Age-Related Changes of Elements and Relationships Among Elements in Human Hippocampus, Dentate Gyrus, and Fornix

To elucidate compositional changes of the limbic system with aging, the authors investigated age-related changes of elements in the hippocampus, dentate gyrus, and fornix and the relationships among elements by direct chemical analysis. After ordinary dissections at Nara Medical University were finished, the hippocampi, dentate gyri, and fornices were resected from identical cerebra of the subjects which consisted of 23 men and 23 women, ranging in age from 70 to 101 years. After ashing with nitric acid and perchloric acid, element contents were determined by inductively coupled plasma-atomic emission spectrometry. The average contents of P, Zn, and Na were significantly less in both the hippocampi and dentate gyri compared with the fornices. It was found that the Ca and Mg contents increased significantly in the hippocampus with aging; the P content increased significantly in the dentate gyrus with aging, whereas the Na content decreased in the dentate gyrus with aging; and the Mg content increased significantly in the fornix with aging. Regarding the relationships among elements, a significant direct correlation between Ca and Fe contents and an extremely significant inverse correlation between P and Zn contents were found in both the hippocampi and dentate gyri. In addition, a significant direct correlation between P and Mg contents was found in both the hippocampi and fornices. Pearson's correlation was used to examine whether there were elements with significant correlation among the hippocampus, dentate gyrus, fornix, and mammillary body. Significant correlations were found in five elements of Ca, P, Mg, Zn, and Fe except for S and Na among the hippocampus, dentate gyrus, and mammillary body with one exception. Regarding the fornix, significant correlations were found in two elements of P and Fe between the fornix and hippocampus, dentate gyrus, or mammillary body.     

Age-Related Differences and Relationships Between Elements in Human Amygdala and Other Limbic System or Basal Ganglia

To elucidate the compositional changes of the amygdala with aging, the authors investigated age-related differences of elements in human amygdalae. In addition, the relationships between the amygdala and other brain regions were investigated from a viewpoint of elements. After ordinary dissections at Nara Medical University were finished, the amygdalae were removed from the cerebra of the subjects who consisted of 22 men and 23 women, ranging in age from 70 to 101 years. In addition, the hippocampus, dentate gyrus, mammillary body of the limbic system and the caudate nucleus, putamen, and globus pallidus of the basal ganglia were also removed from the identical cerebra. After the brain samples were incinerated with nitric acid and perchloric acid, the element contents were determined by inductively coupled plasma-atomic emission spectrometry. It was found that both the Ca and Mg contents increased significantly in the amygdalae with aging, but the other five element contents (P, S, Zn, Fe, and Na) did not change significantly in the amygdalae with aging. Regarding the relationships among elements, very significant or significant direct correlations were found among the Ca, P, and Mg contents in the amygdalae. To explore the relationships between the amygdala and either other limbic system or basal ganglia, the correlations between seven elements of the amygdala and hippocampus, dentate gyrus, or mammillary body, and between those of the amygdala and caudate nucleus, putamen, or globus pallidus which derived from the identical cerebra, were analyzed with Pearson’s correlation. It was found that regarding the four elements of Ca, P, Mg, and Fe, a close relationship existed between the amygdala and hippocampus, globus pallidus, or mammillary body.     

Element Distribution in Visual System,the Optic Chiasma,Lateral Geniculate Body,and Superior Colliculus

