Density Of Immunoreactive Cells Research Articles

Neuroinflammation in the Rat Brain After Exposure to Diagnostic Ultrasound

ObjectiveTo date there have been no studies exploring the potential for neuroinflammation as an intracranial bio-effect associated with diagnostic ultrasound during neonatal cranial scans in a mammalian in vivo model. The study described here was aimed at investigating the effects of B-mode and Doppler mode ultrasound on inflammation in the rat brain. MethodsTwelve Wistar rats (7–9 wk old) were divided into a control group and an ultrasound-exposed group (n = 6/group). A craniotomy was performed, followed by 10 min of B-mode and spectral Doppler interrogation of the middle cerebral artery. The control group was subjected to sham treatment, with the transducer held stationary over the craniotomy site, but the ultrasound machine switched off. Animals were euthanized 48 h after exposure, and the brains formalin fixed for immunohistochemical analysis using allograft inflammatory factor 1 (IBA-1) and glial fibrillary acidic protein (GFAP) as markers of microglia and astrocytes, respectively. The numbers of IBA-1- and GFAP-immunoreactive cells were manually counted and expressed as areal density (cells/mm2). Results were analyzed using Student's unpaired t-test and one-way repeated-measures analysis of variance. ResultsThe ultrasound-exposed brain exhibited significant increases in IBA-1 and GFAP immunoreactive cell density in all regions of B-mode and Doppler mode exposure compared with the control group (p < 0.001). ConclusionTen minutes of B-mode and Doppler mode ultrasound may induce neuroinflammatory changes in the rat brain. This suggests that exposure of brain tissue to current diagnostic ultrasound intensities may not be completely without risk.

Enteroendocrine, Musashi 1 and neurogenin 3 cells in the large intestine of Thai and Norwegian patients with irritable bowel syndrome

Objectives: The prevalence, gender distribution and clinical presentation of IBS differ between Asian and Western countries. This study aimed at studying and comparing enteroendocrine, Musashi 1 (Msi 1) and neurogenin 3 (neurog 3) cells in Thai and Norwegian IBS patients.Material and methods: Thirty Thai and 61 Norwegian IBS patients as well as 20 Thai and 24 Norwegian controls were included. Biopsy samples were taken from each of the sigmoid colon and the rectum during a standard colonoscopy. The samples were immunostained for serotonin, peptide YY, oxyntomodulin, pancreatic polypeptide, somatostatin, Msi 1 and neurog 3. The densities of immunoreactive cells were determined with computerized image analysis.Results: The densities of several enteroendocrine cell types were altered in both the colon and rectum of both Thai and Norwegian IBS patients. Some of these changes were similar in Thai and Norwegian IBS patients, while others differed.Conclusions: The findings of abnormal densities of the enteroendocrine cells in Thai patients support the notion that enteroendocrine cells are involved in the pathophysiology of IBS. The present observations highlight that IBS differs in Asian and Western countries, and show that the changes in large-intestine enteroendocrine cells in Thai and Norwegian IBS patients might be caused by different mechanisms.

Bariatric Radioembolization: A Pilot Study on Technical Feasibility and Safety in a Porcine Model

PurposeTo evaluate feasibility of left gastric artery (LGA) yttrium-90 (90Y) radioembolization as potential treatment for obesity in a porcine model. Materials and MethodsThis study included 8 young female pigs (12–13 weeks, 21.8–28.1 kg). Six animals received infusions of 90Y resin microspheres (46.3–105.1 MBq) into the main LGA and the gastric artery arising from the splenic artery. Animal weight and serum ghrelin were measured before treatment and weekly thereafter. Animals were euthanized 69–74 days after treatment, and histologic analyses of mucosal integrity and ghrelin immunoreactive cell density were performed. ResultsSuperficial mucosal ulcerations < 3.0 cm2 were noted in 5 of 6 treated animals. Ghrelin immunoreactive cell density was significantly lower in treated versus untreated animals in the stomach fundus (13.5 vs 34.8, P < .05) and stomach body (11.2 vs 19.8, P < .05). Treated animals gained less weight than untreated animals over the study duration (40.2 kg ± 5.4 vs 54.7 kg ± 6.5, P = .053). Average fundic parietal area (165 cm2 vs 282 cm2, P = .067) and average stomach weight (297.2 g vs 397.0 g, P = .067) were decreased in treated versus untreated animals. Trichrome staining revealed significantly more fibrosis in treatment animals compared with control animals (13.0 vs 8.6, P < .05). No significant differences were identified in plasma ghrelin concentrations (P = .24). ConclusionsLGA 90Y radioembolization is promising as a potential treatment for obesity. A larger preclinical study is needed to evaluate the safety and efficacy of this procedure further.

