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8. Contributors to Volume 2

Author

Adler, Ruben, primary, Azmitia, Efrain C., additional, Bennett, Barbara A., additional, Berens, Michael E., additional, Bjerkvig, Rolf, additional, Black, Ira B., additional, Bologa, Liane, additional, Bosch, E. Peter, additional, Bottenstein, Jane E., additional, Conn, P. Michael, additional, Crain, Stanley M., additional, Dreyfus, Cheryl F., additional, Dutton, Gary R., additional, Facci, Laura, additional, Faivre-Bauman, Annie, additional, Farooq, Muhammad, additional, Goldsmith, Paul C., additional, Hansen, James R., additional, Herschkowitz, Norbert, additional, Hunter, Samuel F., additional, Jacobson, Marcus, additional, Kris, Richard M., additional, Kuriyama, Kinya, additional, Laerum, Ole Didrik, additional, Lee, Mei, additional, Leon, Alberta, additional, Levine, Jon E., additional, Lim, Ramon, additional, Milani, Daria, additional, Moody, Terry W., additional, Morris, Mariana, additional, Murphy, Sean, additional, Norton, William T., additional, Ohkuma, Seitaro, additional, Ramsdell, John S., additional, Saneto, Russell P., additional, Shahar, Abraham, additional, Skaper, Stephen D., additional, Staley, Julie, additional, Stent, Gunther S., additional, Strobl, Frank J., additional, Stuart, Duncan K., additional, Sundberg, David K., additional, Tixier-Vidal, Andrée, additional, Toffano, Gino, additional, Toran-Allerand, C. Dominique, additional, and Torrence, Steven A., additional

Published
1990
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11. Profiles of Amyloid Precursor and Presenilin 2-Like Proteins are Correlated During Development of the Mouse Hypothalamus

Author

Annie Faivre-Bauman, Jacques Epelbaum, Caroline Apert, Christian Czech, Catherine Loudes, and Laurent Pradier

Subjects
medicine.medical_specialty, Messenger RNA, biology, Neurite, Amyloid, medicine.diagnostic_test, Endocrine and Autonomic Systems, Endocrinology, Diabetes and Metabolism, Cellular and Molecular Neuroscience, Endocrinology, nervous system, Western blot, Hypothalamus, In vivo, Internal medicine, mental disorders, Amyloid precursor protein, biology.protein, medicine, Northern blot, skin and connective tissue diseases, hormones, hormone substitutes, and hormone antagonists
Abstract

The amyloid precursor protein (APP) and APP-like (APLP) material, as visualized with the Mab22C11 antibody, have previously been shown to be associated with radial glia in hypothalamus, which are known to promote neurite outgrowth. By Northern blot analysis, APP 695 mRNA levels increased steadily over hypothalamic development, APP 770 mRNA was transiently expressed at 12 days postnatally, and APLP mRNA was only weakly expressed in the hypothalamus. The developmental pattern of APP moeities in mouse hypothalamus and in fetal hypothalamic neurons in culture was compared with a presenilin 2 (PS2) related protein using an antibody developed against the N-terminal part of PS2. By Western blot analysis, APP and PS2-like immunoreactivity were visualized as a 100-130 and 52 kDa bands, respectively. An APP biphasic increase was observed during hypothalamic development in vivo. APP immunoreactivity was equally detected in neuronal and glial cultures, while PS2-like material was more concentrated in neurons. A correlation between APP/APP-like and PS2-like levels was observed during development in vivo. While APP was mostly associated with membrane fractions, a significant portion of PS2-like material was also recovered from cytosolic fractions in vitro. In contrast to native PS2 in COS-transfected cells, the PS2-like material did not aggregate after heating for 90 s at 90 degrees C. These results indicate a close association between APP and PS2-like material during hypothalamic development in vivo, and suggest that neuronal and glial cultures may provide appropriate models to test their interactions.

Published
2008

12. Selective alteration at the growth-hormone- releasing-hormone nerve terminals during aging in GHRH-green fluorescent protein mice

Author

Patrice Mollard, Danielle Carmignac, Catherine Loudes, Angela Sanchez-Hormigo, Bénédicte Recolin, Pierre-François Méry, Annie Faivre-Bauman, Jacques Epelbaum, Gérard Alonso, Taoufik El Yandouzi, and Iain C. A. F. Robinson

Subjects
Male, endocrine system, Aging, medicine.medical_specialty, Patch-Clamp Techniques, Green Fluorescent Proteins, Presynaptic Terminals, Action Potentials, Neuropeptide, Mice, Transgenic, Biology, Growth Hormone-Releasing Hormone, Inhibitory postsynaptic potential, Synaptic vesicle, Green fluorescent protein, Mice, Internal medicine, medicine, Animals, Patch clamp, Cellular Senescence, Neurons, Afferent Pathways, Glutamate receptor, Excitatory Postsynaptic Potentials, Cell Biology, Growth hormone–releasing hormone, Endocrinology, Growth Hormone, hormones, hormone substitutes, and hormone antagonists, Hormone
Abstract

Growth hormone (GH) secretion decreases spontaneously during lifespan, and the resulting GH deficiency participates in aging-related morbidity. This deficiency appears to involve a defect in the activity of hypothalamic GH-releasing hormone (GHRH) neurons. Here, we investigated this hypothesis, as well as the underlying mechanisms, in identified GHRH neurons from adult ( approximately 13 weeks old) and aged ( approximately 100 weeks old) transgenic GHRH-green fluorescent protein mice, using morphological, biochemical and electrophysiological methods. Surprisingly, the spontaneous action potential frequency was similar in adult and aged GHRH neurons studied in brain slices. This was explained by a lack of change in the intrinsic excitability, and simultaneous increases in both stimulatory glutamatergic- and inhibitory GABAergic-synaptic currents of aged GHRH neurons. Aging did not decrease GHRH and enhanced green fluorescent protein contents, GHRH neuronal number or GHRH-fibre distribution, but we found a striking enlargement of GHRH-positive axons, suggesting neuropeptide accumulation. Unlike in adults, autophagic vacuoles were evident in aged GHRH-axonal profiles using electron microscopy. Thus, GHRH neurons are involved in aging of the GH axis. Aging had a subtle effect at the nerve terminal level in GHRH neurons, contrasting with the view that neuronal aging is accompanied by more widespread damage.

Published
2007

13. Multiple co-localizations in arcuate GHRH-eGFP neurons in the mouse hypothalamus

Author

Annie Faivre-Bauman, Karine Bouyer, Catherine Loudes, Iain C. A. F. Robinson, and Jacques Epelbaum

Subjects
Male, Genetically modified mouse, Aging, endocrine system, medicine.medical_specialty, Tyrosine 3-Monooxygenase, Green Fluorescent Proteins, Galanin, Mice, Transgenic, Biology, Growth Hormone-Releasing Hormone, Green fluorescent protein, Mice, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Sex Factors, Arcuate nucleus, Internal medicine, medicine, Animals, Neurotensin, Neurons, Brain Mapping, Tyrosine hydroxylase, Arcuate Nucleus of Hypothalamus, Growth hormone secretion, Sexual dimorphism, Endocrinology, chemistry, Female, hormones, hormone substitutes, and hormone antagonists
Abstract

In the present work, we took advantage of a recently described model of GHRH-enhanced green fluorescent protein (eGFP) transgenic mice to evaluate the extent of co-localization of GHRH neurons with galanin (GAL), neurotensin (NT) and tyrosine hydroxylase (TH) in 3- and 8-month-old male and female mice. The total number of GHRH-eGFP neurons along the rostro-caudal axis of the arcuate nucleus did not differ according to gender or age. GAL-immunoreactivity was present in 40–44% of 3-month-old GHRH-eGFP neurons in male and female arcuate nucleus, respectively, but only 25–22% in 8-month-old mice. TH immunoreactivity occurred in 36–35% of GHRH-eGFP neurons in male and female arcuate nucleus from 3-month-old mice and these proportions increased to 40 and 45% in 8-month-old mice. NT immunoreactivity was present in 14 and 24% of GHRH-eGFP neurons in male and female arcuate nucleus from 3-month-old mice up to 28 and 26% in 8-month-old mice. Thus, co-localization of peptides and enzyme in GHRH-eGFP neurons displays a sexual dimorphism at 3-month of age for NT, and at 8-month for TH, while the total number of GHRH-eGFP neurons does not exhibit gender difference at either age. In summary, it appears that changes in co-localized (and presumably co-released) peptides, rather than GHRH per se , may contribute to the changes in sexually dimorphic GH secretion with aging in the mouse.

