While microsomal triglyceride transfer protein (MTP) is known to play a key role in this pathway, the intracellular assembly, trafficking, and secretion of chylomicrons is incompletely understood.
Methods and results: Using human transcriptome datasets to find genes co-regulated with MTTP, we identified ERICH4 as a top hit. The gene encodes for glutamate-rich protein 4, a protein of unknown function. REACTOME gene-function prediction tools indicated that ERICH4 is involved in intestinal lipid metabolism. In addition, GWAS data point to a strong relationship between ERICH4 and plasma lipids. To validate ERICH4 as a lipid gene, we generated whole-body Erich4 knockout (Erich4-/-) mice. ERICH4 deficiency, however, did not result in changes in body weight and composition, food intake, circulating plasma lipids, energy absorption and excretion, and tissue weights compared to controls. Additionally, there were no morphological abnormalities seen in the small intestine. Challenging mice with a high-fat diet did not give rise to a phenotype either.
Conclusions: Despite prediction tools indicating ERICH4 as a strong candidate gene in intestinal lipid metabolism, we here show that ERICH4 does not play a role in intestinal lipid metabolism in mice. It remains to be established whether ERICH4 plays a role in human lipid metabolism.
Keywords: APOB; Chylomicrons; Co-expression analysis; MTTP.
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