Open Access
The human fatty acid-binding protein family: Evolutionary divergences and
L. Smathers,Dennis R. Petersen +1 more
TLDR
Fatty acid-binding proteins (FABP) as discussed by the authors are members of the intracellular lipid-binding protein (iLBP) family and are involved in reversibly binding intra-cell hydrophobic ligands and trafficking them throughout cellular compartments, including peroxisomes, mitochondria, endoplasmic reticulum and nucleus.Abstract:
Fatty acid-binding proteins (FABPs) are members of the intracellular lipid-binding protein (iLBP) family and are involved in reversibly binding intracellular hydrophobic ligands and trafficking them throughout cellular compartments, including the peroxisomes, mitochondria, endoplasmic reticulum and nucleus. FABPs are small, structurally conserved cytosolic proteins consisting of a water-filled, interior-binding pocket surrounded by ten anti-parallel beta sheets, forming a beta barrel. At the superior surface, two alpha-helices cap the pocket and are thought to regulate binding. FABPs have broad specificity, including the ability to bind long-chain (C16‐C20) fatty acids, eicosanoids, bile salts and peroxisome proliferators. FABPs demonstrate strong evolutionary conservation and are present in a spectrum of species including Drosophila melanogaster, Caenorhabditis elegans, mouse and human. The human genome consists of nine putatively functional protein-coding FABP genes. The most recently identified family member, FABP12, has been less studied.read more
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Triglyceride Metabolism in the Liver
TL;DR: The current understanding of fatty acid and triglyceride metabolism in the liver and its regulation in health and disease is described, identifying potential directions for future research.
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Molecular Targets of Cannabidiol in Neurological Disorders
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Fatty acid-binding proteins: role in metabolic diseases and potential as drug targets.
TL;DR: The central role of lipid chaperones — the fatty acid-binding proteins (FABPs) — in lipid-mediated biological processes and systemic metabolic homeostasis through the regulation of diverse lipid signals is discussed, and their therapeutic significance is highlighted.