Published
2007

15. Expression of Microtubule-Associated Proteins During the Early Stages of Neurite Extension by Brain Neurons Cultured in a Defined Medium

Author

Dominique Couchie, Jack Puymirat, Jacques Nunez, J. Guilleminot, Andrée Tixier-Vidal, and A. Faivre-Bauman

Subjects
Time Factors, Neurite, Microtubule-associated protein, Biochemistry, Mice, Cellular and Molecular Neuroscience, Microtubule, medicine, Animals, Axon, Cells, Cultured, Neurons, biology, Brain, Cell Differentiation, Axons, Cell biology, Molecular Weight, Chemically defined medium, medicine.anatomical_structure, Cell culture, Polyclonal antibodies, Immunologic Techniques, biology.protein, Neuron, Microtubule-Associated Proteins, Neuroscience
Abstract

Immunoblotting analysis was used to identify the microtubule-associated proteins (MAPs) present in cultures of mouse brain neurons. Polyclonal antibodies were raised against the two main adult brain MAPs, i.e., MAP2 (300 kDa) and tau (60-70 kDa). Whatever the stage of the culture, which was performed in a defined medium (3 or 6 days), the anti-MAP2 serum detected several high-molecular-weight components (including MAP2) and an entity with 62-65 kDa. Anti-tau revealed essentially a major peak of 48 kDa (young tau) but also slightly cross-reacted with the 62-65 kDa entity. During the culture period (0-6 days) the cells developed progressively a dense neuritic network; the concentration of the different MAPs increased in parallel but at different rates depending on the different species. The increase in concentration of the high-molecular-weight components occurred before that of 48-kDa tau. This suggests that high-molecular-weight MAPs and 48-kDa tau might be involved respectively in the initiation and elongation of neurites. In contrast, and since the main developmental changes in tau composition seen in vivo did not occur during the time course of the culture, this transition might be related to later events of neuronal differentiation.

Published
2006

16. Membranes from pituitary intermediate lobe cells enhance differentiation of fetal hypothalamic dopaminergic neurons in primary culture

Author

Raimundo Ubieta, Claude Kordon, Annie Faivre-Bauman, Jerome Niquet, Catherine Loudes, and Jean-Louis Charli

Subjects
medicine.medical_specialty, Neurite, Dopamine, Cell, Hypothalamus, Biology, Fetus, Developmental Neuroscience, Internal medicine, medicine, Animals, Rats, Wistar, Neurons, Tyrosine hydroxylase, Dopaminergic, Cell Differentiation, Coculture Techniques, In vitro, Extracellular Matrix, Rats, Endocrinology, medicine.anatomical_structure, Culture Media, Conditioned, Pituitary Gland, Developmental Biology, medicine.drug
Abstract

Coculture of adult pituitary intermediate lobe (IL) cells, a target for hypothalamic dopaminergic neurons, with fetal rat hypothalamic cells accelerate differentiation of dopaminergic neurons. This involves long range diffusible as well as additional factors which may be membrane-bound. To determine whether IL membrane-bound factors contribute to the differentiating effect of IL cells, IL membranes were added to dispersed fetal hypothalamic neurons. This stimulated the outgrowth of dopaminergic neurites and elevated TH levels. Limited trypsin proteolysis of IL cell surface abolished the effect on TH levels. Addition of adenohypophyseal membranes was ineffective. Joint treatment with IL membranes, and medium conditioned (CM) over IL cells, produced the same effect on TH levels as did coculture with the same number of IL cells. The results demonstrate that IL cells express on their surface a membrane-bound factor promoting differentiation of fetal dopaminergic neurons in vitro; this factor acts in addition to diffusible activities.

Published
1999

17. Distinct populations of hypothalamic dopaminergic neurons exhibit differential responses to brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT3)

Author

Catherine Loudes, Annie Faivre-Bauman, Claude Kordon, and Florence Petit

Subjects
Brain-derived neurotrophic factor, animal structures, biology, Neurite, General Neuroscience, Neurotrophin-3, Tropomyosin receptor kinase B, Tropomyosin receptor kinase C, nervous system, Neurotrophic factors, Arcuate nucleus, biology.protein, Neuroscience, Neurotrophin
Abstract

We have previously demonstrated that differentiation of hypothalamic dopaminergic (DA) neurons can be induced in culture by their pituitary intermediate lobe target cells, through both membrane and diffusible factors. We also showed that subpopulations of DA neurons from the arcuate nucleus only, not the periventricular area, can respond to the target. Here we investigated the possibility that both neuronal subsets could also respond differentially to brain-derived neurotrophic factor (BDNF) or neurotrophin-3 (NT3). Addition of NT3, but not BDNF, enhanced growth and branching of neurites, tyrosine hydroxylase (TH) as well as increasing levels of cultured arcuate DA neurons. Conversely, BDNF, but not NT3, affected the same parameters in cultured periventricular DA neurons. The neurotrophins thus affect DA neurons in a structure and neuronal type-selective manner, since general neuronal markers were not affected by either neurotrophin. Neurotrophin effects were reversed by addition of specific antibodies directed against them or their respective receptors, TrkB or TrkC. By themselves, the antibodies inhibited development of DA neurons below that of control cultures, suggesting involvement of endogenous neurotrophins. BDNF and NT3 were indeed found in both arcuate and periventricular neurons and in the intermediate lobe. BDNF was always present as the mature peptide. The mature form of NT3 was only detected in the periventricular area; a precursor-like heavier form was present in all tissues studied. The present data suggest that NT3, but not BDNF, could participate in the differentiating action of intermediate lobe cells on arcuate DA neurons.

Published
1999

18. Polysialylated Neural Cell Adhesion is Involved in Target-induced Morphological Differentiation of Arcuate Dopaminergic Neurons

Author

Claude Kordon, Catherine Loudes, Geneviève Rougon, and Annie Faivre-Bauman

Subjects
Tyrosine 3-Monooxygenase, Dopamine, Hypothalamus, Biology, Rats, Sprague-Dawley, Pregnancy, Arcuate nucleus, Cell Adhesion, medicine, Animals, Neural Cell Adhesion Molecules, Neurons, Tyrosine hydroxylase, Polysialic acid, General Neuroscience, Dopaminergic, Arcuate Nucleus of Hypothalamus, Cell Differentiation, Pars intermedia, Immunohistochemistry, Rats, Cell biology, medicine.anatomical_structure, nervous system, Phosphopyruvate Hydratase, Sialic Acids, Female, Neural cell adhesion molecule, Periventricular nucleus, Neuroscience
Abstract

We have previously shown that the morphological and biochemical maturation of developing rat hypothalamic dopaminergic neurons is accelerated when they are cocultivated with pituitary intermediate lobe cells, one of their targets. Only two subsets of hypothalamic dopaminergic neurons (arcuate, A12, and periventricular, A14, nuclei) may project to the pars intermedia. In order to determine whether the two populations are equally responsive to coculture conditions, we microdissected the hypothalamus of 17-day-old rat fetuses in two fragments containing cell bodies from the A12 and from the A14 regions, prepared neuronal cultures from both portions and incubated them separately with intermediate lobe cells. The presence of intermediate lobe cells increased tyrosine hydroxylase levels in both dopaminergic neuron subsets, but morphological differentiation was accelerated in dopaminergic neurons originating in the arcuate nucleus only. We then investigated whether physical contact between developing arcuate neurons and their target cells was a prerequisite of the morphological effect by interposing a semipermeable membrane between cultivated neurons and intermediate lobe cells in transwell culture dishes. The morphological effect was no longer observed under transwell coculture conditions, pointing to the involvement of membrane-bound molecules. Accordingly, the stimulating effect of coculture on arcuate dopaminergic neurons was completely abolished by the removal of polysialic acid on neural cell adhesion molecules by endoneuraminidase N treatment. Thus, maturation of A12 and A14 dopaminergic neurons exhibits differential susceptibility to intermediate lobe target cells, and polysialylated-NCAM is required for the contact-dependent effect.

