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Nerve cell trauma response
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Nerve cell trauma response
Nerve cell trauma response. Fluorescent light micrograph of a section through a spinal cord affected by multiple sclerosis (MS). Reactive astrocytes and glial progenitor cells are producing the proteins GFAP (glial fibrillary acidic protein, green) and NG2 (red) respectively, in an attempt to repair the damaged nerve cells. Cell nuclei are dyed blue. MS is an autoimmune condition, in which the immune system attacks nerve cells, impairing their ability to relay signals efficiently
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Media ID 6273761
© RICCARDO CASSIANI-INGONI/SCIENCE PHOTO LIBRARY
Activated Activating Astrocyte Astrocytes Auto Immune Cell Biology Central Nervous System Chronic Confocal Cytology Damage Damaged Dapi Fluorescent Light Micrograph Gfap Glial Cell Glial Fibrillary Acidic Healing Histological Histology Immunology Injured Multiple Sclerosis Nerve Cell Nerve Cells Neuron Neurone Neurones Neurons Nuclei Nucleus Reacting Reaction Reactive Recovery Repair Repairing Responding Spinal Cord Trauma Abnormal Cells Condition Disorder Light Micrograph Light Microscope Neurological Neurology Protein Unhealthy
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This print showcases the intricate response of nerve cells to trauma. The fluorescent light micrograph captures a section through a spinal cord affected by multiple sclerosis (MS), a chronic autoimmune condition that impairs the ability of nerve cells to efficiently relay signals. In this image, we witness the remarkable healing process taking place within the damaged nerve cells. Reactive astrocytes and glial progenitor cells are seen producing specific proteins, GFAP (glial fibrillary acidic protein) in green and NG2 in red respectively, as they attempt to repair and restore functionality to these injured neurons. The blue-dyed cell nuclei serve as a reminder of the biological complexity underlying this neurologic disorder. It is fascinating how our own immune system can inadvertently turn against us, attacking vital nerve cells and disrupting their normal functioning. This visual representation not only highlights the abnormality caused by MS but also emphasizes the resilience of our body's healing mechanisms. The activated astrocytes and glial progenitor cells demonstrate their crucial role in responding to such trauma, showcasing their potential for recovery and regeneration. Through this powerful image captured under a light microscope, we gain insight into both the damage caused by MS and the ongoing efforts within our bodies to repair it. It serves as a testament to medical advancements in understanding neurological disorders like MS while reminding us of the complexities still awaiting discovery within our central nervous system.
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