To elucidate compositional changes of the visual system with aging, the authors investigated age-related changes of elements in the optic chiasma, lateral geniculate body, and superior colliculus, relationships among their elements, relationships among their brain regions from a viewpoint of elements, and gender differences in their elements by direct chemical analysis. After ordinary dissection at Nara Medical University was finished, the optic chiasmas, lateral geniculate bodies, and superior colliculi were resected from identical cerebra of the subjects. The subjects consisted of 14 men and 10 women, ranging in age from 75 to 96 years (average age = 85.6 ± 5.9 years). After ashing with nitric acid and perchloric acid, element contents were determined by inductively coupled plasma-atomic emission spectrometry. As the result, the average content of P was significantly higher in the optic chiasma and superior colliculus compared with the lateral geniculate body. Regarding age-related changes of elements, no significant changes with aging were found in seven elements of the optic chiasma, lateral geniculate body, and superior colliculus in the subjects more than 75 years of age. The findings that with regard to the relationships among elements, there were extremely significant direct correlations between Ca and Zn contents and significant inverse correlations between Mg and Na contents were obtained in common in all of the optic chiasma, lateral geniculate body, and superior colliculus. It was examined whether there were significant correlations among the optic chiasma, lateral geniculate body, and superior colliculus in the seven elements and the following results were obtained: There were significant direct correlations between the optic chiasma and lateral geniculate body in both the P and Mg contents; there was a significant direct correlation between the optic chiasma and superior colliculus in the Fe content; and a significant direct correlation was found between the lateral geniculate body and superior colliculus in the Mg content. Regarding the gender differences in elements, it was found that both the Ca and Zn contents of the lateral geniculate body were significantly higher in women than in men.     

Dramatic limbic and cortical effects mediated by high affinity PCP receptors

Using Sokoloff's 2-deoxyglucose (2-DG) autoradiographic technique, the psychotomimetic drug, phencyclidine (PCP, "angel dust") dramatically increased metabolism in diencephalic and telencephalic brain regions known to be rich in high affinity PCP receptors. These effects were greatest in the limbic circuit described in 1937 by the neurologist James Papez (mammillary bodies, anterior thalamus, cingulate gyrus, entorhinal cortex, hippocampus, fornix) and the terminal zones of dopaminergic projections. Caudal to the prefrontal cortex, the cerebral cortex developed an anterior-posterior metabolic gradient somewhat similar to that reported in schizophrenia. Brainstem areas were generally unaffected. These data 1) provide functional data to support Papez' assertion that his central limbic circuit may be important in emotional expression, 2) reaffirm the potential importance of dopaminergic function in psychotic-like behaviors, 3) provide an animal model for schizophrenia, and 4) establish that PCP uses high affinity PCP receptor binding sites to express its psychobiological effects.     

Gender Differences in Elements of Human Anterior Commissure and Olfactory Bulb and Tract

To examine whether there were gender differences in the various brain regions, the authors investigated the gender differences in seven element contents of the anterior commissure, mammillary body, and olfactory bulb and tract by direct chemical analysis. After ordinary dissection at Nara Medical University was finished, the anterior commissures, mammillary bodies, and olfactory bulbs and tracts were resected from the cerebra cut at median line. The brain samples were treated with 99.5% ethanol three times to remove lipids. After ashing with nitric acid and perchloric acid, the seven element contents Ca, P, S, Mg, Zn, Fe, and Na were determined by inductively coupled plasma–atomic emission spectrometry. It was found that the Zn content was significantly higher in the anterior commissures of men than in those of women. In the olfactory bulbs and tracts, it was found that the Ca, P, and Zn contents were significantly higher in men than in women. In contrast, no significant difference was found between the mammillary bodies of men and women regarding the seven element contents.     

Determination of Zinc,Copper, Iron,and Manganese in Different Regions of Lamb Brain

The levels of zinc, copper, iron, and manganese were measured in the hippocampus, thalamus, gyrus cinguli, hypothalamus, and in the prefrontal, parietal, temporal, and occipital cortexes of lamb brain by flame atomic absorption spectrometry. Standard addition method was also applied to samples and it was observed that there was no matrix interference affecting the determination of elements interested. In the determination of Cu, a slotted tube atom trap was used to improve sensitivity. One-way analysis of variance was used for the statistical evaluation of the results for each element. Limit of detection results for Zn, Cu, Fe, and Mn were found to be 24, 4.5, 60, and 25 ng/mL, respectively. Region-specific differences were found for all elements interested. Mn concentration ranging from 0.29 ± 0.04 to 0.61 ± 0.04 mg/kg was found to be the lowest in all brain regions among the all elements interested.     

Extra-Hippocampal Subcortical Limbic Involvement Predicts Episodic Recall Performance in Multiple Sclerosis

Background

Episodic memory impairment is a common but poorly-understood phenomenon in multiple sclerosis (MS). We aim to establish the relative contributions of reduced integrity of components of the extended hippocampal-diencephalic system to memory performance in MS patients using quantitative neuroimaging.

