Purification of human fetal hippocampal neurons by flow cytometry for transplantation

We have established primary cultures, highly enriched in neurons, from the hippocampus of human fetal brains at 20-23 gestational weeks. More than 80% of cells were viable when seeded. Neurons were isolated from primary cultures by flow cytometry to a high degree of purity, as demonstrated by immunocytochemical staining. FACS scanning analysis using a DNA-staining dye showed that hippocampal neurons did not divide in culture. To demonstrate that FACS-sorted neurons can be transplanted and integrated into the host brain, neuron-enriched primary culture from human fetal striatum was infected with a viral-mediated vector containing a reporter gene, beta-galactosidase. Striatal neurons were subsequently purified by flow cytometry and transplanted into the striatum of rats. Following transplantation, the rat brains were processed for beta-galactosidase histochemistry and electron microscopy. Beta-galactosidase expression indicates that transplanted human neurons survived in the host and were metabolically active. The transplanted neurons received synaptic inputs, as judged from the presence of presynaptic terminals on their surface. Our study demonstrates connectivity between transplanted human fetal primary neurons and host tissue at the ultrastructural level. Our results support the feasibility of ultimately transplanting neurons into humans as a possible treatment for recovery of the nervous system (e.g., neurodegenerative diseases).     

Dopaminergic characteristics of isolated parietal cells from rats

Recently we have identified a dopamine-producing system in the gastric mucosa of rats. All the available morphological data suggest that parietal cells synthesize dopamine. In the present study we investigated the dopaminergic characteristics of isolated parietal cells by different methods. Mixed gastric mucosal cells were isolated and size-fractionated by elutriation. The proportion of neurons, parietal and endocrine cells in the fractions were determined by immunocytochemistry (ICC) using antibodies to neurofilament, proton pump and chromogranin A, respectively. No neurons were found in any of the cell preparations, while 56% parietal cell and 0.0% endocrine cell were achieved in the parietally enriched fraction. By Western blot, a tyrosine hydroxylase (TH, the rate-limiting enzyme of the catecholamine synthesis) immunoreactive protein species was demonstrated in isolated mucosal cells, comigrating with the TH immunoreactivity from PC12 cells. The TH immunoreactivity was colocalized to parietal cells by ICC. Dopamine transporter (DAT), a regulator of extracellular/intracellular dopamine balance in the nervous system, was also demonstrated in parietal cells. A significant amount of dopamine and DOPA were measured by HPLC (13.4 and 9.57 pg/10⁶ cell, respectively) in parietally enriched cell fraction. Since this enriched cell fraction was virtually clear of both neurons and endocrine cells, demonstration of TH enzyme, DAT and dopamine in this fraction confirms that the parietal cell population might be a major source of dopamine in the rat stomach, supporting our previous results achieved using whole tissue samples.     

Luteinizing hormone-releasing factor (LRF)-like immunoreactivity in rat pancreatic islet cells.

Luteinizing hormone-releasing factor (LRF)-like immunoreactive material was demonstrated by the three-layer immunoperoxidase method in formalin-fixed tissue sections of the rat pancreas. Anti-LRF antiserum was prepared in rabbits by immunizing with synthetic LRF coupled to bovine serum albumin (BSA). The immunoreactive site of LRF reacting with antiserum resided between residues Tyr⁵ and Gly¹⁰-NH₂. A positive staining reaction was observed in the islet cells with the use of anti-LRF antiserum after solid phase immunoadsorption with BSA, whereas no staining was observed when adjacent control sections were prepared with anti-LRF antiserum after immunoadsorption with an LRF-BSA conjugate, or with rabbit anti-oxytocin antiserum. LRF-like immunoreactive material was isolated from the rat pancreata by methanol extraction. This material coeluted with synthetic and hypothalamic LRF in cation exchange chromatography on carboxymethyl cellulose, and dilutions of it gave an inhibition curve parallel to that of synthetic LRF in radioimmunoassay. The concentration of LRF-like material in the rat pancreas is 1.1 pg/mg wet weight. These results suggest that LRF or a closely LRF-related peptide is shared by the central nervous system and the gastrointestinal tract.     

