128 results on '"Perrin, Florence"'
Search Results
2. Advances in spinal cord injury: insights from non-human primates.
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Poulen, Gaetan and Perrin, Florence
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Spinal cord injury results in significant sensorimotor deficits, currently, there is no curative treatment for the symptoms induced by spinal cord injury. Basic and pre-clinical research on spinal cord injury relies on the development and characterization of appropriate animal models. These models should replicate the symptoms observed in human, allowing for the exploration of functional deficits and investigation into various aspects of physiopathology of spinal cord injury. Non-human primates, due to their close phylogenetic association with humans, share more neuroanatomical, genetic, and physiological similarities with humans than rodents. Therefore, the responses to spinal cord injury in nonhuman primates most likely resemble the responses to traumatism in humans. In this review, we will discuss nonhuman primate models of spinal cord injury, focusing on in vivo assessments, including behavioral tests, magnetic resonance imaging, and electrical activity recordings, as well as ex vivo histological analyses. Additionally, we will present therapeutic strategies developed in non-human primates and discuss the unique specificities of non-human primate models of spinal cord injury. [ABSTRACT FROM AUTHOR]
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- 2024
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3. CRISPR, Prime Editing, Optogenetics, and DREADDs: New Therapeutic Approaches Provided by Emerging Technologies in the Treatment of Spinal Cord Injury
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Paschon, Vera, Correia, Felipe Fernandes, Morena, Beatriz Cintra, da Silva, Victor Allisson, dos Santos, Gustavo Bispo, da Silva, Maria Cristina Carlan, Cristante, Alexandre Fogaça, Willerth, Stephanie Michelle, Perrin, Florence Evelyne, and Kihara, Alexandre Hiroaki
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- 2020
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4. CSF1R inhibition at chronic stage after spinal cord injury modulates microglia proliferation.
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Perez, Jean‐Christophe, Poulen, Gaetan, Cardoso, Maida, Boukhaddaoui, Hassan, Gazard, Chloé Marie, Courtand, Gilles, Bertrand, Sandrine Sylvie, Gerber, Yannick Nicolas, and Perrin, Florence Evelyne
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- 2023
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5. A Novel Translational Model of Spinal Cord Injury in Nonhuman Primate
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Le Corre, Marine, Noristani, Harun N., Mestre-Frances, Nadine, Saint-Martin, Guillaume P., Coillot, Christophe, Goze-Bac, Christophe, Lonjon, Nicolas, and Perrin, Florence E.
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- 2018
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6. UV degradation of clay-reinforced polypropylene nanocomposites
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Salah, Hend Ben Hadj, Daly, Hachmi Ben, Denault, Johanne, and Perrin, Florence
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Ultraviolet radiation -- Usage ,Photodegradation -- Observations ,Polypropylene -- Chemical properties -- Optical properties ,Reinforced plastics -- Chemical properties -- Optical properties ,Engineering and manufacturing industries ,Science and technology - Abstract
The aim of this work is to experimentally characterize the UV-degradation process at both the surface and at different layers across the thickness of injection-molded polypropylene (PP) matrix containing different amounts of nanosized montmorillonite (MMT) clay particles. These nanocomposite materials have been exposed to UV irradiations (λ = 320 nm) at different preset temperatures (25, 45, and 65°C) in the presence of oxygen and during different exposure times. The extent of such process at these layers was determined using both the FTIR spectroscopy and the wide-angle X-ray diffraction analyses. The micromechanical properties across the thickness have been characterized using the nanoindentation technique. The obtained results have indicated that the UV-degradation process for the nanocomposite materials is much more intense than the one observed for the neat PP. Moreover, it has been noted that such degradation process is not uniform across the thickness of the exposed materials. Results obtained from the X-ray analysis have shown an increase of the crystallinity of the polymer molecules at only the external surface of the exposed materials. This was confirmed using the nanoindentation test as an increase of the Young's modulus at this layer was noted., INTRODUCTION Polymer nanocomposites are polymers that have been reinforced with small quantities (less than 5% by weight) of nanosized particles (nanofillers) having high aspect ratios (L/D > 300) [1]. These [...]