Combination of chewing and stress up-regulates hippocampal glucocorticoid receptor in contrast to the increase of mineralocorticoid receptor under stress only

In general, acute immobilization stress increases plasma corticosterone levels that signal the hypothalamic–pituitary–adrenal axis. Mineralocorticoid receptors and glucocorticoid receptors in the hippocampus perform crucial roles in this feedback mechanism. In the present study, we investigated the effects of chewing under stress on the rat hippocampal mineralocorticoid and glucocorticoid receptors by immunohistochemistry. We separated rats into a control group, a 2-h immobilization stress group (stress only group), and a 2-h immobilization stress group that was allowed to chew on a wooden stick for the latter 1h (stress with chewing group). Mineralocorticoid receptor immunoreactive cells with nucleus staining in the hippocampal CA1 area were scattered in the pyramidal cell layer. The stress only group showed the densest distribution of immunoreactive cells; however, the density of the immunoreactive cells in the stress with chewing group was similar to that of the control group. Changes in immunoreactive cell density were not visible in other areas of the hippocampus, namely, the CA3 area and dentate gyrus. Image analysis indicated that the increase in the mineralocorticoid receptor immunoreactive area within a fixed area in the stress only group was statistically significant compared with those in the control group and the stress with chewing group. On the other hand, glucocorticoid receptor immunoreactive cells in the CA1 area seemed to be increased in the stress with chewing group, but not in the stress only group. Image analysis indicated that this increase was statistically significant. These results suggest that immobilization and immobilization with chewing differentially affect these two types of glucocorticoid receptors in the rat hippocampus. Considering that chewing has alleviative effects against stress, glucocorticoid receptor elevation in the hippocampal CA1 area is one of the neuronal mechanisms of coping with stress.

Distribution and chemical coding pattern of the cocaine- and amphetamine-regulated transcript (CART) immunoreactivity in the preoptic area of the pig

This study provides a detailed description of cocaine-and amphetamine-regulated transcript (CART) distribution and the co-localization pattern of CART and gonadotropin releasing hormone (GnRH), somatostatin (SOM), neuropeptide Y (NPY), cholecystokinin (CCK), and substance P (SP) in the preoptic area (POA) of the domestic pig. The POA displays a low density of immunoreactive cells and rich immunoreactivity for CART in fibers. CART-immunoreactive (CART-IR) cell bodies were single and faintly stained, and located in the medial preoptic area (MPA) and the periventricular region of the POA. A high density of immunoreactive fibers was observed in the periventricular preoptic nucleus (PPN); a high to moderate density of fibers was observed in the MPA; but in the dorso-medial region of the MPA the highest density of fibers in the whole POA was observed. The lateral preoptic area (LPA) exhibited a less dense concentration of CART-immunoreactive fibers than the MPA. The median preoptic nucleus (MPN) showed moderate to low expression of staining fibers. In the present study, dual-labeling immunohistochemistry was used to show that CART-IR cell bodies do not contain any GnRH and SP. CART-positive fibers were identified in close apposition with GnRH neurons. This suggests that CART may influence GnRH secretion. Double staining revealed that CART-IR structures do not co-express any of the substances we studied, but a very small population of CART-IR fibers also contain SOM, CCK or SP.

