The interstitial system of the trigeminal spinal tract projects to the red nucleus in mice

We studied projections from the interstitial system of the spinal trigeminal tract (InSy-S5T) to the red nucleus of the mouse with retrograde tracers (fluorogold and latex microbeads impregnated with rhodamine and fluorescein). Injections in the magnocellular part of the red nucleus caused labeling of cells in the rostral, intermediate, and caudal paratrigeminal nucleus (Pa5), dorsal paramarginal nucleus (PaMD), insular trigemeo-lateral cuneate nucleus (I5CuL), and the trigeminal extension of the parvocellular reticular formation (5RPC). All projections were bilateral, but contralateral projections were stronger. The number of retrogradely labeled cells in the InSy-S5T in 3-, 6-, and 12-month-old mice was similar. Injections restricted to the parvocellular red nucleus did not label the nuclei of the InSy-S5T. This projection from the InSy-S5T to the red nucleus may mediate modulation of the facial muscles by pain and other sensory information.     

The interstitial system of the trigeminal spinal tract projects to the red nucleus in mice

We studied projections from the interstitial system of the spinal trigeminal tract (InSy-S5T) to the red nucleus of the mouse with retrograde tracers (fluorogold and latex microbeads impregnated with rhodamine and fluorescein). Injections in the magnocellular part of the red nucleus caused labeling of cells in the rostral, intermediate, and caudal paratrigeminal nucleus (Pa5), dorsal paramarginal nucleus (PaMD), insular trigemeo-lateral cuneate nucleus (I5CuL), and the trigeminal extension of the parvocellular reticular formation (5RPC). All projections were bilateral, but contralateral projections were stronger. The number of retrogradely labeled cells in the InSy-S5T in 3-, 6-, and 12-month-old mice was similar. Injections restricted to the parvocellular red nucleus did not label the nuclei of the InSy-S5T. This projection from the InSy-S5T to the red nucleus may mediate modulation of the facial muscles by pain and other sensory information.     

Kisspeptin-10 stimulates the secretion of growth hormone and prolactin directly from cultured bovine anterior pituitary cells

Kisspeptins are peptide hormones encoded by the KiSS-1 gene, and act as the principal positive regulator of the reproductive axis by directly stimulating gonadotropin-releasing hormone (GnRH) neuron activity. We recently observed that kisspeptin-10 (the minimal kisspeptin sequence necessary for receptor activation) also has a direct stimulating effect on luteinizing hormone (LH) secretion in bovine anterior pituitary (AP) cells. In the present study, we evaluated the direct effect of kisspeptin-10 on the secretion of other pituitary hormones, growth hormone (GH) and prolactin (PRL), from bovine AP cells. The AP cells, which were prepared from 1- or 8-month-old male calves, were incubated for 2h with the peptides. Kisspeptin-10 at 100 nM (P<0.05), 1000 nM (P<0.01) and 10,000 nM (P<0.01), but not at 10 nM, significantly stimulated GH secretion from the AP cells of 1-month-old calves, while in 8-month-old calves it was significantly (P<0.05) stimulated at 1000 nM (P<0.01) and 10,000 nM (P<0.01), but not at 10nM and 100 nM. The response of GH to 100 nM (P<0.01), 1000 nM (P<0.05) and 10,000 nM (P<0.01) kisspeptin-10 in the AP cells of 1-month-old calves was significantly greater than in those of 8-month-old calves. All tested doses of kisspeptin-10 had no effect on PRL secretion from AP cells of 1-month-old calves. However, 1000 nM (P<0.05) and 10,000 nM (P<0.01), but not lower concentrations, of kisspeptin-10 significantly stimulated PRL secretion from the AP cells of 8-month-old calves. The present study is, as far as we know, the first to examine the direct actions of kisspeptin on the secretion of GH and PRL from the bovine pituitary gland. Further studies are necessary to evaluate the importance of multiple actions of kisspeptin on the pituitary of various animals in vivo.     