Relative sparing of calcitonin gene-related peptide-containing primary sensory neurons following neonatal capsaicin treatment in the rat

Calcitonin gene-related peptide (CGRP)-containing sensory neurons projecting to viscera or skin were detected by immunocytochemistry combined with fluorescent tracer in the dorsal root ganglia (Th9-10) of rats 5-6 weeks old treated neonatally with capsaicin. The number of CGRP-like immunoreactive (IR) cells were reduced by 50-60% with capsaicin treatment. Visceral CGRP-IR sensory neurons were shown to be more sensitive than cutaneous ones, which was also supported by the fact that CGRP-IR fibers in the stomach were completely diminished while epidermal CGRP-IR fibers were spared.     

Galanin-like peptide and ghrelin increase cytosolic Ca2+ in neurons containing growth hormone-releasing hormone in the arcuate nucleus

Galanin-like peptide (GALP), discovered in the porcine hypothalamus, is expressed predominantly in the arcuate nucleus (ARC), a feeding-controlling center. Intracerebroventricular injection of GALP has been shown to stimulate food intake in the rats. However, the mechanisms underlying the orexigenic effect of GALP are unknown. The present study aimed to determine the target neurons of GALP in the ARC. We investigated the effects of GALP on cytosolic free Ca2+ concentration ([Ca2+]i) in the neurons isolated from the rat ARC, followed by neurochemical identification of these neurons by immunocytochemistry using antisera against growth hormone-releasing hormone (GHRH), neuropeptide Y (NPY) and proopiomelanocortin (POMC), the peptides localized in the ARC. GALP at 10(-10) M increased [Ca2+]i in 11% of single neurons of the ARC, while ghrelin, an orexigenic and GH-releasing peptide, at 10(-10) M increased [Ca2+]i in 35% of the ARC neurons. Some of these GALP- and/or ghrelin-responsive neurons were proved to contain GHRH. In contrast, NPY- and POMC-containing neurons did not respond to GALP. These results indicate that GALP directly targets GHRH neurons, but not NPY and POMC neurons, and that ghrelin directly targets GHRH neurons in the ARC. The former action may be involved in the orexigenic effect of GALP and the latter in the GH-releasing and/or orexigenic effects ghrelin.     

Preparation of single cells from pancreatic islets of adult rat by the use of dispase.

A high yield of viable single cells was attained from isolated pancreatic islets of adult rat by the sequential treatment with EDTA and Dispase. The percentage of single cells was consistently higher with EDTA-Dispase in comparison with EDTA-trypsin treatment, being 65.8 +/- 7.9% and 36.0 +/- 5.4% respectively, when more than 90% of total islet cells were viable. Excellent preservation of free islet cells dissociated with EDTA-Dispase was demonstrated morphologically by light and electron microscopy. The secretory response of dissociated B cells to glucose was stabilized earlier with EDTA-Dispase than with EDTA-trypsin treatment. The amount of insulin released into the medium was proportional to the number of cells inoculated, thus permitting the quantitative analysis of B-cell function in vitro.     

Augmentation by naloxone of efflux of LRF from superfused medial basal hypothalamus

The effects of naloxone and β-endorphin (β-EP) on the efflux of luteinizing hormone releasing factor (LRF) from superfused rat medial basal hypothalamus (MBH) were determined. After an equilibration period of 2.5 hrs with Medium 199 at 37°C 0.5 ml fractions were collected. Infusion of medium containing 150 mM KCl for 10 min produced a prompt 4-fold rise in LR$\text{F}$ efflux. Injection of naloxone, but not medium alone, into the system significantly increased the effluent concentration of LRF from female (N = 6) MBH's by 177% (P < 0.01) and from male (N = 5) MBH's by 108% (P < 0.05). Administration of β-EP did not significantly alter LRF efflux. However, β-EP did nullify the LRF-stimulating effect of naloxone, when an equimolar mixture of β-EP and naloxone was injected. We conclude that naloxone-sensitive opiate receptors exert a tonic inhibitory effect on tuberoinfundibular LRF neurons. This action does not require the intermediation of brain centers outside the MBH.     