Published
1997

19. Modulation by somatostatin of glutamate sensitivity during development of mouse hypothalamic neurons in vitro

Author

Claude Kordon, Catherine Loudes, Robert Gardette, Annie Faivre-Bauman, and Jacques Epelbaum

Subjects
medicine.medical_specialty, Drug Resistance, Hypothalamus, Synaptogenesis, Glutamic Acid, Mice, Inbred Strains, Kainate receptor, AMPA receptor, Biology, Pertussis toxin, Mice, Developmental Neuroscience, Internal medicine, medicine, Animals, Cells, Cultured, Cellular Senescence, Neurons, Glutamate receptor, Drug Synergism, In vitro, Endocrinology, Somatostatin, Synapses, Excitatory postsynaptic potential, Developmental Biology
Abstract

Glutamate sensitivity development and interactions of somatostatin (SRIF) with AMPA/Kainate receptor-mediated glutamate responses were studied in dissociated hypothalamic neurons from 16-day-old mouse embryos grown in vitro. Only 18% of functionally innervated cells could be found at 6–9 DIV whereas the percentage of innervated neurons progressively increased thereafter to reach 100% at 19–22 DIV. The glutamate sensitivity, estimated from glutamate-induced peak inward current, was very low at 6–9 DIV, sharply increased at 11–14 DIV and developed at a low increase rate thereafter. SRIF either unaffected glutamate peak current (27% of the cells), or significantly decreased (50%) or increased it (23%). Pertussis Toxin pretreatment abolished the SRIF-induced decrease of the glutamate response without affecting the excitatory effect. The number of glutamate responsive neurons inhibited by SRIF increased with time in culture whereas that of neurons responding to SRIF by an increased glutamate response was not statistically modified by functional innervation. The present data suggest that increased glutamate sensitivity coincides with the onset of functional synaptogenesis in mouse hypothalamic neurons in culture. SRIF can modulate glutamate sensitivity of hypothalamic neurons with either synergistic or antagonistic effects. Since glutamate has been shown to stimulate SRIF synthesis and secretion from hypothalamic neurons, the reverse capacity of SRIF to modulate the glutamate response suggests that both transmitters exhibit complex reciprocal interactions.

Published
1995

20. Molecular pharmacology of somatostatin receptors

Author

Cécile Viollet, Claude Kordon, Robert Gardette, Gaëtan Prévost, Annie Faivre-Bauman, A. Slama, Catherine Loudes, Eric Maubert, and Jacques Epelbaum

Subjects
Pharmacology, medicine.medical_specialty, Delta cell, Molecular Structure, Somatostatin receptor, Biology, Octreotide, Second Messenger Systems, Endocrinology, Somatostatin, Internal medicine, medicine, Somatostatin receptor 3, Animals, Humans, Somatostatin receptor 2, Pharmacology (medical), Somatostatin receptor 1, Somatostatin binding, Receptors, Somatostatin, Somatostatin-28, Signal Transduction
Abstract

Summary— Somatostatin was discovered for its ability to inhibit growth hormone (GH) secretion. Later, it was found to be widely distributed in other brain regions, in which it fulfills a neuromodulatory role, and in several organs of the gastrointestinal tract where it can act as a paracrine factor or as a true circulating factor. In mammals, two molecules of 14 (somatostatin 14) and 28 (somatostatin 28) amino acids are the only biologically active members of the family. They originate from a single gene which gives rise to a single propeptide alternately cleaved in different tissues. In 1992, a major breaktrough in our understanding of somatostatin functions was made with the cloning of five different receptor genes (sstr1 to sstr5) which belong to the seven transmembrane domain receptor family. Their closer relatives are opioid receptors. In first approximation, the tissular expression of the sstrs matches quite well with the distribution of somatostatin binding sites in the “classical” targets of the peptide ie brain, pituitary pancreatic islets and adrenals. The pharmacology of GH inhibition is very close to sstr2 binding but other actions of somatostatins have not yet been attributed clearly to a single receptor subtype. All clinically relevant agonists tested so far (octreotide, lanreotide and vapreotide) are selective of sstr2 being less potent on sstr3 and inactive for sstr1 and sstr4. Surprisingly, rat sstr5 displays nanomolar affinities for octreotide and vapreotide while these agonists are only active at much higher concentrations on human sstr5. All five receptors can be more or less efficiently coupled to inhibition of adenylate cyclase activity in transfected cell systems. However, the transduction of somatostatin antisecretory and antiproliferative actions through multiple intracellular effectors and their relation to the diversity of the receptors remain to be established as yet.

Published
1995

21. Coculture of Rat Melanotrophs with Hypothalamic Cells Enhances Differentiation of Dopaminergic Neurons

Author

Claude Kordon, Annie Faivre-Bauman, Catherine Loudes, and Jean-Louis Charli

Subjects
medicine.medical_specialty, Fetus, Neurite, Tyrosine hydroxylase, Dopaminergic, Cell Biology, Biology, In vitro, Cellular and Molecular Neuroscience, Melanotrophs, medicine.anatomical_structure, Endocrinology, nervous system, Anterior pituitary, Internal medicine, medicine, Soma, Molecular Biology
Abstract

The interaction between a glandular target and hypothalamic dopaminergic neurons during development was studied by cocultivating dispersed fetal hypothalamic and adult intermediate lobe rat cells in serum-free medium. In such conditions, hypothalamic neurons aggregated around intermediate lobe cells and were interconnected by well-developed neurites. They could be grown in coculture at lower density than alone. In regard to dopaminergic activity, both tyrosine hydroxylase content and accumulation of [3H]DA in the cells were significantly increased in coculture after 6 days in vitro (DIV). These effects persisted until 18 DIV, but were progressively reduced with time. Other neuronal activities (choline acetyltransferase activity or thyroliberin content) were not modified by coculture. Furthermore, dopaminergic activity was not stimulated when hypothalamic neurons were grown in the presence of anterior pituitary cells, nor mesencephalic neurons together with intermediate lobe cells, suggesting selectivity of intermediate lobe cells on hypothalamic DA neurons. After radioautographic labeling of DA neurons at 6 DIV, morphometric analysis revealed that the presence of intermediate lobe cells increased the number of branching points and the total neuritic length, without changing the number of DA neurons, the size of cell bodies, nor the number of neurites emerging from the soma. Cocultured DA neurons at 6 DIV exhibited morphological features of more differentiated neurons, as estimated by morphological analysis of 12 DIV control neurons. Thus, intermediate lobe cells induce in vitro clustering of fetal hypothalamic neuronal somata and accelerate specifically hypothalamic dopaminergic neuron maturation.