Methodology/Principal Findings

34 patients with relapsing-remitting MS and 24 healthy age-matched controls underwent 3 T MRI including diffusion tensor imaging and 3-D T1-weighted volume acquisition. Manual fornix regions-of-interest were used to derive fornix fractional anisotropy (FA). Normalized hippocampal, mammillary body and thalamic volumes were derived by manual segmentation. MS subjects underwent visual recall, verbal recall, verbal recognition and verbal fluency assessment. Significant differences between MS patients and controls were found for fornix FA (0.38 vs. 0.46, means adjusted for age and fornix volume, P<.0005) and mammillary body volumes (age-adjusted means 0.114 ml vs. 0.126 ml, P<.023). Multivariate regression analysis identified fornix FA and mammillary bodies as predictor of visual recall (R² = .31, P = .003, P = .006), and thalamic volume as predictive of verbal recall (R² = .37, P<.0005). No limbic measures predicted verbal recognition or verbal fluency.

Conclusions/Significance

These findings indicate that structural and ultrastructural alterations in subcortical limbic components beyond the hippocampus predict performance of episodic recall in MS patients with mild memory dysfunction.     

Nuclei of the mammillary bodies and their fiber connections in cattle (Bos taurus var. domesticus). 2. Fiber connections of the mammillary bodies in cattle]

1. In the present information the course of fibre pathways which are connected with the mammillary body of the cattle is described in 14 series of brains (6 frontal, 4 sagittal, 4 horizontal series, stained by the combined cell-fibre-method after KLUVER and BARRERA and by the method for myelined fibres after HEIDENHAIN). 2. The mammillary body of cattle is connected with four main fibre systems. These are the fornix and the mamillary peduncle as well as the mamillo-thalamic and the mamillo-tegmental tracts. 3. The fornix system first of all represents a rich myelined fibre connection between the hippocampus and the mamillary body. But also fornix fibres entering the poor-myelined regions of the hypothalamus and the mesencephalon have been demonstrated. 4. The mamillary peduncle ascending from the mesencephalon can be traced to the lateral mamillary nucleus. 5. The mamillo-thalamic tract of cattle has its origin in the mamillary body with the mamillotegmental tract associated to a common principal mamillary tract and passes to the complex of the anterior nucleus of the thalamus, while the mamillo-tegmental tract branching off from it curves into the mesencephalon.     

Brain mineralocorticoid receptor diversity: Functional implications

Mineralocorticoid receptors (MRs) in neurons of the anterior hypothalamus and the periventricular brain regions mediate aldosterone-selective actions on sodium hemeostasis, salt appetite and cardiovascular regulation. Corticosterone is not effective in these neurons, possibly because it is enzymatically inactivated. However, MRs in limbic brain regions, notably in the hippocampal neurons, do already respond to very low concentrations of both corticosterone and aldosterone. The MR-mediated effects stabilize neuronal transmission and appear critical for neuronal integrity of a sub-region of the hippocampus: the dentate gyrus. Higher concentrations of corticosterone induced by stress and the circadian rise progressively activate the lower affinity glucocorticoid receptors (GRs), which in coordination with MR-mediated actions then facilitate adaptive processes required for recovery of homeostasis. It is postulated that this balanced MR- and GR-mediated action of corticosterone is of critical importance for regulation of the stress response and behavioural adaptation.     