Vasopressin neurons grafted into Brattleboro rats: Viability and activity

Blocks of the anterior hypothalamus containing vasopressin neurons were grafted from normal 17-day-old rat fetuses into the median eminence of adult female rats with a congenital deficiency of vasopressin neurons (Brattleboro strain rats). Immunocytochemical staining of the transplants 40 days after grafting demonstrated the presence of magnocellular neurons which stained positively for vasopressin and neurophysin. Axons from these neurons could be traced into the median eminence and the primary capillary plexus of the hypothalamo-hypophyseal portal system. Water consumption decreased by as much as 63% in animals carrying viable grafts. The observation that water consumption decreased and remained depressed in hosts carrying viable grafts along with the immunocytochemical data suggest that the transplanted neurons are synthesizing, storing, and releasing biologically active VP.     

Specific asparagine-linked oligosaccharides are not required for certain neuron-neuron and neuron-Schwann cell interactions

To determine whether specific asparagine-linked (N-linked) oligosaccharides present in cell surface glycoproteins are required for cell-cell interactions within the peripheral nervous system, we have used castanospermine to inhibit maturation of N-linked sugars in cell cultures of neurons or neurons plus Schwann cells. Maximally 10-15% of the N-linked oligosaccharides on neuronal proteins have normal structure when cells are cultured in the presence of 250 micrograms/ml castanospermine; the remaining oligosaccharides are present as immature carbohydrate chains not normally found in these glycoproteins. Although cultures were treated for 2 wk with castanospermine, cells always remained viable and appeared healthy. We have analyzed several biological responses of embryonic dorsal root ganglion neurons, with or without added purified populations of Schwann cells, in the presence of castanospermine. We have observed that a normal complement of mature, N-linked sugars are not required for neurite outgrowth, neuron-Schwann cell adhesion, neuron-induced Schwann cell proliferation, or ensheathment of neurites by Schwann cells. Treatment of neuronal cultures with castanospermine increases the propensity of neurites to fasciculate. Extracellular matrix deposition by Schwann cells and myelination of neurons by Schwann cells are greatly diminished in the presence of castanospermine as assayed by electron microscopy and immunocytochemistry, suggesting that specific N-linked oligosaccharides are required for the expression of these cellular functions.     

Vibrodissociation of Neurons from Rodent Brain Slices to Study Synaptic Transmission and Image Presynaptic Terminals

Mechanical dissociation of neurons from the central nervous system has the advantage that presynaptic boutons remain attached to the isolated neuron of interest. This allows for examination of synaptic transmission under conditions where the extracellular and postsynaptic intracellular environments can be well controlled. A vibration-based technique without the use of proteases, known as vibrodissociation, is the most popular technique for mechanical isolation. A micropipette, with the tip fire-polished to the shape of a small ball, is placed into a brain slice made from a P1-P21 rodent. The micropipette is vibrated parallel to the slice surface and lowered through the slice thickness resulting in the liberation of isolated neurons. The isolated neurons are ready for study within a few minutes of vibrodissociation. This technique has advantages over the use of primary neuronal cultures, brain slices and enzymatically isolated neurons including: rapid production of viable, relatively mature neurons suitable for electrophysiological and imaging studies; superior control of the extracellular environment free from the influence of neighboring cells; suitability for well-controlled pharmacological experiments using rapid drug application and total cell superfusion; and improved space-clamp in whole-cell recordings relative to neurons in slice or cell culture preparations. This preparation can be used to examine synaptic physiology, pharmacology, modulation and plasticity. Real-time imaging of both pre- and postsynaptic elements in the living cells and boutons is also possible using vibrodissociated neurons. Characterization of the molecular constituents of pre- and postsynaptic elements can also be achieved with immunological and imaging-based approaches.     

