3.8 Review

Real-time observation of neutrophil extracellular trap formation in the inflamed mouse brain via two-photon intravital imaging

Journal

LABORATORY ANIMAL RESEARCH
Volume 38, Issue 1, Pages -

Publisher

SPRINGERNATURE
DOI: 10.1186/s42826-022-00126-3

Keywords

Two-photon microscopy; Intravital imaging; Brain; Neutrophil; Neutrophil extracellular trap

Funding

  1. National Research Foundation - Ministry of Science and ICT (MSIT) of the Government of Korea [2020R1A4A1019009, 2022R1A2B5B02002506]
  2. National Research Foundation of Korea [2022R1A2B5B02002506] Funding Source: Korea Institute of Science & Technology Information (KISTI), National Science & Technology Information Service (NTIS)

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Intravital imaging via two-photon microscopy is an effective tool for observing biological events in live animals. The technique allows for the visualization of cell-to-cell interactions in the brain and provides insights into the formation and function of neutrophil extracellular traps (NETs) in inflammation. This method is valuable for studying inflammation and the resolution process.
Intravital imaging via two-photon microscopy (TPM) is a useful tool for observing and delineating biological events at the cellular and molecular levels in live animals in a time-lapse manner. This imaging method provides spatiotemporal information with minimal phototoxicity while penetrating a considerable depth of intact organs in live animals. Although various organs can be visualized using intravital imaging, in the field of neuroscience, the brain is the main organ whose cell-to-cell interactions are imaged using this technique. Intravital imaging of brain disease in mouse models acts as an abundant source of novel findings for studying cerebral etiology. Neutrophil infiltration is a well-known hallmark of inflammation; in particular, the crucial impact of neutrophils on the inflamed brain has frequently been reported in literature. Neutrophil extracellular traps (NETs) have drawn attention as an intriguing feature over the last couple of decades, opening a new era of research on their underlying mechanisms and biological effects. However, the actual role of NETs in the body is still controversial and is in parallel with a poor understanding of NETs in vivo. Although several experimental methods have been used to determine NET generation in vitro, some research groups have applied intravital imaging to detect NET formation in the inflamed organs of live mice. In this review, we summarize the advantages of intravital imaging via TPM that can also be used to characterize NET formation, especially in inflamed brains triggered by systemic inflammation. To study the function and migratory pattern of neutrophils, which is critical in triggering the innate immune response in the brain, intravital imaging via TPM can provide new perspectives to understand inflammation and the resolution process.

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