Altered DARPP-32 expression in the superior temporal gyrus in schizophrenia

Many neuroimaging studies have revealed structural abnormalities in the superior temporal gyrus (STG) in schizophrenia (Kasai et al., 2003a, 2003b; Sun et al., 2009). Neurophysiological studies of mismatch negativities (MMN) generated in the STG have suggested impaired function of N-methyl-d-aspartate (NMDA) receptors (Javitt et al., 1996). Although many postmortem studies have been conducted on the pathogenesis of schizophrenia, relatively few reports have studied molecular alterations in the STG (Bowden et al., 2008; Deng and Huang, 2006; Kang et al., 2009; Katsel et al., 2005; Le Corre et al., 2000; Nudmamud and Reynolds, 2001; Sokolov et al., 2000). The STG shows pronounced changes in gene expression when compared to other regions implicated in schizophrenia (Katsel et al., 2005). Dopamine and a cAMP-regulated phosphoprotein of molecular weight 32kDa (DARPP-32) is thought to be closely associated with pathophysiological changes in the dopamine and glutamate systems in schizophrenia because, when activated by phosphorylation, DARPP-32 acts as a critical regulator of D1 dopamine receptor and NMDA receptor activity (Greengard et al., 1999). The molecular pathways involving DARPP-32 appear important in the pathogenesis of schizophrenia. Here, we show dramatic alterations in DARPP-32 expression in the STG of postmortem brains from patients with schizophrenia. To clarify the detailed histological and cellular expression of DARPP-32 in the STG in schizophrenia, we immunohistochemically examined postmortem brains by using specific antibodies. We compared the density of immunoreactive cells of the STG (BA22) from 11 schizophrenia patients with those from 11 age- and sex-matched controls, and found significantly lower densities of DARPP-32-immunoreactive (IR) cells and threonine (Thr) 34-phosphorylated DARPP-32-IR cells in the STG in the schizophrenia group. Thus, the DARPP-32-related pathogenesis in schizophrenia may be more severe in the STG than previously found in the prefrontal cortex.

Cerebellar distribution of calcitonin gene-related peptide (CGRP) and its receptor components calcitonin receptor-like receptor (CLR) and receptor activity modifying protein 1 (RAMP1) in rat

Clinical and experimental results have revealed a fundamental role of calcitonin gene-related peptide (CGRP) in primary headaches. CGRP is widely expressed in neurons both in the central nervous system (CNS) and in peripheral sensory nerves. In the CNS there is a wide distribution of CGRP-containing neurons with the highest levels seen in striatum, amygdale and cerebellum. Moreover, in acute attacks of migraine there is evidence of cerebellar activation. To understand the role of CGRP, antibodies towards the CGRP receptor components calcitonin receptor-like receptor (CLR) and receptor activity modifying protein type 1 (RAMP1) have been developed. In the present study we therefore examined immunohistochemically the distribution of CGRP and its receptor components in the cerebellum.CGRP immunoreactivity was only found intracellularly in the cerebellar Purkinje cell bodies, whereas CLR and RAMP1 were detected on the surface of the Purkinje cell bodies and in their processes. The elaborate dendritic tree of Purkinje cell fibers was distinctly visualized with the RAMP1 antibody. In addition, profoundly stained fibers spanning from the molecular layer into the medulla was observed with the RAMP1 antibody. Judged from the high density of immunoreactive cells expressing CGRP, RAMP1 or CLR, and from the double staining of CGRP and RAMP1 it is likely that most, if not all, Purkinje cells express both the peptide and the receptor components. Double staining with RAMP1 and the glial cell markers glial fibrillary acidic protein (GFAP) and S-100 revealed an almost identical staining pattern of the antibodies in the area of the cell body surfaces. However, as judged by confocal microscopy, no double staining was present. Instead, it was discovered that the glial cells tightly surrounded the Purkinje cells which easily could be interpreted as co-localization in the epifluorescence microscope.Our observations demonstrate that there is a rich expression of CGRP and CGRP receptor elements in the cerebellum which points towards a functional role of CGRP in cerebellar Purkinje cells. Recent advances in the biology of the cerebellum indicate that there may be a role in nociception; hence a target of the recently discovered CGRP receptor antagonists that have demonstrated improvement in migraine pain and associated symptoms could be cerebellar CGRP receptors.

Aged Changes of Glu/GABA Expression in the Cerebellar Cortex of Cats

The physiological function of cerebellum declines during ageing, but its neural mechanism is not still clear. Therefore, we applied an immunohistochemical method to exhibit the Glu and GABA immunoreactive (Glu-IR and GABA-IR) cells, to investigate aged changes of Glu/GABA expression in the cerebellar cortex of young adult and old cats, and to discuss the possible impact of these changes. Under the Olympus BX-51 light microscope, the density of the immunoreactive cells and its gray value in the molecular layer, Purkinje layer and granular layer were counted respectively with Image-Pro Express Software 5.1. Compared with young cats, the density and average grey value of Glu immunoreactive cells increased significantly in the Purkinje and granular layer of old cats (P﹤0.01). The density and intensity of GABA immunoreactive neurons declined significantly in the molecular and Purkinje layers of old cats (P﹤ 0.01). The density of GABA immunoreactive neurons showed no evident differences in the granular layer between young and old cats (P﹥0.05), but the intensity of GABA immunoreactive neurons was visibly weaker in the granular layer of old cats (P﹤0.01). The results indicated that changes of Glu/GABA expression in the cerebellar cortex during ageing may be one of the important factors mediating the functional degeneration of accurate timing and neurons lost in old individuals.

