Ultrahigh field diffusion magnetic resonance imaging uncovers intriguing microstructural changes in the adult zebrafish brain caused by Toll‐like receptor 2 genomic deletion

Author:

Singer Rico1,Oganezova Ina1,Hu Wanbin2,Liu Li2,Ding Yi2,de Groot Huub J. M.1,Spaink Herman P.2,Alia A.13ORCID

Affiliation:

1. Leiden Institute of Chemistry Leiden University Leiden The Netherlands

2. Institute of Biology Leiden University Leiden The Netherlands

3. Institute of Medical Physics and Biophysics Leipzig University Leipzig Germany

Abstract

AbstractToll‐like receptor 2 (TLR2) belongs to the TLR protein family that plays an important role in the immune and inflammation response system. While TLR2 is predominantly expressed in immune cells, its expression has also been detected in the brain, specifically in microglia and astrocytes. Recent studies indicate that genomic deletion of TLR2 can result in impaired neurobehavioural function. It is currently not clear if the genomic deletion of TLR2 leads to any alterations in the microstructural features of the brain. In the current study, we noninvasively assess microstructural changes in the brain of TLR2‐deficient (tlr2−/−) zebrafish using state‐of‐the art magnetic resonance imaging (MRI) methods at ultrahigh magnetic field strength (17.6 T). A significant increase in cortical thickness and an overall trend towards increased brain volumes were observed in young tlr2−/− zebrafish. An elevated T2 relaxation time and significantly reduced apparent diffusion coefficient (ADC) unveil brain‐wide microstructural alterations, potentially indicative of cytotoxic oedema and astrogliosis in the tlr2−/− zebrafish. Multicomponent analysis of the ADC diffusivity signal by the phasor approach shows an increase in the slow ADC component associated with restricted diffusion. Diffusion tensor imaging and diffusion kurtosis imaging analysis revealed diminished diffusivity and enhanced kurtosis in various white matter tracks in tlr2−/− compared with control zebrafish, identifying the microstructural underpinnings associated with compromised white matter integrity and axonal degeneration. Taken together, our findings demonstrate that the genomic deletion of TLR2 results in severe alterations to the microstructural features of the zebrafish brain. This study also highlights the potential of ultrahigh field diffusion MRI techniques in discerning exceptionally fine microstructural details within the small zebrafish brain, offering potential for investigating microstructural changes in zebrafish models of various brain diseases.

Publisher

Wiley

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