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- 2016
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7. Chemicals from agricultural biomass: chemoenzymatic approach for production of vinylphenols and polyvinylphenols from phenolic acids
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Leisch Hannes, Grosse Stephan, Morley Krista, Abokitse Kofi, Perrin Florence, Denault Johanne, and Lau Peter C.K.
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biorefinery ,biotransformation ,chemoenzymatic synthesis ,green polymers ,phenolic acids ,Chemistry ,QD1-999 - Abstract
A two-step chemoenzymatic process for the preparation of polyvinylphenols from phenolic acids (PAs), being abundant aromatic constituents found in agricultural biomass, was developed. In the first step, conversion of 4-hydroxycinnamic acid derivatives to the corresponding vinylphenols, mediated by a recombinant phenolic acid decarboxylase, was evaluated using a variety of bioprocessing technologies that include biphasic whole cell and cell free extract biotransformations, a combination of biocatalyst with adsorbent resins for in situ product recovery, and fixed bed reactors using immobilized whole cells. The best yield (90%) with a high space time yield of 4.83 g/l/h was the result of a combination of crude enzyme extracts of the recombinant Escherichia coli (E. coli) with water immiscible organic solvents such as toluene. In the second step, cationic and radical polymerizations were tested to produce polyvinylguaiacol (PVG) from vinyl phenols. Characterization of PVG by thermogravimetric analysis (TGA), differential scanning calorimetry (DSC) and nanoindentation test are reported here for the first time. The feasibility of the chemoenzymatic process for the production of aromatic polymers from biomass was demonstrated by the production of polymers from a mixture of ferulic acid (FA) and p-coumaric acid (pCA), obtained from alkaline hydrolysis of corn bran. Interestingly, nanoindentation tests showed that both PVG and “mixed” PVG polymers showed significantly higher performances than a commercial polystyrene polymer.
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- 2013
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8. Up-Regulation of Astrocytic Fgfr4 Expression in Adult Mice after Spinal Cord Injury.
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Bringuier, Claire Mathilde, Noristani, Harun Najib, Perez, Jean-Christophe, Cardoso, Maida, Goze-Bac, Christophe, Gerber, Yannick Nicolas, and Perrin, Florence Evelyne
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SPINAL cord injuries ,FIBROBLAST growth factor receptors ,ASTROCYTES ,NEURAL stem cells - Abstract
Spinal cord injury (SCI) leads to persistent neurological deficits without available curative treatment. After SCI astrocytes within the lesion vicinity become reactive, these undergo major morphological, and molecular transformations. Previously, we reported that following SCI, over 10% of resident astrocytes surrounding the lesion spontaneously transdifferentiate towards a neuronal phenotype. Moreover, this conversion is associated with an increased expression of fibroblast growth factor receptor 4 (Fgfr4), a neural stem cell marker, in astrocytes. Here, we evaluate the therapeutic potential of gene therapy upon Fgfr4 over-expression in mature astrocytes following SCI in adult mice. We found that Fgfr4 over-expression in astrocytes immediately after SCI improves motor function recovery; however, it may display sexual dimorphism. Improved functional recovery is associated with a decrease in spinal cord lesion volume and reduced glial reactivity. Cell-specific transcriptomic profiling revealed concomitant downregulation of Notch signaling, and up-regulation of neurogenic pathways in converting astrocytes. Our findings suggest that gene therapy targeting Fgfr4 over-expression in astrocytes after injury is a feasible therapeutic approach to improve recovery following traumatism of the spinal cord. Moreover, we stress that a sex-dependent response to astrocytic modulation should be considered for the development of effective translational strategies in other neurological disorders. [ABSTRACT FROM AUTHOR]
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- 2023
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9. Comparing behavioral responses across multiple assays of stress and anxiety in zebrafish (Danio rerio)
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Wong, Ryan Y., Perrin, Florence, Oxendine, Sarah E., Kezios, Zachary D., Sawyer, Susanna, Zhou, Linran, Dereje, Simone, and Godwin, John