Calretinin distribution in the octopus brain: An immunohistochemical and in situ hybridization histochemical analysis

The distribution of calretinin containing neurons examined by in situ hybridization mapping was compared with that obtained by immunocytochemistry in the brain of octopus. Results revealed a close correspondence between the two types of investigations. Western blot analysis disclosed a 29 kDa protein immunostained with anti-calretinin antibody. Calretinin containing neurons were localized mainly in the cortex of octopus lobes, including the vertical, frontal, basal, buccal, palliovisceral, pedal and branchial, with variations of staining intensity and density of immunoreactive cells. The amacrine cells surrounding calretinin containing neuronal bodies of the cortex were also labeled unlike the glial cells. The close correspondence of blotting analysis, immunocytochemistry and in situ hybridization indicates with no doubt that calretinin, like other calcium-binding proteins previously studied, is also present in the nervous system of cephalopods. Furthermore, although recent findings localize calretinin also in endocrine glands, the presence of this calcium-binding protein in the brain of octopus indicates that calretinin appeared early in the phylogeny as a neuronal protein already in invertebrates.

Quantitative analysis of influence of sevoflurane on the reactivity of microglial cells in the course of the experimental model of intracerebral haemorrhage

Microglial cells play an important role in the pathophysiology of intracerebral haemorrhage. We have examined the possible influence of sevoflurane on the reactivity of microglial cells during intracranial haemorrhage. Forty adult male rats were divided into two groups. All animals were anaesthetized with fentanyl, dehydrobenzperidol and midazolam. In the experimental group animals additionally received sevoflurane 2.2 vol% end-tidal concentration. Intracranial haemorrhage was produced through infusion of blood into the striatum. The microglial cell population (numerical density of immunoreactive cells and their distribution) was assessed on days 1, 3, 7, 14 and 21 after producing a haematoma using antibodies OX42 and OX6. In the control group significant differences in the density of OX42-ir cells between 3rd and 7th (81.86 vs. 129.99) (95% CI: -77.99 to -18.25, P = 0.0035) and between 14th and 21st (105.36 vs. 63.81) (95% CI: 13.21 to 69.89, P = 0.006) survival days were observed. However, significant increase of percentage of amoeboid OX42-ir cells between 3rd and 7th (0.98 vs. 48.71) (95% CI: -52.17 to -43.30, P = 0.0001) and between 7th and 14th (48.71 vs. 58.47) (95% CI: -13.96 to -5.55, P = 0.0002) and then their decrease - between 14th and 21st (58.47 vs. 31.74) (95% CI: 22.52 to 30.93, P = 0.0001) days of observation were noted. In the sevoflurane groups OX42-ir cells were not found. On the 3rd day the density of OX6-ir cells in the sevoflurane group was significantly lower than that in the control group (12.39 vs. 34.57) (95% CI: -49.78 to -2.96, P = 0.02). The percentage of an amoeboid form of OX6-ir cells was significantly lower in the sevoflurane group than that in the control group (27.31 vs. 82.03) (95% CI: -72.52 to -36.92, P = 0.0001) (58.76 vs. 82.37) (95% CI: -38.81 to -8.41, P = 0.003) (42.87 vs. 81.55) (95% CI: -53.23 to -24.10, P = 0.0001) respectively for 3rd, 7th and 14th days of survival. Administration of sevoflurane during anaesthesia in animals with intracerebral haemorrhage evoked a decrease of activation of the microglial cells.

