Live Imaging of the Ependymal Cilia in the Lateral Ventricles of the Mouse Brain
Autor: | Alzahra J. Al Omran, Tongyu Liu, Surya M. Nauli, Wissam A. AbouAlaiwi, Hannah C. Saternos |
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Rok vydání: | 2015 |
Předmět: |
Fluorescence-lifetime imaging microscopy
Ependymal Cell General Immunology and Microbiology Cilium General Chemical Engineering General Neuroscience Anatomy Biology General Biochemistry Genetics and Molecular Biology Mice Inbred C57BL Mice Lateral ventricles Vibratome Cerebrospinal fluid Live cell imaging Ependyma Lateral Ventricles Motile cilium Animals Microscopy Interference Cilia Neuroscience |
Zdroj: | Journal of Visualized Experiments. |
ISSN: | 1940-087X |
DOI: | 10.3791/52853-v |
Popis: | Multiciliated ependymal cells line the ventricles in the adult brain. Abnormal function or structure of ependymal cilia is associated with various neurological deficits. The current ex vivo live imaging of motile ependymal cilia technique allows for a detailed study of ciliary dynamics following several steps. These steps include: mice euthanasia with carbon dioxide according to protocols of The University of Toledo's Institutional Animal Care and Use Committee (IACUC); craniectomy followed by brain removal and sagittal brain dissection with a vibratome or sharp blade to obtain very thin sections through the brain lateral ventricles, where the ependymal cilia can be visualized. Incubation of the brain's slices in a customized glass-bottom plate containing Dulbecco's Modified Eagle's Medium (DMEM)/High-Glucose at 37 °C in the presence of 95%/5% O2/CO2 mixture is essential to keep the tissue alive during the experiment. A video of the cilia beating is then recorded using a high-resolution differential interference contrast microscope. The video is then analyzed frame by frame to calculate the ciliary beating frequency. This allows distinct classification of the ependymal cells into three categories or types based on their ciliary beating frequency and angle. Furthermore, this technique allows the use of high-speed fluorescence imaging analysis to characterize the unique intracellular calcium oscillation properties of ependymal cells as well as the effect of pharmacological agents on the calcium oscillations and the ciliary beating frequency. In addition, this technique is suitable for immunofluorescence imaging for ciliary structure and ciliary protein localization studies. This is particularly important in disease diagnosis and phenotype studies. The main limitation of the technique is attributed to the decrease in live motile cilia movement as the brain tissue starts to die. |
Databáze: | OpenAIRE |
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