Stephen D. Lee scite author profile

The mechanisms underlying sterol transport in mammalian cells are poorly understood. In particular, how cholesterol internalized from HDL is made available to the cell for storage or modification is unknown. Here, we describe three ER-resident proteins (Aster-A, -B, -C) that bind cholesterol and facilitate its removal from the plasma membrane. The crystal structure of the central domain of Aster-A broadly resembles the sterol-binding fold of mammalian StARD proteins, but sequence differences in the Aster pocket result in a distinct mode of ligand binding. The Aster N-terminal GRAM domain binds phosphatidylserine and mediates Aster recruitment to plasma membrane-ER contact sites in response to cholesterol accumulation in the plasma membrane. Mice lacking Aster-B are deficient in adrenal cholesterol ester storage and steroidogenesis because of an inability to transport cholesterol from SR-BI to the ER. These findings identify a nonvesicular pathway for plasma membrane to ER sterol trafficking in mammals.

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Impact of lipoproteins on the biological activity and disposition of hydrophobic drugs: implications for drug discovery

Wasan

Brocks

Lee

et al. 2008

Nat Rev Drug Discov

225

171

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In contrast to many traditional pharmaceutical agents that exhibit a high degree of aqueous solubility, new drug candidates are frequently highly lipophilic compounds. The aqueous environment of the blood provides a thermodynamically unfavourable environment for the disposition of such hydrophobic drugs. However, this limitation can be overcome by association with circulating lipoproteins. Elucidation of the mechanisms that dictate drug-lipoprotein association and blood-to-tissue partitioning of lipoprotein encapsulated drugs might yield valuable insight into the factors governing the pharmacological activity and potential toxicity of these compounds. This Review discusses the impact of hydrophobic drug-lipoprotein interactions on pharmacokinetics, drug metabolism, tissue distribution and biological activity of various hydrophobic compounds, and outlines how best to use this information in drug discovery and development programmes.

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Liver X receptors at the intersection of lipid metabolism and atherogenesis

2015

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Single cell analysis reveals immune cell–adipocyte crosstalk regulating the transcription of thermogenic adipocytes

et al. 2019

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Immune cells are vital constituents of the adipose microenvironment that influence both local and systemic lipid metabolism. Mice lacking IL10 have enhanced thermogenesis, but the roles of specific cell types in the metabolic response to IL10 remain to be defined. We demonstrate here that selective loss of IL10 receptor α in adipocytes recapitulates the beneficial effects of global IL10 deletion, and that local crosstalk between IL10-producing immune cells and adipocytes is a determinant of thermogenesis and systemic energy balance. Single Nuclei Adipocyte RNA-sequencing (SNAP-seq) of subcutaneous adipose tissue defined a metabolically-active mature adipocyte subtype characterized by robust expression of genes involved in thermogenesis whose transcriptome was selectively responsive to IL10Rα deletion. Furthermore, single-cell transcriptomic analysis of adipose stromal populations identified lymphocytes as a key source of IL10 production in response to thermogenic stimuli. These findings implicate adaptive immune cell-adipocyte communication in the maintenance of adipose subtype identity and function.

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Stephen D. Lee

Aster Proteins Facilitate Nonvesicular Plasma Membrane to ER Cholesterol Transport in Mammalian Cells

Impact of lipoproteins on the biological activity and disposition of hydrophobic drugs: implications for drug discovery

Liver X receptors at the intersection of lipid metabolism and atherogenesis

Single cell analysis reveals immune cell–adipocyte crosstalk regulating the transcription of thermogenic adipocytes

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