Published
1993

22. Preserved memory capacities in aged Lou/C/Jall rats

Author

Josette Alliot, Melanie Kollen, Pierre-Marie Sinet, Patrick Dutar, Catherine Loudes, A. Stéphan, A. Faivre-Bauman, Jean-Marie Billard, Jacques Epelbaum, A. Jouvenceau, Laboratory of Neuroendocrinology of Aging, Université Blaise Pascal (Clermont Ferrand 2) (UBP), Neurobiologie de la Croissance et de la Senescence, Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Centre de Psychiatrie et Neurosciences (U894), Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM), and Université Blaise Pascal - Clermont-Ferrand 2 (UBP)

Subjects
Senescence, Male, medicine.medical_specialty, Aging, Hippocampus, Hippocampal formation, Receptors, N-Methyl-D-Aspartate, Rats, Sprague-Dawley, Organ Culture Techniques, Species Specificity, Internal medicine, medicine, Animals, Genetic Predisposition to Disease, Obesity, Receptors, AMPA, ComputingMilieux_MISCELLANEOUS, Memory Disorders, Neuronal Plasticity, General Neuroscience, Memoria, Glutamate receptor, Long-term potentiation, Rats, Inbred Strains, Rats, Endocrinology, Memory, Short-Term, Synaptic plasticity, NMDA receptor, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Neurology (clinical), Geriatrics and Gerontology, Insulin Resistance, Psychology, Developmental Biology
Abstract

Although memory impairments are a hallmark of aging, the degree of deficit varies across animal models, and is likely to reflect different states of deterioration in metabolic and endocrinological properties. This study investigated memory-related processes in young (3–4 months) and old (24 months) Sprague–Dawley rats (SD), which develop age-linked pathologies such as obesity or insulin-resistance and Lou/C/Jall rats, which do not develop such impairments. In short- and long-term memory recognition tasks, old Lou/C/Jall rats were never impaired whereas old SD rats were deficient at 1 and 24 h latencies. The expression of N-methyl-d-aspartate receptors (NMDAR)-mediated synaptic plasticity in CA1 hippocampal networks shifted towards lower activity values in old Lou/C/Jall rats whereas long-term potentiation was impaired in age-matched SD rats. Age-related decrease in NR2A subunits occurred in both strains, extended to NR2B, NR1 and GluR1 subunits in older animals (28 months) but only in SD rats. Therefore, the Lou/C/Jall rats can be considered as a model of healthy aging, not only in terms of its preserved metabolism, but also in terms of cognition and synaptic plasticity.

Published
2010

23. Differential expression and subcellular localization of secretogranin II and synaptophysin during early development of mouse hypothalamic neurons in culture

Author

Andrée Tixier-Vidal, W. Huttner, A. Faivre-Bauman, A. Barret, and Bertram Wiedenmann

Subjects
endocrine system, Time Factors, Immunocytochemistry, Hypothalamus, Synaptophysin, Synaptogenesis, Fluorescent Antibody Technique, Synaptic vesicle, Mice, Fetus, Chromogranins, medicine, Animals, Growth cone, Cells, Cultured, Neurons, biology, General Neuroscience, Vesicle, Antibodies, Monoclonal, Proteins, Cell biology, Kinetics, medicine.anatomical_structure, nervous system, Pituitary Gland, biology.protein, Neuron, Neuroscience, Cell Division
Abstract

Mature neurons contain two distinct regulated secretory pathways, characterized electron microscopically by so-called large dense core vesicles and small synaptic vesicles, respectively. Each vesicle type is characterized by vesicle-specific proteins, such as the granins (chromogranins/secretogranins) for the matrix of large dense core vesicles and synaptophysin for the membrane of small synaptic vesicles. So far, no data exist on the biogenesis of these two distinct vesicle types during neuronal development. We have used secretogranin II and synaptophysin as markers for the biogenesis of these two vesicle types during the development of mouse hypothalamic neurons in culture, using immunocytochemistry and biochemical analyses. By immunofluorescence, we found that secretogranin II appears as early as synaptophysin, but in a subset of neurons only, and with different subcellular localizations. It was observed in cytoplasmic areas where little or no synaptophysin immunofluorescence was detected, such as lamellipodia, emerging neurites and growth cones. At later stages, the proportion of secretogranin II-containing varicosities remained steady whereas that of synaptophysin-containing varicosities increased dramatically. By quantitative analysis we found that the level of expression of synaptophysin increased several-fold during synaptogenesis whereas that of secretogranin II decreased. These data suggest that large dense core vesicles and small synaptic vesicles can be formed separately and expressed at different levels. They provide evidence for a differential biogenesis of these two distinct vesicle types.

Published
1992

24. α1-Adrenergic Receptor Coupling with Phospholipase-C Is Negatively Regulated by Protein Kinase-C in Primary Cultures of Hypothalamic Neurons and Glial Cells*

Author

Sophia V. Drouva, Annie Faivre-Bauman, Eliane Laplante, Catherine Loudes, and Claude Kordon

Subjects
medicine.medical_specialty, Adrenergic receptor, Inositol Phosphates, Hypothalamus, Synaptogenesis, Biology, Phosphatidylinositols, Pertussis toxin, Clonidine, Feedback, Diglycerides, Membrane Lipids, Mice, Norepinephrine, Endocrinology, GTP-Binding Proteins, Internal medicine, medicine, Animals, Cells, Cultured, Protein Kinase C, Protein kinase C, Neurons, Phenoxybenzamine, Phospholipase C, Cell Membrane, Yohimbine, Prazosin, Receptors, Adrenergic, alpha, Chromatography, Ion Exchange, Propranolol, Kinetics, medicine.anatomical_structure, Cell culture, Astrocytes, Type C Phospholipases, Tetradecanoylphorbol Acetate, Neuroglia, Calcium Channels, Signal transduction
Abstract

In the present work we evaluated the interactions of adrenergic receptors with phospholipase-C (PLC) and protein kinase-C (PKC), using an in vitro system of hypothalamic neurons and astroglial cells in primary cultures. The study was performed on immature neurons after 7 days in vitro (7 Div), that is before synaptogenesis, as well as on mature cells (14 Div). Comparisons were made between neurons and glial cells at the corresponding developmental stages. Norepinephrine (NE) increased inositol phosphates (IPs) formation in a dose- and time-dependent manner. The NE effect was mediated by alpha 1-receptor (alpha 1R) and was observed in young cells before synaptogenesis as well as in mature neuronal cultures; its amplitude was enhanced during the latter stage of the neuronal development. The coupling of alpha 1R with PLC was partially sensitive to pertussis toxin treatment and did not implicate the activation of calcium voltage-dependent channels. Activation of PKC by 12-O-Tetradecanoylphorbol 13-acetate (TPA) inhibited in a time-dependent manner the NE-stimulated production of IPs in young and mature hypothalamic neurons; however, in PKC depleted cells NE-induced IPs formation remained unchanged. In hypothalamic astroglial cell cultures the adrenergic stimulus of IPs generation was also mediated by alpha 1R. The effect was observed at both developmental stages, with a greater response in 14 Div cultures, and was insensitive to pertussis toxin treatment. As in neurons, activation of PKC resulted in inhibition of NE-induced IPs formation. These data indicate that functional interrelation between alpha 1R, PLC, and PKC is already present in immature neurons and glial cells and progressively develops in culture.

Published
1991

25. Subcellular distribution of clathrin in cultured hypothalamic neurons

Author

R. Picart, Andrée Tixier-Vidal, Annie Faivre-Bauman, and Bruno Goud

Subjects
Immunocytochemistry, Hypothalamus, Coated vesicle, Coated Pit, Biology, Clathrin, Synaptic vesicle, Immunoenzyme Techniques, Mice, symbols.namesake, Fetus, Culture Techniques, medicine, Animals, Microscopy, Immunoelectron, Cells, Cultured, Neurons, Vesicle, Cell Biology, General Medicine, Golgi apparatus, Culture Media, Cell biology, medicine.anatomical_structure, nervous system, symbols, biology.protein, Neuron
Abstract

The subcellular distribution of clathrin has been examined in developing hypothalamic neurons cultured in a chemically defined medium up to synapse formation (12-13 days in vitro) and exposed, or not, to a depolarizing concentration of KCl (60 mM for 3 min) followed, or not, by a return to control KCl concentration (3 mM KCl for 3 min). Previous studies have shown that such treatments induce in synaptic boutons a rapid vesicle depletion followed by massive restoration. Using an enzyme immunoassay, we have compared the relative proportion of assembled and unassembled pools of clathrin as a function of exposure to depolarizing or repolarizing concentrations of KCl. In parallel we have localized clathrin at the electron microscopic level using immunoperoxidase. Clathrin concentration in culture is lower (0.36 vs 0.75%) and the proportion of unassembled clathrin is much higher than in the adult brain (82 vs 14%). These proportions were not affected by depolarizing or repolarizing treatments. Morphologically clathrin was exclusively detected in two neuron compartments: perikarya and synaptic boutons. In perikarya clathrin was localized as a thick coat on plasma membrane coated pits and in the Golgi zone on coated buds and vesicles, presumably located in a trans compartment. In synaptic boutons clathrin immunoreaction was found as an irregular thin rim around synaptic vesicles, whatever the polarization state of the cells, but coated vesicles were extremely rare. Taken together these findings raise the problem of the functional meaning and localization of the large unassembled pool of clathrin in such neurons and question its role in vesicular traffic in synaptic boutons.

