A concerted mechanism involving ACAT and SREBPs by which oxysterols deplete accessible cholesterol to restrict microbial infection.
David B HeislerKristen A JohnsonDuo H MaMaikke B OhlsonLishu ZhangMichelle TranChase D CorleyMichael E AbramsJeffrey G McDonaldJohn W SchogginsNeal M AltoArun RadhakrishnanPublished in: eLife (2023)
Most of the cholesterol in the plasma membranes (PMs) of animal cells is sequestered through interactions with phospholipids and transmembrane domains of proteins. However, as cholesterol concentration rises above the PM's sequestration capacity, a new pool of cholesterol, called accessible cholesterol, emerges. The transport of accessible cholesterol between the PM and the endoplasmic reticulum (ER) is critical to maintain cholesterol homeostasis. This pathway has also been implicated in the suppression of both bacterial and viral pathogens by immunomodulatory oxysterols. Here, we describe a mechanism of depletion of accessible cholesterol from PMs by the oxysterol 25-hydroxycholesterol (25HC). We show that 25HC-mediated activation of acyl coenzyme A: cholesterol acyltransferase (ACAT) in the ER creates an imbalance in the equilibrium distribution of accessible cholesterol between the ER and PM. This imbalance triggers the rapid internalization of accessible cholesterol from the PM, which is sustained for long periods of time through 25HC-mediated suppression of SREBPs and continued activation of ACAT. In support of a physiological role for this mechanism, 25HC failed to suppress Zika virus and human coronavirus infection in ACAT-deficient cells, and Listeria monocytogenes infection in ACAT-deficient cells and mice. We propose that selective depletion of accessible PM cholesterol triggered by ACAT activation and sustained through SREBP suppression underpins the immunological activities of 25HC and a functionally related class of oxysterols.
Keyphrases
- low density lipoprotein
- zika virus
- endoplasmic reticulum
- particulate matter
- air pollution
- induced apoptosis
- sars cov
- endothelial cells
- type diabetes
- adipose tissue
- skeletal muscle
- cell death
- fatty acid
- polycyclic aromatic hydrocarbons
- molecular dynamics
- water soluble
- multidrug resistant
- coronavirus disease
- molecular dynamics simulations
- insulin resistance
- antimicrobial resistance