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Phagocytic microglia travel to the site of the injury, engulf the offending material, and secrete pro-inflammatory factors to promote more cells to proliferate and do the same. Activated phagocytic microglia also interact with astrocytes and neural cells to fight off any infection or inflammation as quickly as possible with minimal damage to ...
Microglia have been implicated in neuropathic pain. They become activated in response to nerve injury, as demonstrated by several animal models. [30] Activated microglia release substances that excite pain-sensitive neurons, including prostaglandins and reactive oxygen species, through the purinergic signaling mechanisms.
The exception is microglia, which are derived from hematopoietic stem cells. In the adult, microglia are largely a self-renewing population and are distinct from macrophages and monocytes, which infiltrate an injured and diseased CNS. In the central nervous system, glia develop from the ventricular zone of the neural tube.
Experiments depleting microglia demonstrated their necessity for the beneficial effects of exercise on the creation of new neurons in the hippocampus, a brain region vital for memory, learning and ...
Gliosis is a nonspecific reactive change of glial cells in response to damage to the central nervous system (CNS). In most cases, gliosis involves the proliferation or hypertrophy of several different types of glial cells, including astrocytes, microglia, and oligodendrocytes.
Microglia, while primarily known for their immunological functions, exhibit remarkable plasticity, enabling them to perform a diverse range of roles within the central nervous system. Traditionally, microglia have been characterized as existing in two distinct morphological states that correlate with changes in their functional properties: [45]
The cytokines produced by microglia, astrocytes, and other immune cells, activate glial cells further increasing the number of pro-inflammatory factors that further prevent neurological systems from recovering. The dual nature of microglia is one example of why neuroinflammation can be helpful or hurtful under specific conditions.
Microglia are the second most prominent cell type present within the glial scar. They are the nervous system analog of immune system macrophages.Microglia rapidly activate near the injury and secrete several cytokines, bioactive lipids, coagulation factors, reactive oxygen intermediates, and neurotrophic factors. [9]