Published
1991

26. Sexually dimorphic distribution of sst2A receptors on growth hormone-releasing hormone neurones in mice: modulation by gonadal steroids

Author

Annie Faivre-Bauman, Karine Bouyer, Jacques Epelbaum, Catherine Loudes, and Iain C. A. F. Robinson

Subjects
Male, endocrine system, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Ovariectomy, Hypothalamus, Neuropeptide, Mice, Transgenic, Biology, Growth Hormone-Releasing Hormone, Cellular and Molecular Neuroscience, Mice, Endocrinology, Internal medicine, medicine, Animals, Testosterone, Receptors, Somatostatin, Neurons, Sex Characteristics, Estradiol, Endocrine and Autonomic Systems, Prolactin receptor, Growth hormone–releasing hormone, Growth hormone secretion, Mice, Inbred C57BL, Somatostatin, Liver, Female, Orchiectomy, hormones, hormone substitutes, and hormone antagonists, Hormone
Abstract

The ultradian pulsatile pattern of growth hormone (GH) secretion is markedly sexually dimorphic in rodents as in primates, but the neuroanatomical mechanisms of this phenomenon are not clear. In the arcuate nucleus of the hypothalamus, GH-releasing hormone (GHRH) neurones receive somatostatinergic inputs through the sst2A receptor (sst2A-R) and the percentage of GHRH neurones bearing sst2A-R is higher in female than in male GHRH-enhanced green fluorescent protein (eGFP) mice. In the present study, we hypothesised that sst2A-R expression on GHRH neurones is modulated by gonadal steroids and constitutes a mechanism for sexually differentiated GH secretion. The distribution of sst2A-R on GHRH neurones was evaluated by immunohistochemistry in adult GHRH-eGFP mice gonadectomised and treated for 3 weeks with oestradiol or testosterone implants. In gonadectomised females supplemented with testosterone, sst2A-R distribution on GHRH neurones was reduced to the level seen in intact males, whereas oestradiol implants were ineffective. Conversely, orchidectomy induced a female 'sst2A phenotype', which was reversed by testosterone supplementation. Changes in the hepatic expression of GH-dependent genes for major urinary protein-3 and the prolactin receptor reflected the altered steroid influence on GH pulsatile secretion. In the ventromedial-arcuate region, GHRH and sst2-R, as well as GHRH and somatostatin expression as measured by the real-time polymerase chain reaction, were positively correlated in both sexes. By contrast, the positive correlation between ventromedial-arcuate GHRH and periventricular somatostatin expression in males was reversed to a negative one in females. Moreover, the positive correlation between periventricular somatostatin and ventromedial-arcuate sst2-R expressions in males was lost in females. These results suggest that, in the adult mouse, testosterone is a major modulator of sst2A distribution on GHRH neurones. This marked sex difference in sst2A-R distribution may constitute a key element in the genesis of the sexually differentiated pattern of GH secretion, possibly through testosterone-modulated changes in somatostatin inputs from hypophysiotrophic periventricular neurones.

Published
2008

29. Sexually dimorphic distribution of sst2A somatostatin receptors on growth hormone-releasing hormone neurons in mice

Author

Iain C. A. F. Robinson, Annie Faivre-Bauman, Catherine Loudes, Karine Bouyer, and Jacques Epelbaum

Subjects
endocrine system, medicine.medical_specialty, Hypothalamus, Biology, Somatoliberin, Growth Hormone-Releasing Hormone, Mice, Endocrinology, Internal medicine, medicine, Animals, RNA, Messenger, Receptors, Somatostatin, Sermorelin, Sex Characteristics, Somatostatin receptor, Growth hormone–releasing hormone, Growth hormone secretion, Mice, Inbred C57BL, medicine.anatomical_structure, Somatostatin, Growth Hormone, Female, Periventricular nucleus, hormones, hormone substitutes, and hormone antagonists, medicine.drug
Abstract

The pulsatile pattern of GH secretion exhibits sexual dimorphism that is likely to depend on somatostatin (SRIH) effects on somatoliberin (GHRH) neurons in the hypothalamus. Using transgenic GHRH-enhanced green fluorescent protein (eGFP) mice, no difference in the total number of GHRH-eGFP neurons or change in somatostatin receptor sst2 and SRIH mRNA levels in ventromedial hypothalamic nucleus-arcuate nucleus and periventricular nucleus regions and GHRH mRNA levels in the ventromedial hypothalamic-arcuate region were observed between male and female mice. However, the percentage of GHRH-eGFP neurons bearing sst2A receptors reached 78% in female vs. 26% in male GHRH-eGFP mice (P < 0.02). This sex difference in sst2A distribution on GHRH neurons may play an important role in the sexually differentiated pattern of GH secretion.

Published
2006

31. Characterization of MCH-gene-overprinted-polypeptide-immunoreactive material in hypothalamus reveals an inhibitory role of pro-somatostatin1-64 on somatostatin secretion

Author

Isabelle, Allaeys, Karine, Bouyer, Catherine, Loudes, Annie, Faivre-Bauman, Florence, Petit, Christine, Ortola, Bruno, Cardinaud, Jacques, Epelbaum, and Jean-Louis, Nahon

Subjects
Male, Mice, Knockout, Mice, Inbred BALB C, Base Sequence, Molecular Sequence Data, Hypothalamus, Nerve Tissue Proteins, Immunohistochemistry, Rats, Mice, Inbred C57BL, Mice, Animals, Female, Amino Acid Sequence, Protein Precursors, Rats, Wistar, Somatostatin
Abstract

The melanin-concentrating hormone (MCH) gene encodes two proteins, pro-MCH and MCH-gene-overprinted polypeptide (MGOP), produced through alternative splicing of the primary transcript. Our initial purpose was to characterize the MGOP-immunoreactive material. First, MGOP mRNA was clearly found in rat and mouse hypothalami but Western blot analysis failed to unambiguously identify MGOP in protein extracts. Immunohistochemical experiments with wild-type and MCH gene-null mice demonstrated genuine expression of MGOP confined to the MCH-containing neurons in the lateral hypothalamus area and the presence of an 'MGOP-like' antigen in periventricular nucleus and arcuate nucleus neurons and their area of projection. This suggested a colocalization in somatostatin (SRIF) hypophysiotropic neurons. Further characterization, using SRIF gene-null mice and Western blot analysis with recombinant proteins, revealed that the MGOP-like product was pro-SRIF1-64. The role of pro-SRIF1-64 on fetal hypothalamic neurons was evaluated and a strong tonic inhibitory effect on SRIF secretion was found. These results (i) indicate that MGOP expression is restricted to the MCH neurons in the lateral hypothalamus and that MGOP-like immunoreactivity outside this system corresponds to pro-SRIF1-64, and (ii) provide the first evidence for a negative feedback regulation by pro-SRIF1-64 on SRIF secretion, suggesting new mechanisms by which the pro-region of a neuropeptide precursor may control the regulated secretion of a neuropeptide derived from the same precursor.

