Age-related changes in the catecholaminergic neurons of the mesopontine tegmentum in the rat

Immunohistochemistry and computer assisted image analysis were used to examine the age-related changes in tyrosine hydroxylase- (TH-) immunoreactivity in substantia nigra (SN), ventral tegmental area (VTA), locus ceruleus (LC) and dopamine-betahyroxylase- (DBH-) immunoreactivity in LC and subceruleus nuclei of the rat. The findings in 3-month-old rats were compared with 28-month-old rats. In SN TH-positive neurons were concentrated in pars compacta and to a lesser extent - in pars lateralis. In VTA the TH-positive neurons were present over the entire area. In LC the immunoreactive perikarya were densely arranged and superimposed, but in subceruleus nuclei they were less numerous and individual cells were clearly discernible. The DBHimmunoreaction distinctly demonstrated the noradrenergic LC and subceruleus neurons. The results indicate of only subtle signs of cell loss in the dopaminergic neuronal population of SN and VTA, whilst the cell loss of the noradrenergic neurons in LC and subceruleus nuclei is evident. On the other hand, considerable age-related dendritic alterations were observed in all catecholaminergic nuclei. Cross-sectional area and optical density (OD) of the TH-immunoreactive neurons in SN, VTA and LC, and of the DBH-immunoreactive neurons in LC and subceruleus nuclei were investigated. In aging the cross-sectional area decreased statistically and OD of the neurons in SN decreased with 13%. In VTA the cross-sectional area did not change its dimensions, while the OD increased with 19%. In LC and subceruleus nuclei the cross-sectional area decreased with 36% and the OD of the neurons decreased with 16%. In conclusion, the most resistant to age-related changes catecholaminergic region in the rat is the VTA, followed by the pars compacta of SN. Rodent LC is a very vulnerable region.Biomedical Reviews 2007; 18: 45-58

Pedunculopontine tegmental nucleus. Part I: cytoarchitecture, transmitters, development and connections

The present review compiles data on the cytoarchitecture, transmitters, development, afferent and efferent connections of the pedunculopontine tegmental nucleus (PPN). PPN is a reticular formation nucleus, located in the pontomesencephalic tegmentum, closely associated with the ascending limb of the superior cerebellar peduncle. Its most typical cells are cholinergic and comprise the Ch5 neuronal group of Mesulam. It contains also glutamatergic neurons that may contain glutamate as a sole transmitter or as a co-transmitter of acetylcholine. The cholinergic neurons use also the gaseous transmitter nitric oxide, being the most prominent nitrergic neurons in the central nervous system (CNS). In aged animals, there is practically no cell loss but there are certain drastic changes in the somatodendritic morphology. PPN has an extremely rich afferent input. All basal ganglia send axons to PPN, the strongest connection being from the substantia nigra (SN), followed by pathways arising from the subthalamic nucleus (STN) and from both pallidal segments (PAL). PPN receives afferents also from the cerebral cortex, from areas of the limbic system and hypothalamus, from the cerebellum, from the brainstem - particularly serotoninergic axons from the raphe nuclei and noradrenergic axons from the locus ceruleus - as well as from the spinal cord. The efferent connections of PPN are extremely diverse, and some of them are carried out by axons that emit divergent collaterals to two different structures. The heaviest efferent pathway of PPN is destined to the thalamus, innervating virtually all thalamic nuclei, and especially the "nonspecific" intralaminar nuclei, that innervate broad ares of the cerebral cortex. All basal ganglia are innervated and in most cases the connection is bilateral. The most significant pathway innervates the dopaminergic neurons of SN, followed by a connection to STN and PAL. Other PPN efferent connections reach the cerebellum, the superior colliculus, nuclei of cranial nerves, the reticular formation, and the spinal cord. The reviewed connections of PPN suggest that it is involved significantly in the arousal systems, and is implicated in the disturbances of sleep and wakefulness. PPN is also involved in the motor functions of CNS, as well as in the movement disorders.Biomedical Reviews 2003; 14: 95-120

Neuromelanin-containing, catecholaminergic neurons in the human brain: ontogenetic aspects, development and aging

The present review compiles data on the development and aging ofneuromelanin (NM)-containing neurons in the central nervous system. Neuromelanin is brownish-to-black pigment that accumulates in the catecholaminergic (noradrenergic and dopaminergic) neurons and is a reliable natural marker that delineates the A1-A14 catecholaminergic groups of Dahlstrom and Fuxe in the human brain. The pigmentation of noradrenergic locus ceruleus neurons starts earlier than that of dopaminergic substantia nigra, but also a considerable individual variability is present. The pigmentation is well advanced in adolescence. The data at what age the maximal pigmentation is reached are controversial, as are the data on the cell loss in the NM-containing neuronal populations by normal aging. Thus, the participation ofNM in the pathogenesis of Parkinson`s disease remains enigmatic.Biomedical Reviews 2002; 13: 39-47

Amygdala and subcortical vision: recognition of threat and fear

The amygdala (Am) is a relatively voluminous gray substance, located in the depth of the ventromedial temporal lobe. The Am has diverse afferent and efferent connections throughout the neuraxis, and is involved in the modulation of neuroendocrine functions, visceral effector mechanisms, and in complex patterns of behavior: learning and memory, aggression and defense, pain modulation, reproduction, food intake, etc. A recently revealed important function of the Am is that it acts as the brain 'lighthouse' which constantly monitors the environment for stimuli which signal a threat to the organism. The data from patients with extensive lesions of the striate cortex indicate that unseen fearful and fear-conditioned faces elicit increased Am responses. Thus, also extrageniculostriate pathways are involved. A multisynaptic pathway from the retina to the Am via the superior colliculus and several thalamic nuclei was recently suggested. We here present data based on retrograde neuronal labeling that the parabigeminal nucleus emits a substantial bilateral projection to the Am. This small cholinergic nucleus (Ch8 group) in the midbrain tegmentum is a subcortical relay visual center that is reciprocally connected with the superior colliculus. We suggest the existence of a second extrageniculostriate multisynaptic connection to Am: retina - superior colliculus - parabigeminal nucleus - Am. This pathway might be very effective since all tracts listed above are bilateral. The function of the Am by the rapid response to the sources of threat before conscious detection is significantly altered by various neuropsychiatric diseases.Biomedical Reviews 2008; 19: 1-16

Influence between NO and CO in guinea pig stomach fundus

The interaction between carbon monoxide and nitric oxide and their role in modulation of stomach fundus excitability was studied. The presence and colocalization of heme oxygenase 1 (HO-1) and nitric oxide synthase (NOS) was verified in myentheric ganglia by immunohistochemistry. The role of inducible heme oxygenase isoenzyme was investigated after in vivo treatment of animals with CoCl2 (80 mg kg-1 b.w.) injected subcutaneously 24 hours before euthanasia. This treatment resulted in positive staining for the inducible isoform in stomach smooth muscle

Locality-dependent descending reflex motor activity in the anal canal–cholinergic and nitrergic contributions in the rat model

Photograph of a scene on Lake Hulah, at Wa-Sha-She State Park