Protein kinase C immunoreactivity in the pigmented and albino rat retina

The albino retina is abnormal. The central region is under-developed and some cell populations are reduced or increased in number. Not least of these anomalies is the deficit in the rod population in hypopigmented rodents and carnivores. Given this abnormality we have examined the distribution of rod bipolar cells in albino rats to determine whether this subsequent stage in the rod pathway is similarly disrupted. A monoclonal antibody to protein kinase C was used to determine the distribution of rod bipolar cells in juvenile and adult pigmented and albino rats. Immunoreactive rod bipolar cells and their processes were counted in transverse sections passing through both the central and peripheral retina. The mean densities of immunoreactive cells were significantly reduced in albino retinas at both juvenile (postnatal day 15) and adult stages, in the former by 14% and the latter by 9%. This was evident across the entire central-to-peripheral extent of the retina. The reduced rod photoreceptor population found in albinos appears therefore to be consequential for the magnitude of their major target population, rod bipolar cells. The decrease in the rod bipolar population indicates a change in retinal cytoarchitecture and implies a disruption of functional organization of the albino retina, especially that underlying the scotopic channel. This, coupled with observations that some other retinal interneuronal populations may be disrupted, implies disordered retinal processing in albinos and emphasizes the likelihood that abnormal visual function in albinos may be as much a result of anomalous retinal circuitry as of the known photoreceptor deficit or chiasmatic misrouting.

Proliferating cell nuclear antigen immunoreactivity in the ovarian surface epithelium of mice of varying ages and total lifetime ovulation number following ovulation.

Everytime an oocyte is released at ovulation, the ovarian surface epithelium (OSE) is ruptured and must be restored by epithelial cell proliferation. Ovulation site closure was studied in mice of various ages along with total lifetime ovulation number to investigate the known association of these factors with the risk of epithelial ovarian cancer. Ovaries from Swiss Webster mice were collected at various time points postovulation from 3-mo virgin animals (estimated median total lifetime ovulation number, 92; n = 40 mice), 8-mo virgin animals subject to incessant ovulation (estimated median total lifetime ovulation number, 652; n = 15 mice), and 12-mo breeders (estimated median total lifetime ovulation number, 208; n = 35 mice). Diameters of ovulation sites were estimated by scanning electron microscopy. No differences were found in the rate of ovulation site closure between the groups. Sections of ovaries were analyzed using immunohistochemistry for proliferating cell nuclear antigen (PCNA). The highest density of immunoreactive cells was observed in all animal groups in the cuboidal cells around the rupture site the day after ovulation. Despite the similarity in ovulation site closure rates between groups, the total number of OSE cells that were positive for PCNA in both the 8- and 12-mo animals was significantly reduced, so the number of stained cells appeared to be insufficient to cover the ovulation site. These data suggest that other mechanisms, such as proliferation of the extraovarian mesothelium, may play a role in the re-epithelialization of the ovary.

A short cerebral ischemic preconditioning up-regulates adenosine receptors in the hippocampal CA1 region of rats.

Pharmacologically blocking or stimulating studies have showed the crucial role of adenosine receptors in the protective effect of cerebral ischemic preconditioning (CIP). However, little is know about whether the adenosine receptors are up-regulated in the process. In the present study, changes in expression of adenosine receptors in the CA1 hippocampus after a short CIP in a period of 3 min were investigated in rat four-vessel occluding (4VO) brain ischemic model using immunohistochemistry. The experiments were performed on groups of sham, 4 h, 1, 3, and 7 days (n = 6 in each group) after the CIP. The number and immunostaining density of immunoreactive cells for A1 and A2b adenosine receptors in the CA1 hippocampus were significantly increased after the CIP. For A1 adenosine receptor, the increase occurred in CA1 pyramidal neurons. While for A2b adenosine receptor, the increase occurred in the stratum radiatum of the CA1. The immunoreactive cells for A2b receptor showed distinct morphological characteristics of astrocytes. The increases were consistent in time course (1-7 days) with the development of the ischemic tolerance induced by the CIP. It was concluded that up-regulation of adenosine receptors may also play an important role in the protective effect of CIP.

Androgen receptor expression in the developing male and female rat visual and prefrontal cortex.