Published
2004

32. Characterization of MCH-gene-overprinted-polypeptide-immunoreactive material in hypothalamus reveals an inhibitory role of pro-somatostatin1-64 on somatostatin secretion

Author

Allaeys, I., Bouyer, K., Loudes, C., Faivre-Bauman, A., Ortola C. Petit, F., Cardinaud, B., Epelbaum, J., Nahon, J.-L., Institut de pharmacologie moléculaire et cellulaire (IPMC), Université Nice Sophia Antipolis (... - 2019) (UNS), and COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS)

Published
2004

34. The neurotrophins NT3 and BDNF induce selective specification of neuropeptide coexpression and neuronal connectivity in arcuate and periventricular hypothalamic neurons in vitro

Author

Jacques Epelbaum, Robert Gardette, Annie Faivre-Bauman, Catherine Loudes, Claude Kordon, Séverine Huicq, and Florence Petit

Subjects
medicine.medical_specialty, Patch-Clamp Techniques, Pro-Opiomelanocortin, Tyrosine 3-Monooxygenase, Endocrinology, Diabetes and Metabolism, Receptor expression, Neuropeptide, Gene Expression, Galanin, Tropomyosin receptor kinase B, In Vitro Techniques, Growth Hormone-Releasing Hormone, Tropomyosin receptor kinase C, Rats, Sprague-Dawley, Cellular and Molecular Neuroscience, Endocrinology, Neurotrophin 3, Neurotrophic factors, Arcuate nucleus, Internal medicine, Neural Pathways, medicine, Animals, Receptor, trkB, Neuropeptide Y, Receptor, trkC, Cells, Cultured, DNA Primers, Neurons, biology, Endocrine and Autonomic Systems, Brain-Derived Neurotrophic Factor, Arcuate Nucleus of Hypothalamus, Rats, Phenotype, nervous system, Neuron maturation, biology.protein, Somatostatin, Neuroscience, Neurotrophin, Paraventricular Hypothalamic Nucleus
Abstract

Little is known on the influence of epigenetic factors in the developing hypothalamus, a region particularly involved in neuroendocrine regulation and rich in neuropeptides. The present study evaluated the effects of neurotrophins and neuronal activity on neuronal differentiation in hypothalamic cultures sampled from either arcuate or anterior periventricular regions of 17-day-old Sprague-Dawley fetuses. Expression of neuropeptides, tyrosine hydroxylase, neurotrophins and neurotrophin receptors was tested on young (6 days in vitro, DIV) and more mature (14 DIV) cultured neurons by multiple reverse transcription polymerase chain reaction on single cells. In parallel, spontaneous postsynaptic currents were recorded as an index of neuronal connectivity. Neurotrophin-3 (NT3) was expressed in a much larger population of neurons than brain-derived neurotrophic factor (BDNF) at both culture times. At 6 DIV, synaptic currents were scarce and expression of the neurotrophin receptors trkB and trkC was found in a small proportion of neurons only. These parameters increased markedly between 6 and 14 DIV, and also upon addition of neurotrophins. The most striking consequence of arcuate neuron maturation in vitro between 6 and 14 DIV was a marked phenotypic specification affecting somatostatin, neuropeptide Y and pro-opiomelanocortin, the three major neuropeptides expressed in the cultures. NT3, but not BDNF, was able to reproduce maturation-related phenotypic specification in 6 DIV arcuate cultures. Maturation-dependent phenotypic specification was less marked in periventricular cultures; in that case BDNF, not NT3 had a slight effect on phenotype specification. It is concluded that NT3 plays a selective role in phenotypic specification of neuropeptides in the arcuate region, whereas other maturation parameters (neurotrophin receptor expression and/or synaptogenesis) can be potentiated by either neurotrophin in both structures.

Published
2002

35. Brain-derived neurotrophic factor but not neurotrophin-3 enhances differentiation of somatostatin neurons in hypothalamic cultures

Author

Annie Faivre-Bauman, Catherine Loudes, Claude Kordon, and Florence Petit

Subjects
medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Hypothalamus, Neurotrophin-3, Rats, Sprague-Dawley, Cellular and Molecular Neuroscience, Endocrinology, Fetus, Neurotrophin 3, Neurotrophic factors, Internal medicine, medicine, Animals, Receptor, trkB, Receptor, trkC, Cells, Cultured, Brain-derived neurotrophic factor, Neurons, biology, Dose-Response Relationship, Drug, Endocrine and Autonomic Systems, Brain-Derived Neurotrophic Factor, Arcuate Nucleus of Hypothalamus, Cell Differentiation, Rats, Somatostatin, medicine.anatomical_structure, nervous system, Trk receptor, biology.protein, Periventricular nucleus, Neurotrophin
Abstract

The present work investigated whether neurotrophins could differentially affect in vitro growth and maturation of two related subsets of hypothalamic neurons, hypophysiotropic somatostatin (SRIH) neurons projecting from the periventricular area and arcuate SRIH interneurons. For this purpose, the hypothalamus of 17-day-old rat fetuses was sampled and separated into a ventral and a dorsal fragment containing respectively periventricular and arcuate regions. Each fragment was dissociated and seeded separately in defined medium. Brain-derived neurotrophic factor (BDNF) or neurotrophin-3 (NT-3), two important members of the neurotrophin family involved in neuronal differentiation and plasticity, were added to the cultures at seeding time. After 6 or 11 days in vitro, neurons were labeled with an anti-SRIH antiserum and submitted to morphometric analysis. In parallel, SRIH mRNA was estimated by semiquantitative reverse-transcriptase-polymerase chain reaction, and neuronal SRIH content, basal and depolarisation-stimulated releases measured by radioimmunoassay. The response of control, non-labeled neurons was estimated by neuronal counts and by assaying glutamic acid decarboxylase, a marker of a large majority of hypothalamic neurons. BDNF markedly increased the size and the branching number of SRIH periventricular cell bodies. Expression of SRIH mRNA, as well as SRIH content and release into the culture medium, were also stimulated by the neurotrophin. Non-SRIH neurons were not affected by the treatment. Under the same conditions, arcuate neurons exhibited a weak, mostly transient response to BDNF. NT-3 was ineffective on either neuronal subset. Immunoneutralization of Trk receptors provided further evidence for BDNF effect specificity. The results indicate that BDNF is a selective activator of the differentiation of hypophysiotropic SRIH neurons in the periventricular area of the hypothalamus.

Published
2000

36. Distinct populations of hypothalamic dopaminergic neurons exhibit differential responses to brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT3)

Author

C, Loudes, F, Petit, C, Kordon, and A, Faivre-Bauman

Subjects
Neurons, Tyrosine 3-Monooxygenase, Cell Survival, Reverse Transcriptase Polymerase Chain Reaction, Brain-Derived Neurotrophic Factor, Dopamine, Blotting, Western, Arcuate Nucleus of Hypothalamus, Gene Expression, Cell Differentiation, Dendrites, Rats, Rats, Sprague-Dawley, Fetus, Organ Culture Techniques, Neurotrophin 3, Phosphopyruvate Hydratase, Animals, Nerve Growth Factors, RNA, Messenger, Paraventricular Hypothalamic Nucleus
Abstract

We have previously demonstrated that differentiation of hypothalamic dopaminergic (DA) neurons can be induced in culture by their pituitary intermediate lobe target cells, through both membrane and diffusible factors. We also showed that subpopulations of DA neurons from the arcuate nucleus only, not the periventricular area, can respond to the target. Here we investigated the possibility that both neuronal subsets could also respond differentially to brain-derived neurotrophic factor (BDNF) or neurotrophin-3 (NT3). Addition of NT3, but not BDNF, enhanced growth and branching of neurites, tyrosine hydroxylase (TH) as well as increasing levels of cultured arcuate DA neurons. Conversely, BDNF, but not NT3, affected the same parameters in cultured periventricular DA neurons. The neurotrophins thus affect DA neurons in a structure and neuronal type-selective manner, since general neuronal markers were not affected by either neurotrophin. Neurotrophin effects were reversed by addition of specific antibodies directed against them or their respective receptors, TrkB or TrkC. By themselves, the antibodies inhibited development of DA neurons below that of control cultures, suggesting involvement of endogenous neurotrophins. BDNF and NT3 were indeed found in both arcuate and periventricular neurons and in the intermediate lobe. BDNF was always present as the mature peptide. The mature form of NT3 was only detected in the periventricular area; a precursor-like heavier form was present in all tissues studied. The present data suggest that NT3, but not BDNF, could participate in the differentiating action of intermediate lobe cells on arcuate DA neurons.