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- 2012
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10. Non-isothermal crystallization behavior of clay-reinforced polypropylene nanocomposites
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Salah Hend Ben Hadj, Ben Daly Hachmi, Perrin Florence, and Denault Johanne
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activation energy ,montmorillonite ,nanocomposite ,non-isothermal crystallization ,polypropylene ,Materials of engineering and construction. Mechanics of materials ,TA401-492 - Abstract
In this study, the non-isothermal crystallization kinetics of polypropylene (PP) in the presence of nanoclay particles were investigated using differential scanning calorimetry (DSC) with various cooling rates varying from 0.5°C/min to 80°C/min. Such kinetics were compared with those obtained for the pure PP matrix. The modified Avrami analysis was used to describe the non-isothermal crystallization process. The results obtained indicate that the presence of nanoclay significantly affected the crystallization rate of the PP resin, since an increase of the crystallization temperature as the nanoclay content increased was observed. This was attributed to the nucleating ability of these particles. Moreover, it was seen that the increase of both the cooling rate and the nanoclay content decreased the Avrami exponent n, suggesting a change in the obtained crystalline shape. For the nanocomposite materials, as well as for neat PP, the mechanism of crystallization was found to undergo two transitions, at about 5°C/min and 40°C/min. This suggests that the surface-induced nucleation at the clay particles follows the same mechanisms as those of the complete spherulitic structure. However, a lower value of activation energy for crystallization was obtained as the clay content increased, confirming the nucleating effect of clay particles.
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- 2011
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11. An autoreactive antibody from an SLE/HIV-1 individual broadly neutralizes HIV-1
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Bonsignori, Mattia, Wiehe, Kevin, Grimm, Sebastian K., Lynch, Rebecca, Yang, Guang, Kozink, Daniel M., Perrin, Florence, Cooper, Abby J., Hwang, Kwan-Ki, Chen, Xi, Liu, Mengfei, McKee, Krisha, Parks, Robert J., Eudailey, Joshua, Wang, Minyue, Clowse, Megan, Criscione-Schreiber, Lisa G., Moody, M. Anthony, Ackerman, Margaret E., Boyd, Scott D., Gao, Feng, Kelsoe, Garnett, Verkoczy, Laurent, Tomaras, Georgia D., Liao, Hua-Xin, Kepler, Thomas B., Montefiori, David C., Mascola, John R., and Haynes, Barton F.
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Autoantibodies -- Identification and classification -- Physiological aspects -- Research ,Systemic lupus erythematosus -- Genetic aspects -- Research ,Immunological tolerance -- Research ,HIV infection -- Genetic aspects -- Research ,Health care industry - Abstract
Broadly HIV-1-neutralizing antibodies (BnAbs) display one or more unusual traits, including a long heavy chain complementarity-determining region 3 (HCDR3), polyreactivity, and high levels of somatic mutations. These shared characteristics suggest that BnAb development might be limited by immune tolerance controls. It has been postulated that HIV-1-infected individuals with autoimmune disease and defective immune tolerance mechanisms may produce BnAbs more readily than those without autoimmune diseases. In this study, we identified an HIV-1-infected individual with SLE who exhibited controlled viral load (< 5,000 copies/ml) in the absence of controlling HLA phenotypes and developed plasma HIV-1 neutralization breadth. We collected memory B cells from this individual and isolated a BnAb, CH98, that targets the CD4 binding site (CD4bs) of HIV-1 envelope glycoprotein 120 (gp120). CH98 bound to human antigens including dsDNA, which is specifically associated with SLE. Anti-dsDNA reactivity was also present in the patient's plasma. CH98 had a mutation frequency of 25% and 15% nt somatic mutations in the heavy and light chain variable domains, respectively, a long HCDR3, and a deletion in the light chain CDR1. The occurrence of anti-dsDNA reactivity by a HIV-1 CD4bs BnAb in an individual with SLE raises the possibility that some BnAbs and SLE-associated autoantibodies arise from similar pools of B cells., Introduction Broadly HIV-1-neutralizing antibodies (BnAbs) have been isolated that bind to multiple epitopes on the envelope glycoproteins gp120 and gp41 (reviewed in ref. 1). 2G12 recognizes a posttranslational glycan epitope [...]