Gonadal steroid hormones are known to influence the development of the cerebral cortex of mammals. Steroid hormone action involves hormone binding to cytoplasmic or nuclear receptors, followed by DNA binding and gene transcription. The goals of the present study were twofold: to determine whether androgen receptors are present during development in two known androgen sensitive regions of the rat cerebral cortex, the primary visual cortex (Oc1) and the anterior cingulate/frontal cortex (Cg1/Fr2); and to determine whether androgen receptor (AR) expression in these regions differs between developing males and females. We used immunocytochemistry to detect AR protein on postnatal days 0, 4, and 10, and in situ hybridization to detect AR mRNA on postnatal day 10 in male and female rats. The level of AR expression was specific to the cortical region, with higher AR immunoreactive cell density and more AR mRNA in Oc1 than in Cg1/Fr2. AR immunoreactive cell density increased with age in both regions. Finally, on postnatal day 10, males had a higher AR immunoreactive cell density and more AR mRNA in Oc1 than did females. Thus, the presence of ARs may allow androgens to directly influence the development the cerebral cortex.

Lung pathology in premature infants with Ureaplasma urealyticum infection.

Respiratory tract colonization with Ureaplasma urealyticum in preterm infants has been associated with a higher incidence of pneumonia, severe respiratory failure, bronchopulmonary dysplasia (BPD), and death. In this report, we characterize the lung pathology and expression of tumor necrosis factor-alpha (TNF-alpha) associated with U. urealyticum pneumonia in very low-birth weight infants (VLBW; < or =1500 g). Lung pathology of archived autopsy specimens was retrospectively reviewed in three groups of VLBW infants: 5 gestational controls who died from nonpulmonary causes, 13 infants with pneumonia who were culture and/or PCR negative for U. urealyticum, and 5 infants with pulmonary disease and positive for U. urealyticum by tracheal aspirate and/or lung tissue culture or polymerase chain reaction (PCR). Presence and extent of alveolar macrophages and neutrophils, as well as interstitial lymphocytic infiltration and fibrosis were evaluated. PCR was performed on formalin-fixed, paraffin-embedded lung sections. Additional sections were immunostained for TNF-alpha. The peripheral total white blood cell counts and absolute neutrophil counts were three-fold higher in infants with U. urealyticum pneumonia than cell counts in infants infected with other organisms. There was a trend toward a predominance of neutrophils in alveoli of non- Ureaplasma pneumonia infants, but a trend toward a predominance of alveolar macrophages in U. urealyticum-infected infants. The most striking finding was the presence of increased interstitial fibrosis in all Ureaplasma-infected infants. TNF-alpha immunoreactive cell density was very low in the gestational controls, but increased in both pneumonia groups. We conclude that persistent lung U. urealyticum infection may contribute to chronic inflammation and early fibrosis in the preterm lung.

Lung Pathology in Premature Infants withUreaplasma urealyticumInfection

Respiratory tract colonization with Ureaplasma urealyticum in preterm infants has been associated with a higher incidence of pneumonia, severe respiratory failure, bronchopulmonary dysplasia (BPD), and death. In this report, we characterize the lung pathology and expression of tumor necrosis factor-α (TNF-α) associated with U. urealyticum pneumonia in very low–birth weight infants (VLBW; ≤1500 g). Lung pathology of archived autopsy specimens was retrospectively reviewed in three groups of VLBW infants: 5 gestational controls who died from nonpulmonary causes, 13 infants with pneumonia who were culture and/or PCR negative for U. urealyticum, and 5 infants with pulmonary disease and positive for U. urealyticum by tracheal aspirate and/or lung tissue culture or polymerase chain reaction (PCR). Presence and extent of alveolar macrophages and neutrophils, as well as interstitial lymphocytic infiltration and fibrosis were evaluated. PCR was performed on formalin-fixed, paraffin-embedded lung sections. Additional sections were immunostained for TNF-α. The peripheral total white blood cell counts and absolute neutrophil counts were three-fold higher in infants with U. urealyticum pneumonia than cell counts in infants infected with other organisms. There was a trend toward a predominance of neutrophils in alveoli of non- Ureaplasma pneumonia infants, but a trend toward a predominance of alveolar macrophages in U. urealyticum–infected infants. The most striking finding was the presence of increased interstitial fibrosis in all Ureaplasma-inf ected infants. TNF-α immunoreactive cell density was very low in the gestational controls, but increased in both pneumonia groups. We conclude that persistent lung U. urealyticum infection may contribute to chronic inflammation and early fibrosis in the preterm lung.