Published
1999

37. Profiles of amyloid precursor and presenilin 2-like proteins are correlated during development of the mouse hypothalamus

Author

C, Apert, C, Czech, A, Faivre-Bauman, C, Loudes, L, Pradier, and J, Epelbaum

Subjects
Amyloid beta-Protein Precursor, Mice, Blotting, Western, Presenilin-2, Hypothalamus, Animals, Membrane Proteins, RNA, Messenger, Blotting, Northern, Cells, Cultured
Abstract

The amyloid precursor protein (APP) and APP-like (APLP) material, as visualized with the Mab22C11 antibody, have previously been shown to be associated with radial glia in hypothalamus, which are known to promote neurite outgrowth. By Northern blot analysis, APP 695 mRNA levels increased steadily over hypothalamic development, APP 770 mRNA was transiently expressed at 12 days postnatally, and APLP mRNA was only weakly expressed in the hypothalamus. The developmental pattern of APP moeities in mouse hypothalamus and in fetal hypothalamic neurons in culture was compared with a presenilin 2 (PS2) related protein using an antibody developed against the N-terminal part of PS2. By Western blot analysis, APP and PS2-like immunoreactivity were visualized as a 100-130 and 52 kDa bands, respectively. An APP biphasic increase was observed during hypothalamic development in vivo. APP immunoreactivity was equally detected in neuronal and glial cultures, while PS2-like material was more concentrated in neurons. A correlation between APP/APP-like and PS2-like levels was observed during development in vivo. While APP was mostly associated with membrane fractions, a significant portion of PS2-like material was also recovered from cytosolic fractions in vitro. In contrast to native PS2 in COS-transfected cells, the PS2-like material did not aggregate after heating for 90 s at 90 degrees C. These results indicate a close association between APP and PS2-like material during hypothalamic development in vivo, and suggest that neuronal and glial cultures may provide appropriate models to test their interactions.

Published
1998

38. Differential expression of somatostatin receptors by quantitative PCR in the rat brain

Author

C, Viollet, A, Faivre-Bauman, J, Zhang, C, Llorens-Cortes, C, Loudes, C, Kordon, and J, Epelbaum

Subjects
Brain Chemistry, Spinal Cord, Cerebellum, Hypothalamus, Animals, Gene Expression, Receptors, Somatostatin, Polymerase Chain Reaction, Rats
Abstract

Five subtypes of somatostatin receptors (sst) have recently been cloned and reported to be expressed in rat brain. However, conventional mRNA measurement techniques do not allow to accurately compare the levels of expression of the 5 sst. Thus, we established a quantitative reverse transcriptase polymerase chain reaction method for the 5 sst. A cRNA internal standard was constructed by inserting in msst1 plasmid sequences corresponding to specific sense primers for amplification of each sst. Using a common reverse primer, a unique primer pair by receptor amplifies both wild type and standard RNAs with the same efficiency. The technique was validated by evaluating sst mRNAs in 3 brain structures in which different somatostatin receptor binding levels were previously reported. While the absolute level of expression is similar between regions, sst3 is the major subtype in cerebellum, sst1 predominates in spinal cord and sst4 and sst2 are equally expressed in the hypothalamus.

Published
1995

39. Selective patterns of expression of G protein alpha subunits during in vitro development of hypothalamic neurons

Author

Cécile Viollet, Annie Faivre-Bauman, Claude Kordon, and Catherine Loudes

Subjects
G protein, Protein subunit, Immunoblotting, Molecular Sequence Data, Hypothalamus, Gene Expression, In situ hybridization, Biology, Biochemistry, Cellular and Molecular Neuroscience, Mice, GTP-Binding Proteins, Gene expression, medicine, Animals, RNA, Messenger, Cells, Cultured, In Situ Hybridization, Neurons, Base Sequence, Cell Membrane, In vitro, Cell biology, Culture Media, Chemically defined medium, medicine.anatomical_structure, Astrocytes, Immunology, Neuron, Oligonucleotide Probes, Astrocyte
Abstract

Expression of different alpha subunits of G proteins was studied in hypothalamic primary cultures grown in defined medium and enriched in either neurons or glial (astrocyte) cells. In parallel, the cellular distribution of Gi, Gs, and GoA subunits was visualized by in situ hybridization. Immunoblots using specific antisera and hybridization of mRNAs with specific oligonucleotide probes allowed us to characterize Gs, Gi2, and GoA as major neuronal G proteins in the hypothalamus, whereas the glial cells expressed mostly Gs, Gi2, and GoB forms. Gi was found to be expressed very early and transiently in the culture, whereas expression of Gs and GoA increased regularly with time.

Published
1994

40. Decreased choline acetyltransferase activity in nerve growth factor-transgenic mice during brain development

Author

Jacques Epelbaum, Brigitte Onteniente, Isabelle Neveu, Vantini G, Annie Faivre-Bauman, Naveilhan P, and Catherine Loudes

Subjects
Genetically modified mouse, medicine.medical_specialty, Aging, Central nervous system, Hypothalamus, Hippocampus, Gestational Age, Mice, Transgenic, Biology, Choline O-Acetyltransferase, chemistry.chemical_compound, Embryonic and Fetal Development, Mice, Prosencephalon, Reference Values, Internal medicine, medicine, Choline, Animals, Nerve Growth Factors, Cholinergic neuron, Cerebral Cortex, General Neuroscience, Embryo, Mammalian, Choline acetyltransferase, Nerve growth factor, medicine.anatomical_structure, Endocrinology, chemistry, Animals, Newborn, Acetylcholine, medicine.drug
Abstract

Activity of the synthetic enzyme for acetylcholine, choline acetyltransferase was investigated during development and in adult nerve growth factortransgenic mice. A conspicuous reduction of choline acetyltransferase activity was observed in the anterior brain of nerve growth factor-transgenic embryos from embryonic days 13 to 16 (E13 to E16). Choline acetyl-transferase activity levels subsequently resumed to normal levels, with the exception of a 15% increase in the adult hippocampus. Nerve growth factor contents followed a similar time-course and regional distribution in normal and nerve growth factor-transgenic animals and displayed significantly higher values from E 14 to the early postnatal period. Nerve growth factor contents were normal in the adult brain. In vitro experiments confirmed the involvement of nerve growth factor in the decrease of choline acetyltransferase activity levels observed in transgenic neurons during development. These results suggest a role for nerve growth factor in the initial phase of the phenotypic differentiation of cholinergic neurons. They show that nerve growth factor may, under specific developmental conditions, lead to a paradoxical down-regulation of choline acetyltransferase activity.