Prenatal development of the human nucleus ambiguus during the embryonic and early fetal periods

The ontogenetic development of the nucleus ambiguus was studied in a series of human embryos and fetuses ranging from 3 to 12.5 weeks of menstrual age (4 to 66 mm crown-rump length). They were prepared by Nissl and silver methods. Nucleus ambiguus neuroblasts, whose neurites extend towards and into the IXth and rostral Xth nerve roots, appear in the medial motor column of 4-6-week-old embryos (4.25-11 mm). These cells then migrate laterally (6.5 weeks, 14 mm) to a position near the dorsal motor nucleus of X. At 7 weeks (15 mm), nucleus ambiguus cells begin their migration, which progresses rostrocaudally, into their definitive ventrolateral position. The basic pattern of organization of the nucleus is established in its rostral region at 8 weeks (22.2-24 mm) and extends into its caudal region by 9 weeks (32 mm), when its nearly adult organization is evident. Cells having the characteristics of mature neurons first appear rostrally in the nucleus during the 8.5-9-week period (24.5-32 mm), gradually increase in number, and constitute the entire nucleus at 12.5 weeks (65.5 mm). Definitive neuronal subgroups first appear at 10 weeks (37.5 mm) in the large rostral nuclear region. These features suggest that the human nucleus ambiguus develops along a rostrocaudal temporospatial gradient. Evidence indicates that function of nucleus ambiguus neurons, manifested by fetal reflex swallowing, occurs after the cells migrate into their definitive position, establish the definitive nuclear pattern, and exhibit mature characteristics.     

Multimerization and DNA Binding Properties of INI1/hSNF5 and Its Functional Significance

