. The striatum includes the
caudate nucleus and the
lentiform nucleus which includes the
putamen and the
globus pallidus |The striatum in red as seen on
MRI. The striatum includes the
caudate nucleus (
top), and the
lentiform nucleus (the
putamen (
right) and the
globus pallidus (
lower left)) The striatum is the largest structure of the
basal ganglia. The striatum is divided into two subdivisions, a ventral striatum and a dorsal striatum, based upon function and connections. It is also divisible into a matrix and embedded striosomes.
Ventral striatum The ventral striatum is composed of the
nucleus accumbens and the
olfactory tubercle. The nucleus accumbens is made up of the
nucleus accumbens core and the
nucleus accumbens shell, which differ by neural populations. The olfactory tubercle receives input from the
olfactory bulb but has not been shown to play a role in
processing smell. The ventral striatum is associated with the
limbic system and has been implicated as a vital part of the
circuitry for decision making and reward-related behavior.
Dorsal striatum The dorsal striatum is composed of the
caudate nucleus and the
putamen. Primarily it mediates cognition and involves motor and executive function. The dorsal striatum can be further subdivided into the
dorsomedial striatum, and the
dorsolateral striatum. Both of these areas have different roles in the acquisition of learnt behaviour and skill formation. The dorsomedial region receives projections from the frontal and the parietal cortices. The dorsolateral region receives projections from the sensorimotor cortex.
Matrix and striosomes Neurochemistry studies have used
staining techniques on the striatum that have identified two distinct striatal compartments, the matrix, and the
striosome (or patch). The matrix is seen to be rich in
acetylcholinesterase, while the embedded striosomes are acetylcholinesterase-poor. Clusters of neurons in the matrix, called matrisomes receive a similar input. Their output goes to both regions of the globus pallidus and to the substantia nigra pars reticulata.
Cell types s on
medium spiny neuron of striatum Types of cells in the striatum include: •
Medium spiny neurons (MSNs), which are the principal neurons of the striatum. •
Cholinergic interneurons release acetylcholine, which has a variety of important effects in the striatum. In humans, other primates, and rodents, these interneurons respond to salient environmental stimuli with stereotyped responses that are temporally aligned with the responses of dopaminergic neurons of the
substantia nigra. The large aspiny cholinergic interneurons themselves are affected by dopamine through
D5 dopamine receptors. Dopamine also directly controls communication between cholinergic interneurons. • There are many types of GABAergic interneurons. Also, there are GABAergic interneurons that express
tyrosine hydroxylase,
somatostatin,
nitric oxide synthase and
neuropeptide-y. Recently, two types of neuropeptide-y expressing GABAergic interneurons have been described in detail, one of which translates synchronous activity of cholinergic interneurons into inhibition of principal neurons. These
neurons of the striatum are not distributed evenly. There are two regions of
neurogenesis in the brain – the
subventricular zone (SVZ) in the
lateral ventricles, and the
dentate gyrus in the
hippocampal formation.
Neuroblasts that form in the lateral ventricle adjacent to the striatum, integrate in the striatum. This has been noted in the human striatum following an
ischemic stroke. Injury caused to the striatum stimulates the migration of neuroblasts from the SVZ, to the striatum, where they differentiate into adult neurons. The normal passage of SVZ neuroblasts is to the
olfactory bulb but this traffic is diverted to the striatum after an ischemic stroke. However, few of the new developed neurons survive.
Inputs pathways, refer to inhibitory
GABAergic pathways and refer to
dopaminergic pathways that are excitatory on the
direct pathway and inhibitory on the
indirect pathway. The largest connection is from the
cortex, in terms of cell axons. Many parts of the
neocortex innervate the dorsal striatum. The cortical
pyramidal neurons projecting to the striatum are located in layers II-VI, with the most dense projections come from layer V. They end mainly on the
dendritic spines of the spiny neurons. They are
glutamatergic, exciting striatal neurons. The striatum is seen as having its own internal microcircuitry. The ventral striatum receives direct input from multiple regions in the
cerebral cortex and limbic structures such as the
amygdala,
thalamus, and
hippocampus, as well as the
entorhinal cortex and the
inferior temporal gyrus. Its primary input is to the
basal ganglia system. Additionally, the
mesolimbic pathway projects from the
ventral tegmental area to the
nucleus accumbens of the ventral striatum. Another well-known afferent is the
nigrostriatal connection arising from the neurons of the
substantia nigra pars compacta. While cortical axons synapse mainly on spine heads of spiny neurons, nigral axons synapse mainly on spine shafts. In primates, the thalamostriatal afferent comes from the central median-parafascicular complex of the
thalamus (see
primate basal ganglia system). This afferent is glutamatergic. The participation of truly intralaminar neurons is much more limited. The striatum also receives afferents from other elements of the basal ganglia such as the
subthalamic nucleus (glutamatergic) or the
external globus pallidus (
GABAergic).
Targets The primary outputs of the ventral striatum project to the
ventral pallidum, then the
medial dorsal nucleus of the
thalamus, which is part of the
frontostriatal circuit. Additionally, the ventral striatum projects to the
globus pallidus, and substantia nigra pars reticulata. Some of its other outputs include projections to the
extended amygdala,
lateral hypothalamus, and
pedunculopontine nucleus. Striatal outputs from both the dorsal and ventral components are primarily composed of
medium spiny neurons (MSNs), a type of
projection neuron, which have two primary
phenotypes: "indirect" MSNs that express
D2-like receptors and "direct" MSNs that express
D1-like receptors. The main nucleus of the basal ganglia is the striatum which projects directly to the globus pallidus via a pathway of
striatopallidal fibers. The striato-pallidal pathway has a whitish appearance due to the myelinated fibers. This projection comprises successively the external globus pallidus (
GPe), the internal globus pallidus (
GPi), the
pars compacta of the
substantia nigra (
SNc), and the
pars reticulata of substantia nigra (
SNr). The neurons of this projection are inhibited by GABAergic synapses from the dorsal striatum. Among these targets, the GPe does not send axons outside the system. Others send axons to the
superior colliculus. Two others comprise the output to the thalamus, forming two separate channels: one through the internal segment of the globus pallidus to the ventral oralis nuclei of the thalamus and from there to the cortical
supplementary motor area and another through the substantia nigra to the ventral anterior nuclei of the thalamus and from there to the
frontal cortex and the occulomotor cortex.
Blood supply Deep penetrating
striate arteries supply blood to the striatum. These arteries include the
recurrent artery of Heubner arising from the
anterior cerebral artery, and the
lenticulostriate arteries arising from the
middle cerebral artery. ==Function==