Published
1994

41. Coculture of rat melanotrophs with fetal hypothalamic cells enhances differentiation of dopaminergic neurons

Author

Catherine Loudes, Jean-Louis Charli, Annie Faivre-Bauman, and Claude Kordon

Subjects
Neurons, medicine.medical_specialty, Fetus, Tyrosine 3-Monooxygenase, General Neuroscience, Dopamine, Dopaminergic, Blotting, Western, Hypothalamus, Cell Differentiation, Cell Communication, Biology, General Biochemistry, Genetics and Molecular Biology, Rats, Melanotrophs, Endocrinology, History and Philosophy of Science, Internal medicine, Pituitary Gland, medicine, Neurites, Animals, Female, Cells, Cultured
Published
1993

43. Ontogeny of thyrotropin-releasing hormone biosynthesis and release in hypothalamic neurons

Author

Andrée Tixier-Vidal and Annie Faivre-Bauman

Subjects
endocrine system, medicine.medical_specialty, endocrine system diseases, Neurite, Endocrinology, Diabetes and Metabolism, Ontogeny, Neuropeptide, Thyrotropin-releasing hormone, Biology, Endocrinology, medicine.anatomical_structure, Hypothalamus, Internal medicine, medicine, Secretion, Neuron, hormones, hormone substitutes, and hormone antagonists, Hormone
Abstract

Thyrotropin-releasing hormone (TRH) is expressed at early postmitotic stages of hypothalamic neuron development, in the mouse and rat, as revealed by the presence of the mature peptide, of pro-TRH mRNAs, and of large precursor forms. This indicates a coordinate expression of several genes encoding, respectively, pro-TRH, its processing enzymes, and the cell machinery for intracellular transport, sorting, and release of TRH. During development, an acceleration of pro-TRH processing is revealed by an increased proportion of the mature peptide. This is correlated with changes in the respective distribution of pro-TRH and TRH along neurites and the ontogenesis of neurosecretory granules.

Published
1992

45. Functional maturation of somatostatin neurons and somatostatin receptors during development of mouse hypothalamus in vivo and in vitro

Author

V. Heidet, Annie Faivre-Bauman, Claude Kordon, Jacques Epelbaum, S. Rasolonjanahary, and Catherine Loudes

Subjects
medicine.medical_specialty, Hypothalamus, Radioimmunoassay, Neuropeptide, Biology, Pertussis toxin, Octreotide, Binding, Competitive, Mice, Fetus, Developmental Neuroscience, In vivo, Pregnancy, Internal medicine, medicine, Animals, Receptors, Somatostatin, Receptor, Cells, Cultured, Neurons, Somatostatin receptor, Receptors, Neurotransmitter, Kinetics, medicine.anatomical_structure, Somatostatin, Endocrinology, Potassium, Female, Neuron, Cyclase activity, Neuroglia, Developmental Biology
Abstract

Ontogenesis of somatostatin (SRIF) neurons and receptors was studied in fetal hypothalamic cell cultures kept in serum-free medium, and compared to the in vivo developmental pattern. Initial rise in neuronal content of SRIF occurred later in vitro than in vivo. In vitro, K(+)-induced SRIF release was only present after synaptogenesis. SRIF binding sites were measurable as early as 1 day after birth and at an equivalent time in culture, after 6 days in vitro (DIV); their affinity was in the nanomolar range. In cultured cells, binding reached a maximum at two weeks in vitro and decreased sharply thereafter as a consequence of binding site occupancy by the endogenous ligand. Indeed, pretreatment with cysteamine decreased SRIF concentration in the neuronal cultures and twice as many binding sites as in control cultures of 21 DIV were measured. Competition kinetics using unlabelled SMS 201-995 to displace [125I]SRIF revealed two distinct binding sites in the neuronal preparations (IC50 = 11 +/- 3 pM and 4.5 +/- 0.8 nM). In contrast, only the lower affinity site was present on glial cell preparations (1.7 +/- 0.4 nM). SRIF inhibited adenylate cyclase activity in glia and neurons, and the onset of SRIF coupling to the second messenger occurred earlier in vitro than in vivo. Pertussis toxin pretreatment was equally effective in neuronal and glial cell preparations to decrease SRIF binding and to inhibit adenylate cyclase activity.

Published
1990

46. Evidence for high molecular weight immunoreactive thyrotropin-releasing hormone (TRH) precursor forms in the developing mouse hypothalamus. Simultaneous immunolocalization with TRH in cultured neurons

Author

Philippe Pradelles, Josette Destombes, Catherine Loudes, Dominique Grouselle, Andrée Tixier-Vidal, Annie Faivre-Bauman, and A. Barret

Subjects
endocrine system, medicine.medical_specialty, Prohormone, Immunoblotting, Molecular Sequence Data, Hypothalamus, Thyrotropin-releasing hormone, Peptide hormone, Biology, Immunoenzyme Techniques, Mice, Endocrinology, In vivo, Antibody Specificity, Internal medicine, medicine, Animals, Amino Acid Sequence, Protein Precursors, Thyrotropin-Releasing Hormone, Cells, Cultured, Neurons, Immune Sera, Radioimmunoassay, Rats, Inbred Strains, In vitro, Pyrrolidonecarboxylic Acid, Rats, Molecular Weight, medicine.anatomical_structure, Chromatography, Gel, Neuron, Oligopeptides, hormones, hormone substitutes, and hormone antagonists, medicine.drug
Abstract

Two antisera (Anti-P7 and Anti-P10) were raised against (-Gln-His-Pro-Gly-) elongated peptides: P7 Gln-His-Pro-Gly-Lys-Arg-Phe) and P10 (Ser-Lys-Arg-Gln-His-Pro-Gly-Lys-Arg-Phe). They recognized TRH extended peptides but not TRH. A RIA against P7 and a highly sensitive enzyme immunoassay against P10 were used to identify two major high mol wt forms of 25-35 K and 6-8 K in chromatography fractions of adult and fetal mouse as well as adult rat hypothalami. The existence of the largest form was confirmed by immunoblotting with Anti-P7. During mouse hypothalamus development in vivo and in vitro, the ratio of TRH content vs. P10-associated immunoreactivity increased several times. This suggests that these Pro-TRH peptides are precursors of TRH biosynthesis and indicate an acceleration of TRH processing during development. Double immunostaining with A-TRH and A-P7 of hypothalamic cells taken on the 16th fetal day and cultured for 6, 12, and 18 days in vitro (DIV) revealed three populations of neurons: 1) a very minor population (approximately 2%) of small round cells positive with A-TRH only; 2) a major population of neurons positive with both A-TRH and A-P7. 3) multipolar neurons positive with A-P7 only (up to approximately 45% after 18 DIV). The respective distribution of TRH and P7 along neurites also varied with time in culture. Whatever perikarya staining, TRH was restricted to short neurites and growth cones before synapse formation and, during synapse development, to varicosities and terminal boutons. However even at the latest stage examined some varicosities and terminal boutons were positive with A-P7 only. These results suggest a preferential processing of pro-TRH at a post-Golgi step during axonal transport to growth cones and synaptic boutons.

Published
1990

47. Use of Hypothalamic Cell Cultures to Study Role of Diffusible Factors in Phenotypic Expression of Central Nervous System Neurons

Author

Annie Faivre-Bauman and Andrée Tixier-Vidal

Subjects
biology, Central nervous system, Phenotype, Cell biology, Extracellular matrix, Membrane glycoproteins, medicine.anatomical_structure, Cell culture, Immunology, Extracellular fluid, medicine, biology.protein, Extracellular, Neuron
Abstract

Publisher Summary This chapter discusses the use of hypothalamic cell cultures to study role of diffusible factors in phenotypic expression of central nervous system neurons. During their development in vivo, central nervous system (CNS) neurons are exposed to a combination of extracellular signals of various origin: components of the extracellular fluid medium, membrane glycoproteins mediating cell-to-cell interaction, and macromolecules of the extracellular matrix. By definition, diffusible factors are soluble components of the extracellular fluid medium. During fetal life the composition of the brain extracellular fluid certainly differs from that of the adult. The chapter briefly reviews the classes of diffusible factors that are known to play a role in neuron development. It discusses the most appropriate strategies to study their effects on the expression of neuronal phenotype in culture. The chapter presents findings obtained in laboratory with hypothalamic cell cultures that use these strategies and show that the successive steps of the expression of neuronal phenotype can be independently regulated by diffusible factors and that the responses to a given factor can vary depending on the brain area as well as the neuronal specialization.

Published
1990

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