INI1/hSNF5/BAF47/SMARCB1 is an HIV-1 integrase (IN)-binding protein that modulates viral replication in multiple ways. A minimal IN-binding domain of INI1, S6 (amino acids 183–294), transdominantly inhibits late events, and down-modulation of INI1 stimulates early events of HIV-1 replication. INI1 both stimulates and inhibits in vitro integration depending on IN concentration. To gain further insight into its role in HIV-1 replication, we purified and biochemically characterized INI1. We found that INI1 forms multimeric structures. Deletion analysis indicated that the Rpt1 and Rpt2 motifs form the minimal multimerization domain. We isolated mutants of INI1 that are defective for multimerization using a reverse yeast two-hybrid system. Our results revealed that INI1 residues involved in multimerization overlap with IN-binding and nuclear export domains and are required for nuclear retention and co-localization with IN. Multimerization-defective mutants are also defective for mediating the transdominant effect of INI1-S6-(183–294). Furthermore, we found that INI1 is a minor groove DNA-binding protein. Although IN binding and multimerization are required for INI1-mediated inhibition, the acceptor DNA binding property of INI1 may be required for stimulation of in vitro strand transfer activities of IN. Binding of INI1 to IN results in the formation of presumably inactive high molecular weight IN-INI1 complexes, and the multimerization-defective mutant was unable to form these complexes. These results indicate that the multimerization and IN binding properties of INI1 are necessary for its ability to both inhibit integration and influence assembly and particle production, providing insights into the mechanism of INI1-mediated effects in HIV-1 replication.HIV-1³ replication is a dynamic process that is modulated by the interaction of several host cellular proteins (1). A genome-wide siRNA-mediated knockdown indicated that hundreds of host factors are involved in the stimulation or inhibition of HIV-1 replication (2). Understanding the interplay between the host proteins and the HIV-1 viral proteins is essential to fully comprehend the dynamic relationship between the virus and the host.INI1/hSNF5/BAF47/SMARCB1 is a core component of the SWI/SNF chromatin-remodeling complex. It interacts directly with the HIV-1-encoded integrase (IN) required for the integration of the viral DNA into the host chromosome (3, 4). IN mediates the insertion of viral cDNA into host chromosomal DNA by sequential steps of 3′ processing and strand transfer (or joining) (4, 5). INI1 binds directly to HIV-1 IN in vitro and in vivo and modulates several steps of HIV-1 replication (3, 6–8). The ectopically expressed minimal IN-binding domain of INI1 transdominantly and potently inhibits HIV-1 assembly and particle production (8). The inhibitory effect is dependent on IN-INI1 interaction and is abrogated when an IN mutant defective for interaction with INI1 is used (8). Furthermore, particle production is minimal in cells lacking INI1, and reintroduction of INI1 into these cells can partially correct the defect (6). These results indicate that INI1 is required for HIV-1 late events. Additional studies have indicated that INI1 is selectively incorporated into HIV-1 but not other retroviral and lentiviral particles (9). Virally encapsidated INI1 is required for post-entry early events of HIV-1 replication prior to integration (6). These studies indicate that producer cell-associated as well as virion-associated INI1 is required for HIV-1 replication. Contrary to these proviral functions of INI1, siRNA-mediated knockdown studies indicate that INI1 in the target cells inhibits early events of HIV-1 replication (7). These studies indicate that whereas INI1 in the target cells may act as an antiviral host protein, HIV-1 may subvert the INI1 antiviral effect, and HIV-1 may utilize this host factor for late events in the producer cells and for early preintegration events in the target cells. Interestingly, in an earlier study, we demonstrated that partially purified INI1 both inhibits and stimulates in vitro integration in a manner dependent on IN concentration (3). Although INI1 stimulates in vitro strand transfer reactions at low IN concentrations, it inhibits the reaction at high concentrations (3). Further structure-function analysis of INI1 is required to understand this complex and dual role of INI1 during HIV-1 replication.INI1 gene is also a tumor suppressor that is biallelically deleted in aggressive pediatric cancers known as rhabdoid tumors (10). INI1 mutations have been found in other soft tissue cancers (11–13). The mechanism of INI1-mediated tumor suppression is not fully understood. INI1 protein has two highly conserved domains that are imperfect direct repeats (termed Rpt1 and Rpt2) of each other and a third conserved coiled coil domain (termed homology region 3 or HR3) at the C terminus. The Rpt1 and Rpt2 domains appear to be involved in protein-protein interaction with various cellular and viral proteins (3, 14–18). Additionally, the Rpt2 domain harbors a masked nuclear export signal, and the C-terminal domain is involved in inhibiting the nuclear export of the protein in the steady state. INI1 exhibits nonspecific DNA binding activity (18). The cancer-associated mutations occur throughout the open reading frame of the INI1 gene, suggesting that mutation in any one of the INI1 domains may inactivate the protein and that multiple domains are required for its function (19–21).To gain further insight into the mechanism of its action, we purified INI1 protein to homogeneity and characterized it biochemically. Here we report, for the first time, that INI1 forms dimeric and higher order multimeric structures. We have characterized the multimerization domain of INI1 and found that multimerization and IN binding activities of INI1 are required for inhibition of in vitro integration. Furthermore, we found that the multimerization, IN binding, and nuclear export properties of INI1 are important for transdominant effects. In addition, we found that INI1 possesses a minor groove DNA binding activity and that the nonspecific acceptor DNA binding activity of INI1 may be required for stimulation of in vitro integration. Finally, we found that multimerization of the full-length protein is necessary for its ability to be retained in the nucleus and to co-localize with HIV-1 IN in the nucleus. Thus, our studies provide novel insights into the mechanism by which INI1 regulates HIV-1 replication.     

Meningeal calcification of the rat pineal organ. Finestructural localization of calcium-ions