Characterization of neurotransmitter phenotype during neuronal differentiation of embryonal carcinoma cells

Embryonal carcinoma cells are useful in the study of embryogenesis and development, and their differentiation into neurons serves as a model of neuronal development. Retinoic acid was used to differentiate P19S18O1A1 embryonal carcinoma cells into neuronal, glial, and fibroblast-like cells and the phenotype of the neuronal population was examined. Neuron-specific enolase was present in the neuronal cells, suggesting that these neurons had reached some degree of maturity. A population (approximately 70%) of the neurons showed positive immunocytochemistry for tyrosine hydroxylase, dopamine beta-hydroxylase and phenylethanolamine N-methyltransferase, three enzymes in the pathway of catecholamine synthesis. Therefore a population of the neurons appeared to be adrenergic. These neurons also showed a low level of histofluorescence for endogenous catecholamines and exhibited an exogenous catecholamine reuptake system. In order to determine the phenotype of other neuron-like cells found to be negative for the adrenergic properties examined, immunocytochemistry for neuropeptides and neurotransmitters known to coexist within central neurons was performed. Serotonin, vasoactive intestinal peptide, glutamic acid decarboxylase, and choline acetyltransferase were all absent from retinoic acid-treated P19S18O1A1 neuronal cultures. These studies, along with those that compare the effects of retinoic acid and other growth modulators on neuronal differentiation of embryonal carcinoma cells, should aid in the understanding of neuronal induction and development in vivo.     

Rapid adhesion of nerve cells to muscle fibers from adult rats is mediated by a sialic acid-binding receptor

Single viable muscle fibers isolated from adult rats by collagenase digestion rapidly bind dissociated spinal neurons or PC-12 cells but not a variety of other cells tested. The adhesion process is calcium-independent, temperature-sensitive, and is not blocked by pretreating cells with inhibitors of energy metabolism or actin polymerization. Adhesion is mediated by a carbohydrate-binding protein and can be inhibited by N-acetylneuraminic acid or mucin, a glycoprotein with high sialic acids content. The hapten inhibitors do not dissociate cells if added after aggregation has occurred. Experiments to block adhesion by pretreatment of cells with either neuraminidase or mucin show that the sialic acids-rich moiety is on the nerve cells, while its receptor is on the muscle fibers.     

骨髓间充质干细胞源神经细胞移植治疗帕金森病大鼠模型

目的探讨骨髓间充质干细胞（mesenchymal stemcells,MSCs）源神经细胞脑内移植对帕金森病（Parkinson s disease,PD）大鼠的治疗作用。方法贴壁培养法分离、培养大鼠骨髓MSCs,脑匀浆上清诱导第3代MSCs向神经细胞分化,采用免疫细胞化学法鉴定诱导分化后细胞的性质,激光共聚焦显微镜检测诱导前后细胞Ca2＋浓度变化,6只PD大鼠行纹状体内MSCs源神经细胞移植作为细胞移植组,6只PD大鼠作为对照组。细胞移植术后4周检测PD大鼠的行为变化,观察移植细胞在脑内的分布情况。结果倒置显微镜下可见MSCs呈纺锤形和多角形,有1～2个核仁,MSCs经脑匀浆上清诱导后其胞体折光性增强,发出数个细长突起,互相交织成网,有的似轴突。诱导后细胞表达神经元特异性标志物神经元特异性烯醇化酶（NSE）和神经丝蛋白（NF）,胞质Ca2＋荧光强度显著增强,可推测诱导后的细胞为MSCs源神经细胞,将BrdU标记的MSCs源神经细胞移植到PD大鼠纹状体治疗4周后,可见细胞散在分布于注射侧脑组织,有少量细胞可迁移到对侧脑组织,PD大鼠的旋转行为得到显著改善。结论MSCs源神经细胞移植治疗帕金森病大鼠可使其旋转行为得到改善。     