Expression of A Kinase Anchoring Protein 79 and Synaptophysin in the Developing Human Red Nucleus

Our previous study showed that in the human fetal and neonatal brain, the magnocellular and parvocellular parts of the red nucleus can be well delineated by calcium-binding proteins. To study the development of rubral afferents, the expression of A kinase anchoring protein 79 (AKAP79) and synaptophysin (SYN) was examined in the human fetal red nucleus. It was found that during prenatal development both AKAP79 and SYN expression increased gradually although a major alteration in the distribution of the proteins within the two compartments of the red nucleus was not observed. In AKAP79 immunopreparations, the magnocellular part became well demarcated from 23 weeks of gestation onwards and both parts showed punctate immunolabelling with moderate to high packing densities of immunoreactive cells. SYN immunoreactivity with a punctate appearance was, however, mainly located in the parvocellular part. It was evenly distributed throughout the compartment at 14–22 weeks of gestation, and then from 23 weeks to the time of birth, there was a pericellular arrangement of SYN. Our observations are mainly in line with connectivity data regarding the red nucleus.

The state of cholinergic structures in forebrain of bulbectomized mice.

The effects of bulbectomy on the state of basal forebrain cholinergic structures and spatial memory in Morris water maze were studied. Immunostaining with polyclonal antibodies to choline acetyltransferase AB144P revealed decreased density of immunoreactive cells in the horizontal limb of the diagonal band of Broca (55% of control), basal magnocellular preoptic nucleus (58.9%), and the caudate nucleus-putamen complex (68.2%). No significant changes in the vertical limb of the diagonal band of Broca and globus pallidus were observed. These findings and published data allow us to assume that pathology of the olfactory bulb can underlie memory impairment during Alzheimer's disease associated with dysfunction of acetylcholine-synthesizing structures in the forebrain.

Effects of unilateral deprivation in postnatal development of the olfactory bulb in an altricial rodent, the gerbil (Meriones unguiculatus)

To establish if olfactory bulb sensitivity to functional deprivation is related to the degree of development at birth, we studied the effects of surgical closure of one naris in the gerbil olfactory bulb development. The naris closure was performed at three different ages: at birth, P7 and P14 and maintained for 30 or 60 days. In coronal sections we measured total bulbar surface area and surface area of the different bulbar layers establishing an estimate multiple regression model for the percentage of surface area decrease in the deprived bulb related to non deprived one. The internal and external plexiform layers are the most sensitive layers to deprivation and age and duration of deprivation were factors in their mathematical models. The glomerular layer showed a surface reduction of about 25% without dependence either on age or duration. The deprived glomerular layer showed a much lower tyrosine hydroxylase-immunoreactivity and immunoreactive cell density than those in the non deprived one. However, differences in calbindin-immunoreactive and NADPH-diaphorase positive cell density between deprived and non deprived glomerular layer were not significant. Our results indicate that olfactory bulb sensitivity to functional deprivation is not related to the degree of precocity and changes in age and duration of deprivation cause different effects on the olfactory bulb layers.

Increase of pulmonary density of macrophages in sudden infant death syndrome

A 1996 cytodensitometric study found increased cellular density in the pulmonary parenchyma of infants who died of sudden infant death syndrome (SIDS). The present study clarifies these results in quantifying the density of immunohistochemical subtyped inflammatory cells. Histomorphometry was used to compare the density of macrophages, granulocytes and T and B lymphocytes in the lungs of two groups of infants. From the post-mortem records of infant deaths between 1983 and 1995, 29 (mean age=5 months) were randomly selected including 16 cases of SIDS and 13 who died of other non-pulmonary causes. Densities of immunoreactive cells were measured under blind conditions in the parenchyma. The mean density of macrophages was significantly higher in cases of SIDS compared with the controls ( P=0.0318), but there were no differences for the lymphocytes and the granulocytes. These morphometrical results must be interpreted within the methodological limits of this study, especially the non-uniform level of lung inflation between selected subjects. However, the differences in level of inflation are not sufficient to explain the observed increase of macrophage density. Indeed, the mean values of alveolar surface area, which represent an indirect measure of lung inflation, are not significantly different between the two groups. Increase of pulmonary macrophage density in SIDS agrees with three non-exclusive hypotheses: (1) an abnormal inflammatory reaction by expression of Th1 helper cell phenotype activation; (2) consequence of passive smoking; and (3) post-agonal mechanisms. Bacterial superantigens produced by toxigenic bacteria in the respiratory tract could play a role as a trigger factor that initiates a fatal cascade with overproduction of cytokines leading to death. The significant increase of pulmonary macrophage density would be the morphological expression of this potential mechanism of death.