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- 2014
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12. Morphological aspects of injected polypropylene/clay nanocomposite materials
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Salah, Hend Ben Hadj, Daly, Hachmi Ben, Denault, Johanne, and Perrin, Florence
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Polypropylene -- Mechanical properties ,Polymeric composites -- Mechanical properties ,Polymers -- Rheology ,Clay -- Mechanical properties ,Engineering and manufacturing industries ,Science and technology - Abstract
Polypropylene (PP) clay nanocomposites were injection-molded using two different coupling agents based on maleic anhydride-grafted PP (MA-g-PP) and two clay loadings. The morphological aspects of these materials were studied by depth profiling. Molecular chain and clay orientations were characterized using attenuated total reflectance-infrared analysis and transmission electron microscopy (TEM). Both clay platelets and PP molecular chain orientations were found to decrease from the surface toward the core of the injection-molded specimens. Clay intercalation, characterized by both complementary X-ray diffraction and TEM, was found to be significantly influenced by both the characteristics of the coupling agent used and the type of residual stresses generated at each layer across the thickness of the injection-molded parts. The use of low-molecular weight ([M.sub.w]) MA-g-PP led to a uniform intercalation but with no further exfoliation. The use of higher molecular weight MA-g-PP led to a heterogeneous intercalation with some signs of exfoliation. The crystallization behavior of PP clay nanocomposites studied by differential scanning calorimetry showed an increase in the level of crystallinity from the surface to the core of the specimens; these results were also confirmed by scanning electron microscopy. POLYM. ENG. SCI., 53:905-913, 2013. © 2012 Society of Plastics Engineers, INTRODUCTION Polymer nanocomposites are polymers that have been reinforced with small quantities (less than 5% by weight) of nanosized particles (nanofillers), having high-aspect ratios (L/D > 300) (1). These materials [...]
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- 2013
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13. Astrocyte‐targeting RNA interference against mutated superoxide dismutase 1 induces motoneuron plasticity and protects fast‐fatigable motor units in a mouse model of amyotrophic lateral sclerosis.
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Rochat, Cylia, Bernard‐Marissal, Nathalie, Källstig, Emma, Pradervand, Sylvain, Perrin, Florence E., Aebischer, Patrick, Raoul, Cédric, and Schneider, Bernard L.
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- 2022
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14. Dynamic Diversity of Glial Response Among Species in Spinal Cord Injury.
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Perez, Jean-Christophe, Gerber, Yannick N., and Perrin, Florence E.
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SPINAL cord injuries ,NERVOUS system regeneration ,NEUROGLIA ,FRACTALKINE ,CELL populations ,SPECIES - Abstract
The glial scar that forms after traumatic spinal cord injury (SCI) is mostly composed of microglia, NG2 glia, and astrocytes and plays dual roles in pathophysiological processes induced by the injury. On one hand, the glial scar acts as a chemical and physical obstacle to spontaneous axonal regeneration, thus preventing functional recovery, and, on the other hand, it partly limits lesion extension. The complex activation pattern of glial cells is associated with cellular and molecular crosstalk and interactions with immune cells. Interestingly, response to SCI is diverse among species: from amphibians and fishes that display rather limited (if any) glial scarring to mammals that exhibit a well-identifiable scar. Additionally, kinetics of glial activation varies among species. In rodents, microglia become activated before astrocytes, and both glial cell populations undergo activation processes reflected amongst others by proliferation and migration toward the injury site. In primates, glial cell activation is delayed as compared to rodents. Here, we compare the spatial and temporal diversity of the glial response, following SCI amongst species. A better understanding of mechanisms underlying glial activation and scar formation is a prerequisite to develop timely glial cell-specific therapeutic strategies that aim to increase functional recovery. [ABSTRACT FROM AUTHOR]
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- 2021
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15. Inhibiting microglia proliferation after spinal cord injury improves recovery in mice and nonhuman primates.
