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In situ hybridization for somatostatin mRNA in the adult rat: cingulate, insular, prepiriform, perirhinal, entorhinal, and retrosplenial cortical regions (1996)

Garrett, B. ; Finsen, B. ; Wree, A.

Springer

Anatomy and embryology 193 (1996), S. 387-395

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ISSN: 1432-0568

Keywords: Neuropeptides ; Limbic cortex ; Allocortex ; Mesocortex ; Parcellation ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The expression of somatostatin mRNA within the allocortex of the rat was examined by in situ hybridization with an alkaline phosphatase labeled probe. We sought to determine whether parcellation of the allocortex could be based upon the number and laminar location of the hybridized cells and to contrast the allocortical features with those of the isocortical areas. The cingulate region was characterized by intense, moderate, and faint cells, small to medium in size throughout the laminae. The retrosplenial region demonstrated a somewhat stratified appearance with an abundance of cells expressing somatostatin mRNA in the upper portion of the composite layer II–IV and also in the upper portion of layer VI. The insular region displayed more heterogeneity. The distribution of the cells hybridized for somatostatin mRNA formed distinctive configurations within the insular region (dorsal and ventral agranular insular areas) with no obvious generality. The perirhinal area resembled the ventral agranular insular area, and the cell distribution of the entorhinal and prepiriform areas displayed a common characteristic in that the primary axis of the perikarya of somatostatin mRNA expressing cells within the lower layers were oriented at almost every possible angle. The conclusion of the investigation is that in situ hybridization for somatostatin mRNA provides a means by which the areal boundaries within the allocortex may be drawn.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00186695

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Parcellation of cortical areas by in situ hybridization for somatostatin mRNA in the adult rat: frontal, parietal, occipital, and temporal regions (1994)

Garrett, B. ; Finsen, B. ; Wree, A.

Springer

Anatomy and embryology 190 (1994), S. 389-398

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ISSN: 1432-0568

Keywords: Neuropeptides ; Visual cortex ; Somatosensory cortex ; Auditory cortex ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The expression of somatostatin mRNA within the neocortex of the rat was examined by in situ hybridization with an alkaline phosphatase-labeled probe. We sought to determine whether parcellation of the neocortex could be based upon the number and laminar location of the hybridized cells. Our investigation demonstrated that the boundaries of the neocortical areas can be determined by the distribution pattern of neurons expressing somatostatin mRNA. Few hybridized cells were located within layer IV, and this sparsity of cells within their wide granular layer marked the primary sensory areas. The occipital region was stratified, with insensely labeled cells in layers II/III and VI and faintly labeled cells in layer V. The parietal region carried a similar stratification, but more space between intensely labeled cells in layers III and V and between layers V and VI gave the region a three-tiered appearance. The temporal region displayed intensely labeled cells dispersed throughout layers III and VI and many in layer V as well as those faintly labeled without any breaks between the laminae. The distribution of the cells hybridized for somatostatin mRNA formed two configurations within the frontal region. It was difficult to identify any lamination in the first area, whereas the second area demonstrated a stratification reminiscent of the parietal region, but with only two tiers. The conclusion of the investigation is that in situ hybridization for somatostatin mRNA provides an exceptional means by which the areal boundaries within the neocortex may be drawn.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00187297

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Repeated electroconvulsive shocks cause transient changes in rat hippocampal somatostatin and neuropeptide Y immunoreactivity and mRNA in situ hybridization signals (1994)

Kragh, J. ; Tønder, N. ; Finsen, B. R. ; [et al.]

Springer

Experimental brain research 98 (1994), S. 305-313

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ISSN: 1432-1106

Keywords: Electroshock ; Neuropeptides ; Immunocytochemistry ; In situ hybridization ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Increased levels of somatostatin (SS) and neuropeptide Y (NPY) have been demonstrated in the hippocampal formation after kindling. The increase might be specifically associated with kindling, or be an effect of repeated seizures per se. In order to separate these two components we studied the effects of repeated electroconvulsive shocks (ECS) on hippocampal SS-like and NPY-like immunoreactivity and SS mRNA and NPY mRNA in situ hybridization. ECS elicit seizures without having a demonstrable kindling effect. Rats were subjected to 10, 20, or 36 ECS (50 mA, 0.5 s), given as one shock per day, 5 days per week. One, 2 and 30 days after the last ECS, the rats were killed, together with sham-treated control rats, and processed for immunocytochemistry and non-radioactive in situ hybridization. There was a bilateral increase in SS-like and NPY-like immunoreactivity 1 and 2 days after the last ECS in the outer part of the dentate molecular layer. This is the terminal field of the hilar SS-containing and NPY-containing neurons, which displayed both increased immunoreactivity and hybridization signal of the cell bodies. There was also a bilateral de novo expression of NPY-like immunoreactivity in the mossy fiber system, but this was not accompanied by the appearance of a detectable NPY hybridization signal over the parent dentate granule cell bodies. The increase in SS-like immunoreactivity and hybridization signal was most pronounced in the rats that had received the largest number of ECS. This was not observed for the NPY-like immunoreactivity and hybridization signal, where the increase appeared similar after 10, 20 and 36 ECS. One month after the last ECS, both the SS-like and NPY-like immunoreactivity and the in situ hybridization signals had decreased towards normal levels. Since increased SS and NPY levels are also induced by repeated ECS, these changes are accordingly not specific to kindling-induced seizures. In a second experiment, the perforant path to the fascia dentata was transected 1 month prior to the ECS treatment. Removal of such major afferent input did not abolish the ECS-induced increase in hippocampal SS-like and NPY-like immunoreactivity, suggesting that the neuropeptide changes were not caused by afferent stimulation via the perfant path fibers, but rather may be an effect of direct electrical activation of the relevant cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228418

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