In cellular neuroscience, Nissl bodies (also called Nissl granules, Nissl substance or tigroid substance) are discrete granular structures in that consist of rough endoplasmic reticulum, a collection of parallel, membrane-bound cisternae studded with ribosomes on the surface of the membranes.
Staining
"Nissl stains" refers to various basic dyes that selectively label negatively charged molecules such as
DNA and
RNA. Because ribosomes are rich in
ribosomal RNA, they are strongly
basophilic ("base-loving"). The dense accumulation of membrane-bound and free ribosomes in Nissl bodies results in their intense coloration by Nissl stains, allowing them to be seen with a light
microscope.
Size and distribution
Nissl bodies occur in the somata and
dendrites of neurons, though not in the
axon or
axon hillock.
They vary in size, shape, and intracellular location; they are most conspicuous in the
motor neurons of the
spinal cord and
brainstem, where they appear as large, blocky assemblies.
In other neurons, they may be smaller, and in some (such as the granule neurons of the
cerebellum cortex) very little rough endoplasmic reticulum is present.
The pattern of coloration with Nissl stains once was used to classify neurons.
For various reasons, this practice has largely ceased, but specific neuronal types do manifest characteristic types of Nissl bodies.
Functional role
The functions of Nissl bodies are thought to be the same as those of the rough endoplasmic reticulum in general, primarily the synthesis and segregation of proteins.
Similar to the ergastoplasm of
gland cells, Nissl bodies are the main site of protein synthesis in the neuronal
cytoplasm.
The
ultrastructure of Nissl bodies suggests they are primarily concerned with the synthesis of proteins for intracellular use.
Pathology
Nissl bodies show changes under various physiological conditions and in
pathological conditions such as
axonotmesis, during which they may dissolve and largely disappear (
chromatolysis). If the neuron is successful in repairing the damage, the Nissl bodies gradually reappear and return to their characteristic distribution within the cell.
External links
