Tag: neuron support cells

Glial cells in the peripheral nervous system (PNS) play vital supportive roles, encasing neurons to provide insulation, metabolic aid, and protection, distinct from their CNS counterparts. This diagram focuses on a unipolar peripheral ganglionic neuron, illustrating how satellite cells and Schwann cells interact with the cell body and axon, ensuring efficient signal transmission and repair in sensory and autonomic pathways. These cells highlight the PNS's regenerative capacity, contrasting with the CNS, and underscore their importance in maintaining neural integrity across nerves extending from the spinal cord and brain to peripheral tissues.

Glial cells, often overshadowed by neurons, are indispensable components of the central nervous system (CNS), outnumbering neurons and providing critical support for neural function, maintenance, and protection. This diagram illustrates the four main types of glial cells in the CNS—astrocytes, oligodendrocytes, microglia, and ependymal cells—depicted in their typical interactions with neurons, highlighting how they insulate axons, regulate the extracellular environment, defend against pathogens, and facilitate fluid movement. Understanding these cells reveals their dynamic roles beyond mere support, including active participation in synaptic signaling and response to injury, essential for overall brain health and spinal cord integrity.