Tsukushi is essential for proper maintenance and terminal differentiation of mouse hippocampal neural stem cells

Secreted proteoglycan molecule Tsukushi (TSK) regulates various developmental processes, such as early body patterning and neural plate formation by interacting with major signaling pathways like Wnt, BMP, Notch etc. In central nervous system, TSK inhibits Wnt signaling to control chick retinal development. It also plays important roles for axon guidance and anterior commissure formation in mouse brain. In the present study, we investigated the role of TSK for the development and proper functioning of mouse hippocampus. We found that TSK expression is prominent at hippocampal regions of early postnatal mouse until postnatal day 15 and gradually declines at later stages. Hippocampal dimensions are affected in TSK knockout mice (TSK-KO) as shown by reduced size of hippocampus and dentate gyrus (DG). Interestingly, neural stem cell (NSC) density at the neural niche of DG was higher in TSK-KO compared with wild-type. The ratio of proliferating NSCs as well as the rate of overall cell proliferation was also higher in TSK-KO hippocampus. Our in vitro study also suggests an increased number of neural stem/progenitor cells residing in TSK-KO hippocampus. Finally, we found that the terminal differentiation of NSCs in TSK-KO was disturbed as the differentiation to neuronal cell lineage was increased while the percentages of astrocytes and oligodendrocytes were decreased. Overall, our study establishes the involvement of TSK in hippocampal development, NSC maintenance and terminal differentiation at perinatal stages.     

Age-Related Changes of the Concentrations of Select Elements in the Prostates of Japanese

To elucidate compositional changes of the prostate with aging, the authors investigated age-related changes of elements in the prostates and the relationships among their elements using Japanese and Thai. After ordinary dissections by students at Nara Medical University and Chiang Mai University were finished, the prostates were resected from the subjects. Fifty-seven Japanese subjects ranged in age from 65 to 101 years (average age = 82.5 ± 7.8 years), whereas 13 Thai subjects ranged in age from 43 to 86 years (average age = 67.9 ± 11.9 years). After ashing with nitric acid and perchloric acid, element contents were determined by inductively coupled plasma–atomic emission spectrometry. It was found that although there were no significant correlations between age and seven element contents, such as Ca, P, S, Mg, Zn, Fe, and Na, in the prostates of Japanese, high contents of Ca (>5 mg/g) and P (>4 mg/g) were contained in one fourth of the prostates of Japanese over 70 years of age. In the prostates of Thai, a significant direct correlation was found between age and Ca content, but it was not found between age and the other element contents, such as P, S, Mg, Zn, Fe, and Na. Regarding the relationships among their elements, extremely significant direct correlations were found among the contents of Ca, P, Mg, Zn, and Na in the prostates of Japanese. In the prostates of Thai, significant direct correlations were found among the contents of Ca, Mg, and Zn, but no significant correlations were found between Ca and P contents and between P and Mg contents. Regarding the relationships among their elements, there were differences between the prostates of Japanese and Thai. To examine whether element contents changed in prostatic hypertrophy, the transverse width of the Japanese prostates was measured. No significant correlations were found between the transverse width and element contents, such as Ca, P, S, Mg, Zn, Fe, and Na, in the Japanese prostates. Therefore, it is unlikely that the increase of elements results in prostatic hypertrophy.     

产前850-1900MHz手机暴露对子代大鼠齿状回PCNA和DCX表达的影响

目的：探讨产前手机暴露对子代大鼠海马齿状回增殖细胞核抗原（PCNA）和双皮质素（DCX）表达的影响。方法：构建孕鼠手机射频暴露模型,分为对照组、短时暴露组和长时暴露组（n=6）,短时和长时暴露组于孕第1-17天分别给予6 h/d和24 h/d的手机通话暴露,观察孕鼠的孕期长短、孕期体重增长和各组的胎儿数、胎儿出生体重。1月龄子代大鼠行焦油紫染色观察海马齿状回细胞形态,免疫组化观察齿状回PCNA和DCX表达,Western blot检测DCX和脑源性神经营养因子（BDNF）表达。结果：各组孕鼠的孕期、妊娠期体重增长和各组的胎儿数、胎儿出生体重无显著差异,长时暴露组子代大鼠的齿状回多形细胞层锥形细胞和DCX阳性细胞出现形态改变。与对照组、短时暴露组比较,长时暴露组子代大鼠齿状回PCNA阳性细胞和DCX、BDNF表达均明显减少（P<0.05）。结论：产前长时手机暴露可能通过改变子代大鼠海马BDNF而影响齿状回的PCNA和DCX表达。     

Immunohistochemical localization of the angiotensin-(1–7) receptor Mas in the murine forebrain

