Microglia drive diurnal variation in susceptibility to inflammatory blood-brain barrier breakdown
Jennifer H. Lawrence, … , Richard Daneman, Erik S. Musiek
Jennifer H. Lawrence, … , Richard Daneman, Erik S. Musiek
Published November 8, 2024
Citation Information: JCI Insight. 2024;9(21):e180081. https://doi.org/10.1172/jci.insight.180081.
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Research Article Inflammation Neuroscience

Microglia drive diurnal variation in susceptibility to inflammatory blood-brain barrier breakdown

Abstract

The blood-brain barrier (BBB) is critical for maintaining brain homeostasis but is susceptible to inflammatory dysfunction. While transporter-dependent efflux of some lipophilic substrates across the BBB shows circadian variation due to rhythmic transporter expression, basal transporter–independent permeability and leakage is nonrhythmic. Whether daily timing influences BBB permeability in response to inflammation is unknown. Here, we induced systemic inflammation through repeated LPS injections either in the morning (ZT1) or evening (ZT13) under standard lighting conditions; we then examined BBB permeability to a polar molecule that is not a transporter substrate, sodium fluorescein. We observed clear diurnal variation in inflammatory BBB permeability, with a striking increase in paracellular leak across the BBB specifically following evening LPS injection. Evening LPS led to persisting glia activation as well as inflammation in the brain that was not observed in the periphery. The exaggerated evening neuroinflammation and BBB disruption were suppressed by microglial depletion or through keeping mice in constant darkness. Our data show that diurnal rhythms in microglial inflammatory responses to LPS drive daily variability in BBB breakdown and reveal time of day as a key regulator of inflammatory BBB disruption.

Authors

Jennifer H. Lawrence, Asha Patel, Melvin W. King, Collin J. Nadarajah, Richard Daneman, Erik S. Musiek

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Figure 2

Evening LPS exposure disrupts endothelial cell morphology.

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Evening LPS exposure disrupts endothelial cell morphology. (A) Represent...
(A) Representative images of diameter, tight junction length (e, endothelial cell; l, lumen; t, tight junction), and luminal irregularity (arrows: black showing blebbing at luminal surface, red showing plasma/basement membrane disruption). (B) Quantification of diameter length across cortical capillaries; main effect of LPS was significant, but interaction was not, by 2-way ANOVA. (C) Quantification of average tight junction length per capillary; no effects were significant by 2-way ANOVA. (D) Quantification of luminal irregularity; main effect of TOD and interaction were significant by 2-way ANOVA and post hoc test. (E) Inclusion criteria for vesicles (arrow indicating invaginating vesicles) and quantification of percentage of capillaries that contain 1 or more vesicles. Interaction was significant by 2-way ANOVA and post hoc test. For all graphs, n = 3 mice per group, 28–32 capillaries per mouse. Average for each mouse is shown in large dots, while technical replicates shown as smaller dots in similar color per mouse. Scale bar: 1 μm.