Immunofluorescence study of LRF neurons in man

Summary Human LRF neurons were characterized by immunofluorescence, using rabbit immunesera against unconjugated synthetic LRF, previously adsorbed on polyvinylpyrrolidone.These neurons, which vary in number from one specimen to another, are mainly concentrated in the mediobasal hypothalamus (infundibular and premammillary nuclei in particular) and in the lamina terminalis and the neighbouring preoptic area. They give rise respectively to a hypothalamoinfundibular LRF tract (ending around the capillaries of the primary portal plexus of the infundibulum) and to a preoptico-terminal tract (ending mainly around the capillaries of the primary and secondary plexuses of the vascular organ of the lamina terminalis and, in addition, between the ependymal cells lining its ventricular surface). It is suggested that these two tracts could be implicated in the tonic and cyclic control of gonadotropic secretion.Some reactive neurons are also present in the septal and pericommissural regions and in the retromammillary area and rostral mesencephalon. These neurons give rise to various extrahypophyseal LRF tracts, probably ending in the telencephalon and the brainstem. It is suggested that LRF, in addition to its major prehypophysiotropic action, is able to modulate the activity of certain telencephalic or mesencephalic structures.I should like to thank Dr. E. Farkas (Head of U. 154 INSERM and Laboratory of Neuropathology, Saint Vincent de Paul Hospital, Paris), Prof. Müller (Head of the Institute of Forensic Medicine, Lille) and collaborators (Ag. Prof. Lenoir, Drs. Debarge and Willot) and Prof. Delecour (Head of Salengro Maternity, Lille) for kindly providing human hypothalami     

Cryopreservation of brain tissue for primary culture.

Factors affecting recovery of brain cells from cryopreserved cerebral tissues of fetal rats were examined based on yields of viable cells on cell culture. Favorable preservation was obtained with freezing small pieces (less than 1 mm cube) of brain tissues rather than whole tissues or dissociated single cells, and use of 10% dimethylsulfoxide as a cryoprotectant in liquid nitrogen. As for cell preparation procedures, cell survival was improved when tissues were heated at 32 degrees C during papain digestion and centrifugation. Under favorable conditions, the number of brain cells recovered from cryopreserved tissues corresponded to 20-30% of those from fresh control tissues. Immunocytochemical characteristics of cultured neurons, astrocytes, and oligodendrocytes from cryopreserved and fresh tissues were indistinguishable. Semi-quantitive analyses of microtubule-associated protein-2 (MAP-2) and synaptophysin revealed that there was no difference in the amounts of these markers between cultures from both fresh and cryopreserved tissues. These results suggest that most of all cell types including neurons were equally susceptible to the cryopreservation procedures. We concluded that cryopreservation in liquid nitrogen is an effective method for preservation of embryonic brain tissues for later use in cell culture studies.     

Hydralazine, but not Captopril, Decreases Free Radical Production and Apoptosis in Neurons and Thymocytes

The effects of captopril and hydralazine, two commonly used antihypertensive drugs, on free radical generation and the onset of apoptosis in neuron and thymocyte preparations from 10-12 day old rats have been studied. Apoptosis was induced in neurons by kainate or N-methyl-D-aspartate and in thymocytes by heat shock. Intracellular free radical production was measured by 2',7'-dichlorofluorescein fluorescence, and apoptotic cells were detected by cell staining with fluorescein-labelled annexin V. Captopril was found to have no effect on intracellular free radical generation and also had no significant effect on the early stages of apoptosis in neurons and thymocytes. In contrast, hydralazine was found to decrease free radical generation in both neurons and thymocytes, and it also significantly decreased the numbers of apoptotic cells when neurons and thymocytes were stimulated for apoptosis. Hydralazine had a greater effect on decreasing free radical generation in neurons than in thymocytes, but it had a more pronounced effect on decreasing apoptosis in thymocytes compared to neurons, suggesting that apoptosis, under our experimental conditions, may not solely be triggered by free radical generation. These results contrast with earlier reports that captopril is a free radical scavenger and can decrease apoptosis in T-lymphocytes and cardiomyocytes, and the results obtained with hydralazine are in apparent disagreement with earlier reports that this drug is a free radical generator and can cause intracellular damage suggestive of enhanced free radical formation.     