The surface of the pineal organ of the rat is covered by a leptomeningeal tissue, the continuation of the corresponding meningeal layers of the diencephalon. The pineal leptomeninx consists of stratified arachnoid and of pia mater cells which follow the vessels into the pineal nervous tissue. The pineal arachnoid contains electron-lucent and electron dense cells differing from each other in their cytoplasmic components. Corpora arenacea of various size and density occur among these arachnoid cells and can grow into the pineal organ alongside pia mater tissue. Acervuli often form groups in circumscribed meningeal "calcification foci". Concrements are absent or rare in the 1- and 2-month-old animal, while they are usually present in the 4- and 6-month-old rats. The electronmicroscopic localization of Ca-ions was studied in 2- and 4-month-old rats by potassium pyroantimonate cytochemistry. In the 4-month-old animals, arachnoid cells containing a varying amount of Ca-pyroantimonate deposits were found first of all around corpora arenacea, but there were also cells free of deposits in the close vicinity of the acervuli. Deposits were preferentially localized to the cytoplasm of electron dense arachnoid cells and to the cell membrane of electron-lucent cells. Most of the precipitates occurred in locally enlarged intercellular spaces. Here, microacervuli were found in 4-month-old animals suggesting that a calcium-rich environment was responsible for the appearance of the concrements. Intermediate stages between the small acervuli and large concentric corpora arenacea may indicate an appositional growth of the acervuli in the calcification foci.(ABSTRACT TRUNCATED AT 250 WORDS)     

BEX2与INI1/hSNF5蛋白的相互作用及其在细胞周期中的功能鉴定

BEX2(Brain expressed X-linked protein 2)分子量约为13 kDa,高表达于人的脑和睾丸中。据报道,该蛋白在胚胎发育中表达量变化巨大,提示该蛋白可能在胚胎发育中具有重要作用,但迄今为止,其功能知之甚少。文章应用酵母双杂交系统,以BEX2为"诱饵"蛋白,筛选发现INI1/hSNF5是BEX2的一个结合蛋白。INI1/hSNF5是SWI/SNF染色质重塑复合体的核心组分,是"表观遗传"分子机制中的重要成员。文章通过体外GST Pull-down实验验证,BEX2与INI1/hSNF5之间的相互作是直接并且特异的。通过进一步的缺失突变分析,表明INI1/hSNF5的两个保守的反向重复序列是BEX2的结合区域。该区域是SNF5与多种蛋白相互作用的结构平台。亚细胞定位分析显示BEX2与INI1/hSNF5都主要集中分布于细胞核,这表明二者之间的相互作用可能参与基因表达调控的过程。文章进一步对此相互作用的功能进行了探讨,发现BEX2通过与INI1/hSNF5的相互作用从而影响细胞周期。     

Prenatal development of the intrinsic nerves of the muscles of the human foot

Myelogenesis and blood supply of the intraorganic nerves have been studied in 4-6- and 7-9-month-old human fetuses. At first, the intramuscular nerves are presented as very thick fasciculi (the diameter is more than 90), thick (the diameter is from 50 up to 90) and single muddle neural fasciculi (the diameter is from 30 up to 50 mcm). The microcirculatory blood bed is formed at the expense of branches of the blood vessel-satellites and the blood vessels of the surrounding tissues and is carried out, without any interruption, along the whole extent. In 7-9-month-old fetuses the neural apparatus becomes more complex. The number of the middle neural fasciculi appear. On the background of fine neural fibers in the fasciculi a small part of the middle neural fibers appears, and in the musculus flexor digitorum brevis--single thick neural fibers. The intramuscular nerves have their own hemocirculatory bed presented by microvessels that are on the perineurium surface, in its bulck and among neural fibers.     

Malignant rhabdoid tumor of the kidney in a child: report of a case with recurrence in the contralateral kidney

BACKGROUND: Malignant rhabdoid tumor (MRT) of the kidney is a rare and aggressive neoplasm with a controversial histogenesis. Although their immunohistochemistry may be diverse, the rhabdoid phenotype and mutations of the INI1 gene are consistently exhibited by MRTs regardless of their location. CASE: MRT recurred in the contralateral kidney in a 12-month-old child within 6 months after the initial histologic diagnosis, nephrectomy and autologous stem cell transplant. The presence of widespread metastases at the time of the recurrence precluded any further chemical and surgical diagnostic or therapeutic intervention. CONCLUSION: To the best of our knowledge, only a few cases describing the cytologic diagnosis of MRT of the kidney in a child have been reported. This case illustrates the usefulness of cytologic diagnosis in an MRT recurrence.     

