Glial cells microglia

Moreover,bioactive lipids maybe considered dual messengers they modulate cell functions as messengers and they become part of the response of the nervous tissue to injury, broadly referred to as the inflammatory response. This response occurs in ischemia-reperfusion damage associated with stroke, various forms of neurotrauma, infectious diseases and neurodegenerative diseases such as Alzheimer s disease. Inflammation in the nervous system differs from that in other tissues. If the blood-brain barrier is broken, blood-borne inflammatory cells (e.g. polymorphonuclear leukocytes, monocytes, macrophages) invade the intercellular space and glial cells are activated, particularly microglia, which play a prominent role in the inflammatory response. These responses may... 

Neurons and glial cells make up the bulk of the human nervous system. Glial cells come in several guises astrocytes, oligodendrocytes, microglia, and others. Glial cells serve a number of important functions in the human nervous system. 

Figure 14.4 Different types of glial cells. Astrocytes connect capillaries and neurones. Fibrous astrocytes, with less branching and more filamentous processes, occur mainly in white matter while protoplasmic astrocytes are located principally in the grey matter. Oligodendrocytes form the myelin sheath by wrapping themselves around axons. The connection between the myelin sheath and the oligodendrocyte is permanent and provides material for the myelin sheath. Microgliocytes (microglia) are the phagocytes of the nervous system. The ciliated ependymal cells line the cavities of the central nervous system.

Like spinal cord trauma, traumatic head injury consists of a primary injury, attributable to the mechanical insult itself, and a secondary injury, attributable to the series of systemic and local neurochemical changes that occur in brain after the initial traumatic insult (Klussmann and Martin-Villalba, 2005). The primary injury causes a rapid deformation of brain tissues, leading to rupture of neural cell membranes, release of intracellular contents, and disruption of blood flow and breakdown of the blood-brain barrier. In contrast, secondary injury to the brain tissue includes many neurochemical alterations such as release of cytokines, glial cell reactions involving both activated microglia and astroglia, and demyelination... 

Activated macrophages and microglia are likely cellular sources of IL-1 in the central nervous system. IL-la and p, both 17-kDa proteins, are the products of two distinct genes and produce many of the same effects that TNF has on glial cells. IL-1 upregulates cytokine production, includes cell surface molecules, activates nitric oxide, and stimulates proliferation. When used alone, IL-1 and TNFa both stimulate nitric oxide production in C6 cells. However, in human fetal astrocyte cultures, IL-1 is a better nitric oxide inducer when used in combination with IFNy. 

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