Isolation of alveolar type II cells from fetal rat lung by differential adherence in monolayer culture

Type II alveolar epithelial cells were isolated from fetal rat lung by differential adherence in monolayer culture. The preparation had a high degree of purity, as assessed by phase contrast microscopy and immunocytochemistry. Purity, based on reactivity with specific anti-adult lung serum (SAALS), which recognizes only type II cells, was 91% for cells isolated from 19-day fetal lungs and 79% for cells isolated from 21-day fetal lungs. The lower purity of type II cells in cultures derived from 1-day postnatal rat lungs (51% cells reactive with SAALS) is probably due to a lower tendency of the type II cells from neonatal rats to adhere to culture dishes than of type II cells from fetal rats. Type II cells isolated from 21-day fetal lungs contained a higher percentage phosphatidylglycerol and incorporated [Me-3H]choline faster into phosphatidylcholine (PC) than type II cells isolated from 19-day fetal lungs. Moreover, in cell preparations derived from lungs at fetal day 21, a higher percentage of epithelial cells contained lamellar bodies than in preparations derived from lungs at fetal day 19. The observation of these differences in the stage of maturation indicates that these differences, which are typical features of the original material, are not obliterated by differentiation during the culture. Type II cells isolated according to the present procedure were capable of synthesizing PC with a high percentage of the disaturated species. This method for the isolation of fetal type II cells may be a useful tool in studies concerning surfactant synthesis and its regulation in the fetal lung.     

Patient‐derived olfactory mucosa for study of the non‐neuronal contribution to amyotrophic lateral sclerosis pathology

Amyotrophic lateral sclerosis (ALS) is a degenerative motor neuron disease which currently has no cure. Research using rodent ALS models transgenic for mutant superoxide dismutase 1 (SOD1) has implicated that glial–neuronal interactions play a major role in the destruction of motor neurons, but the generality of this mechanism is not clear as SOD1 mutations only account for less than 2% of all ALS cases. Recently, this hypothesis was backed up by observation of similar effects using astrocytes derived from post‐mortem spinal cord tissue of ALS patients which did not carry SOD1 mutations. However, such necropsy samples may not be easy to obtain and may not always yield viable cell cultures. Here, we have analysed olfactory mucosa (OM) cells, which can be easily isolated from living ALS patients. Disease‐specific changes observed when ALS OM cells were co‐cultured with human spinal cord neurons included decreased neuronal viability, aberrant neuronal morphology and altered glial inflammatory responses. Our results show the potential of OM cells as new cell models for ALS.     

Kidney proximal tubular cells isolated by collagenase perfusion grow in defined media in the absence of growth factors

Cells from kidney proximal tubules have been successfully isolated, characterized, and cultured from male Fischer 344 rats between 150-400 g using a two-step collagenase perfusion. The cells undergo high levels of DNA synthesis and mitosis in both serum free media (with an without hormone supplementation) and media containing 10% fetal bovine serum. Confluent monolayers were observed between 5 to 7 days after seeding 2 X 10(5) cell/35 mm collagen-coated plate. Approximately 50% of the total kidney and 70% of the cortex was isolated using this technique. The viability of the isolated tubules was 75 +/- 8% and the estimated number of viable cells was 12 +/- 3 X 10(6) cells. At the time of isolation greater than 90% of the isolated tubules and cells were positive for gamma glutamyltransferase (GGT), periodic acid-schiff (PAS), and glucose-6-phosphatase (G-6-Pase). Both GGT and G-6-Pase decreased rapidly during the first 3 days in primary culture as assessed by histochemistry. Ultrastructurally the isolates consisted of cells with numerous microvilli and mitochondria. The size and number of microvilli decrease rapidly in primary culture. The morphologic and biochemical evidence suggests that the primary isolates and cultures are proximal tubular in origin.