Apart from the well-known biologically active angiotensin II, other biologically active angiotensins have been discovered, including angiotensin IV and angiotensin-(1–7). Some years ago, we and others discovered that the Mas proto-oncogene encodes a receptor that is essential for angiotensin-(1–7) signaling. Angiotensin-(1–7) is not only expressed in the periphery but also within the brain. Based on that, we examined the distribution of Mas within the murine brain, using an antibody directed against the 3^rd cytoplasmic loop of the receptor protein. Strongest Mas protein expression was detected in the dentate gyrus of the hippocampus and within the piriform cortex. However, Mas protein expression is not restricted to these areas, since Mas immunopositive neurons were also seen in different parts of the cortex, hippocampus, amygdala, basal ganglia, thalamus and hypothalamus. Based on the expression of Mas protein in the cortex and the limbic system, angiotensin-(1–7) signaling may play a role in synaptic plasticity, learning, memory and emotion, as has been described for angiotensin II and IV.     

Tumor necrosis factor-alpha participates in apoptosis in the limbic system after myocardial infarction

This study was designed to determine the role of tumor necrosis factor-alpha (TNFα) in apoptosis observed in the myocardium and limbic system after myocardial ischemia. PEG sTNFRI, a recombinant, human, soluble p55 Type 1 TNF receptor (3 mg/kg) or vehicle (saline) was administered s.c. to male Sprague-Dawley rats on days 5, 3 and 1 before myocardial ischemia. The animals were then subjected, under anesthesia, to left anterior descending coronary artery occlusion for 40 min, followed by 15-min or 72-h reperfusion. Caspase-3 and -8 activities as well as terminal dUTP nick-end labelling-positive cells were examined in the myocardium (subendocardial and subepicardial regions), lateral (LA) and medial amygdala (MA) and hippocampus (CA1, CA3, dentate gyrus (DG)). After 15 min of reperfusion, the subendocardial and CA1 regions presented an increase in caspase-3 activity, whereas caspase-8 activity appeared to be augmented in the DG. PEG sTNFRI inhibited caspase-8 activation in the DG. After 72 h of reperfusion, plasma TNFα levels were reduced in the treated groups. The DG, CA1, CA3 and MA showed an increment of caspase-8 activity, which was reversed by PEG sTNFRI, except in the MA. Furthermore, caspase-3 activity was increased in the CA1, DG, LA and MA. These results indicate that TNFα contributes to apoptosis via activation of the extrinsic pathway in the limbic system after myocardial infarction, which is not the case in the myocardium.     

Hippocampal enlargement in <Emphasis Type="Italic">Bassoon</Emphasis>-mutant mice is associated with enhanced neurogenesis,reduced apoptosis,and abnormal BDNF levels

Mice mutant for the presynaptic protein Bassoon develop epileptic seizures and an altered pattern of neuronal activity that is accompanied by abnormal enlargement of several brain structures, with the strongest size increase in hippocampus and cortex. Using manganese-enhanced magnetic resonance imaging, an abnormal brain enlargement was found, which is first detected in the hippocampus 1 month after birth and amounts to an almost 40% size increase of this structure after 3 months. Stereological quantification of cell numbers revealed that enlargement of the dentate gyrus and the hippocampus proper is associated with larger numbers of principal neurons and of astrocytes. In search for the underlying mechanisms, an approximately 3-fold higher proportion of proliferation and survival of new-born cells in the dentate gyrus was found to go hand in hand with similarly larger numbers of doublecortin-positive cells and reduced numbers of apoptotic cells in the dentate gyrus and the hippocampus proper. Enlargement of the hippocampus and of other forebrain structures was accompanied by increased levels of brain-derived neurotrophic factor (BDNF). These data show that hippocampal overgrowth in Bassoon-mutant mice arises from a dysregulation of neurogenesis and apoptosis that might be associated with unbalanced BDNF levels.     