The window and mechanisms of major age-related decline in the production of new neurons within the dentate gyrus of the hippocampus

While it is well known that production of new neurons from neural stem/progenitor cells (NSC) in the dentate gyrus (DG) diminishes greatly by middle age, the phases and mechanisms of major age-related decline in DG neurogenesis are largely unknown. To address these issues, we first assessed DG neurogenesis in multiple age groups of Fischer 344 rats via quantification of doublecortin-immunopositive (DCX+) neurons and then measured the production, neuronal differentiation and initial survival of new cells in the subgranular zone (SGZ) of 4-, 12- and 24-month-old rats using four injections (one every sixth hour) of 5'-bromodeoxyuridine (BrdU), and BrdU-DCX dual immunostaining. Furthermore, we quantified the numbers of proliferating cells in the SGZ of these rats using Ki67 immunostaining. Numbers of DCX+ neurons were stable at 4-7.5 months of age but decreased progressively at 7.5-9 months (41% decline), 9-10.5 months (39% decline), and 10.5-12 months (34% decline) of age. Analyses of BrdU(+) cells at 6 h after the last BrdU injection revealed a 71-78% decline in the production of new cells per day between 4-month-old rats and 12- or 24-month-old rats. Numbers of proliferating Ki67+ cells (putative NSCs) in the SGZ also exhibited similar (72-85%) decline during this period. However, the extent of both neuronal differentiation (75-81%) and initial 12-day survival (67-74%) of newly born cells was similar in all age groups. Additional analyses of dendritic growth of 12-day-old neurons revealed that newly born neurons in the aging DG exhibit diminished dendritic growth compared with their age-matched counterparts in the young DG. Thus, major decreases in DG neurogenesis occur at 7.5-12 months of age in Fischer 344 rats. Decreased production of new cells due to proliferation of far fewer NSCs in the SGZ mainly underlies this decline.     

NGF restores decrease in catalase activity and increases superoxide dismutase and glutathione peroxidase activity in the brain of aged rats.

The effects of ageing on the activity of copper-zinc superoxide dismutase (SOD), selenium-dependent and independent glutathione peroxidase (GSH-Px) and catalase in several areas of the brain in 3-, 12-, and 24-month-old rats were studied. In addition, the effects of a subacute intracerebroventricular treatment of NGF (1 microgram daily for 28 consecutive days) on SOD, GSH-Px, and catalase activity in the same areas of the brain were assessed. The effects of ageing on the activities of antioxidant enzymes varied considerably in the different brain areas studied. Copper-zinc SOD was alone in being unaffected by ageing. Intraventricular infusion of NGF significantly increased SOD activity in the prefrontal cortex, hypothalamus, caudate nucleus, and mesencephalon of 24-month-old rats. Selenium-dependent GSH-Px activity did not significantly change in 12-month-old rats but it increased in the lower brain stem of 24-month-old animals. In comparison to vehicle-treated rats, NGF significantly increased selenium-dependent GSH-Px activity in all brain areas studied in 12- and 24-month-old rats. Catalase activity decreased significantly in the majority of the brain areas studied in 12- and 24-month-old rats. NGF completely restored the fall in catalase activity in 12- and 24-month-old animals to levels similar to those occurring in young rats. In conclusion, the present experiments show, for the first time, that long-term intraventricular administration of NGF significantly increases in old animals the activity of key enzymes involved in the metabolic degradation of superoxide radicals and hydrogen peroxide.     

Transient serotonin-immunoreactive neurons coincide with a critical period of neural development in coho salmon (Oncorhynchus kisutch)

Summary In coho salmon (Oncorhynchus kisutch), smolt transformation has been shown to be associated with sequential surges of neurotransmitters in the brain. In order to determine if the surge of serotonin (5-HT) is correlated with structural changes, we have used immunocytochemistry to observe changes in the serotonin immunoreactivity before, during and after the 5-HT surge. The following stages were studied: 12-month-old freshwater presmolts, 17-month-old freshwater presmolts, 18-month-old saltwater smolts, 19-month-old saltwater postsmolt, 24-month-old postsmolt, and adult spawners. In the 17-month-old samples, but not at any other stage, we found a set of transient (serotonin-immunoreactive) 5-HT-immunoreactive neurons in the lateral preoptic area, as well as a discrete population of 5-HT-immunoreactive neurons in the lateral part of the dorsal right habenular nucleus. In addition, a higher density of serotonergic fibers was found in the telencephalon at this stage compared to the following two stages. Since the transient 5-HT-immunoreactive structures presented here do not appear simultaneously with the 5-HT total brain concentration surge, we conclude that they are unlikely to be the source of the 5-HT surge, but are probably related to other developmental changes in the brain associated with smolt transformation.     

