Synthesis and characterization of diazirine alkyne probes for the study of intracellular cholesterol trafficking

Mckenna Feltes,Samantha Moores,Sarah E Gale,Kathiresan Krishnan,Laurel Mydock-Mcgrane,Douglas F Covey,Daniel S Ory,Jean E Schaffer

doi:10.1194/jlr.d091470

Mckenna Feltes, Samantha Moores + Show 6 more

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https://doi.org/10.1194/jlr.d091470

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Abstract

Cholesterol is an essential structural component of cellular membranes and precursor molecule for oxysterol, bile acid, and hormone synthesis. The study of intracellular cholesterol trafficking pathways has been limited in part due to a lack of suitable cholesterol analogues. Herein, we developed three novel diazirine alkyne cholesterol probes: LKM38, KK174, and KK175. We evaluated these probes as well as a previously described diazirine alkyne cholesterol analogue, trans-sterol, for their fidelity as cholesterol mimics and for study of cholesterol trafficking. LKM38 emerged as a promising cholesterol mimic because it both sustained the growth of cholesterol-auxotrophic cells and appropriately regulated key cholesterol homeostatic pathways. When presented as an ester in lipoprotein particles, LKM38 initially localized to the lysosome and subsequently trafficked to the plasma membrane and endoplasmic reticulum. LKM38 bound to diverse, established cholesterol binding proteins. Through a detailed characterization of the cellular behavior of a panel of diazirine alkyne probes using cell biological, biochemical trafficking assays and immunofluorescence approaches, we conclude that LKM38 can serve as a powerful tool for the study of cholesterol protein interactions and trafficking.

Highlights

Cholesterol is an essential structural component of cellular membranes and precursor molecule for oxysterol, bile acid, and hormone synthesis
In a stringent test of cholesterol mimicry, we examined the ability of diazirine alkyne probes to support the growth of cholesterol-auxotrophic cells (Fig. 2A)
Diazirine alkyne probes provide a new approach for the study of intracellular cholesterol distribution using a variety of techniques, including immunofluorescence microscopy, MS-based biochemical trafficking, and proteomics

Summary

Introduction

Cholesterol is an essential structural component of cellular membranes and precursor molecule for oxysterol, bile acid, and hormone synthesis. We developed three novel diazirine alkyne cholesterol probes: LKM38, KK174, and KK175. Through a detailed characterization of the cellular behavior of a panel of diazirine alkyne probes using cell biological, biochemical trafficking assays and immunofluorescence approaches, we conclude that LKM38 can serve as a powerful tool for the study of cholesterol protein interactions and trafficking.—Feltes, M., S. Synthesis and characterization of diazirine alkyne probes for the study of intracellular cholesterol trafficking. Cholesterol serves as a precursor molecule for oxysterol, bile acid, and hormone synthesis. The bulk distribution of endocytosed, LDL-derived cholesterol and cholesteryl esters depends on the lysosomal proteins Niemann-Pick C (NPC) 1 and 2, as well as lysosomal acid lipase (LAL).

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