Age-related Changes in the Insulin Receptor β in the Gerbil Hippocampus

The insulin receptor has been reported to be associated with memory formation via the hippocampus. In this study, we observed age-related changes in the insulin receptor β immunoreactivity and its protein levels in the hippocampus of gerbils of various ages in order to identify the correlation between the insulin receptor β and aging processes in the hippocampus. Insulin receptor β immunoreactivity was mainly detected in the molecular and polymorphic layers of the dentate gyrus, and in mossy fibers, Schaffer collaterals, alveus and stratum lacunosum-moleculare of the hippocampus proper (CA1-3) of gerbils at postnatal month 1 (PM 1). Insulin receptor β immunoreactivity decreased with age in all of these structures, except for the alveus. Reduction of the insulin receptor β immunoreactivity was prominent in the molecular layer of the dentate gyrus at PM 6 and in the stratum lacunosum-moleculare of the CA1 region at PM 12, while insulin receptor β immunoreactivity was decreased in other regions in the PM 18 groups. In addition, insulin receptor β protein level in the whole hippocampus was slightly increased at PM 3, and it decreased in an age-dependent manner from PM 6 to PM 24. These reductions of the insulin receptor β in the hippocampus may be associated with age-related memory deficits in gerbils.     

Stress ulcer modulation by limbic system structures.

A number of studies suggest that the telencephalic limbic system modulates stress ulcer development. The amygdala is assumed to connect sensory experiences, including stressful stimuli, with the emotional reactions and gastrointestinal effects normally produce. The hippocampal formation (entorhinal cortex, dentate gyrus, hippocampus) is part of a gating system, modulating the organism's coping ability. Changes in transmission in this temporal brain region are linked to individual differences in stress ulcer severity. Interactions among "classical" transmitters and several neuropeptides mediate these differences.     

Identification of cells in rat brain and peripheral tissues expressing mRNA for members of the nerve growth factor family

Cells expressing mRNA for hippocampus-derived neurotrophic factor (HDNF/NT-3) or brain-derived neurotrophic factor (BDNF) were identified by in situ hybridization. In the rat brain, HDNF mRNA was predominantly found in pyramidal neurons in CA1 and CA2 of the hippocampus. Lower levels of HDNF mRNA were found in granular neurons of the dentate gyrus and in neurons of the taenia tecta and induseum griseum. BDNF mRNA-expressing cells were more widely distributed in the rat brain, with high levels in neurons of CA2, CA3, and the hilar region of the dentate gyrus, in the external and internal pyramidal layers of the cerebral cortex, in the claustrum, and in one brainstem structure. Lower levels were seen in CA1 and in the granular layer of the hippocampus, in the taenia tecta, and in the mammillary complex. In peripheral tissues, HDNF mRNA was found in glomerular cells in the kidney, secretory cells in the male rat submandibular gland, and epithelial cells in secondary and tertiary follicles in the ovary. Cells expressing BDNF mRNA were found in the dorsal root ganglia, where neurons of various sizes were labeled.     

Immunoreactivities and Levels of Mineralocorticoid and Glucocorticoid Receptors in the Hippocampal CA1 Region and Dentate Gyrus of Adult and Aged Dogs

Corticosteroids are important factors in the maintenance of homeostasis in the brain. They are regulated via the interaction with two corticosteroid receptor systems—the mineralocorticoid (MR) and glucocorticoid receptor (GR). In the present study, we observed age-related changes in serum cortisol levels, and immunoreactivities and protein levels of MR and GR in the hippocampal CA1 region and dentate gyrus. The serum cortisol levels were significantly high (about twofold) in the aged group compared to that in the adult group. In the adult dog (2–3 years old), MR and GR immunoreactivity was detected in neurons in the pyramidal layer of the CA1 region, and in the granular and multiform layers of the dentate gyrus. In the aged dog (10–12 years old), MR immunoreactivity in the CA1 region was significantly decreased, especially, in the dentate multiform layer. In contrast, GR immunoreactivity in the aged dog was slightly decreased in the CA1 region and dentate gyrus. In the Western blot analysis, MR protein level in the aged dog was significantly lower compared to that of the adult dog; GR protein level in the aged dog was not significantly decreased. This result indicates that the reduction of MR immunoreactivity and protein level in the hippocampus of the aged dog may be associated with neural dysfunction in the aged hippocampus.