Meningeal calcification of the rat pineal organ

Summary The surface of the pineal organ of the rat is covered by a leptomeningeal tissue, the continuation of the corresponding meningeal layers of the diencephalon. The pineal leptomeninx consists of stratified arachnoid and of pia mater cells which follow the vessels into the pineal nervous tissue. The pineal arachnoid contains electron-lucent and electron dense cells differing from each other in their cytoplasmic components. Corpora arenacea of various size and density occur among these arachnoid cells and can grow into the pineal organ alongside pia mater tissue. Acervuli often form groups in circumscribed meningeal calcification foci. Concrements are absent or rare in the 1- and 2-month-old animal, while they are usually present in the 4- and 6-month-old rats.The electronmicroscopic localization of Ca-ions was studied in 2- and 4-month-old rats by potassium pyroantimonate cytochemistry. In the 4-month-old animals, arachnoid cells containing a varying amount of Ca-pyroantimonate deposits were found first of all around corpora arenacea, but there were also cells free of deposits in the close vicinity of the acervuli. Deposits were preferentially localized to the cytoplasm of electron dense arachnoid cells and to the cell membrane of electron-lucent cells. Most of the precipitates occurred in locally enlarged intercellular spaces. Here, microacervuli were found in 4-month-old animals suggesting that a calcium-rich environment was responsible for the appearance of the concrements. Intermediate stages between the small acervuli and large concentric corpora arenacea may indicate an appositional growth of the acervuli in the calcification foci. Occasionally, acervuli were also located inside meningeal cells.There was no sign of the formation of acervuli in the pinealocytes or elsewhere in the pineal nervous tissue proper, in the age interval (1- to 6-month-old animals) studied. These findings confirm the view that corpora arenacea can be produced in the rat by the pineal leptomeninx. The laboratory rat seems to be usefull in studying pineal calcification of the meningeal type.Supported by the Hungarian OTKA grant Nr. 1619 to B.V.     

Morphofunctional characteristics of the thyroid gland in intact and partially sympathectomized rats of different age groups

The morphological and functional age-dependent changes have been studied in the thyroid gland of infantile (1-month-old), immature (2- and 3-month-old) and sexually mature (6-month-old) male rats. The decrease in thyroid functional activity with ageing was proved. Chemical sympathectomy (guanethidine at a dose of 15 mg/kg intramuscularly for 14 days after birth) was accompanied not only by morphological reconstruction of the thyroid tissue, but also (especially in 1-month-old rats) by a delay in transport-organic phase of iodine metabolism and a decline in thyroid hormone serum level. Later on, the compensatory hormonogenesis reinforcement occurs as a result of partial adrenergic innervation recovery.     

HeLa细胞中INI1通过与E2A作用下调CD117

目的:已经证明,CD117基因转录启始位点的上游-480bp包括4个E-box和一个GC-box。试验要确定INI1是否通过与E-box结合蛋白的相互作用来调控CD117。方法与结果:实验证明INI1过表达下调 CD117的mRNA水平和荧光素酶的活性,这个酶通过CD117启动子来启动。通过染色质共免疫沉淀反应实验,发现在HeLa细胞未损伤的染色质里面,INI1可以特定的结合CD117的启动子。绘制INI1在CD117启动子区域的结合位点图表明, E-boxes而不是GC-box对于下调CD117启动子的活性是必须的,这一点在Co-IP(共免疫沉淀)实验中被进一步的证实,在这个试验中INI1与E-box结合蛋白E2A在体内相互作用。结论:总的来说,INI1参与调节CD117的表达和细胞增殖。