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Poulen, Gaëtan, Aloy, Emilie, Bringuier, Claire M., Mestre-Francés, Nadine, Artus, Emaëlle V. F., Cardoso, Maïda, Perez, Jean-Christophe, Goze-Bac, Christophe, Boukhaddaoui, Hassan, Lonjon, Nicolas, Gerber, Yannick N., and Perrin, Florence E.
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- 2021
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16. Axonal involvement in the Wlds neuroprotective effect: analysis of pure motoneurons in a mouse model protected from motor neuron disease at a pre-symptomatic age
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Simonin, Yannick, Perrin, Florence E., and Kato, Ann C.
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- 2007
17. Cell death pathways differ in several mouse models with motoneurone disease: analysis of pure motoneurone populations at a presymptomatic age
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Perrin, Florence E., Boisset, Gaelle, Lathuilière, Aurélien, and Kato, Ann C.
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- 2006
18. No widespread induction of cell death genes occurs in pure motoneurons in an amyotrophic lateral sclerosis mouse model
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Perrin, Florence E., Boisset, Gaelle, Docquier, Mylene, Schaad, Olivier, Descombes, Patrick, and Kato, Ann C.
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- 2005
19. Involvement of monocyte chemoattractant protein-1, macrophage inflammatory protein-1α and interleukin-1β in Wallerian degeneration
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Perrin, Florence E., Lacroix, Steve, Avilés-Trigueros, Marcelino, and David, Samuel
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- 2005
20. Isolation of mineralizing Nestin+ Nkx6.1+ vascular muscular cells from the adult human spinal cord
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Guillon Hélène, Rigau Valérie, Privat Alain, Lidereau Rosette, Bieche Ivan, Rothhut Bernard, Perrin Florence E, Teigell Marisa, Bony Claire, Ripoll Chantal, Mamaeva Daria, Vachiery-Lahaye Florence, Noel Daniele, Bauchet Luc, and Hugnot Jean-Philippe
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human central nervous system ,spinal cord ,stem cells ,vascular muscle cells ,osteogenesis ,Nkx6.1 ,calcification ,Neurosciences. Biological psychiatry. Neuropsychiatry ,RC321-571 ,Neurophysiology and neuropsychology ,QP351-495 - Abstract
Abstract Background The adult central nervous system (CNS) contains different populations of immature cells that could possibly be used to repair brain and spinal cord lesions. The diversity and the properties of these cells in the human adult CNS remain to be fully explored. We previously isolated Nestin+ Sox2+ neural multipotential cells from the adult human spinal cord using the neurosphere method (i.e. non adherent conditions and defined medium). Results Here we report the isolation and long term propagation of another population of Nestin+ cells from this tissue using adherent culture conditions and serum. QPCR and immunofluorescence indicated that these cells had mesenchymal features as evidenced by the expression of Snai2 and Twist1 and lack of expression of neural markers such as Sox2, Olig2 or GFAP. Indeed, these cells expressed markers typical of smooth muscle vascular cells such as Calponin, Caldesmone and Acta2 (Smooth muscle actin). These cells could not differentiate into chondrocytes, adipocytes, neuronal and glial cells, however they readily mineralized when placed in osteogenic conditions. Further characterization allowed us to identify the Nkx6.1 transcription factor as a marker for these cells. Nkx6.1 was expressed in vivo by CNS vascular muscular cells located in the parenchyma and the meninges. Conclusion Smooth muscle cells expressing Nestin and Nkx6.1 is the main cell population derived from culturing human spinal cord cells in adherent conditions with serum. Mineralization of these cells in vitro could represent a valuable model for studying calcifications of CNS vessels which are observed in pathological situations or as part of the normal aging. In addition, long term propagation of these cells will allow the study of their interaction with other CNS cells and their implication in scar formation during spinal cord injury.
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- 2011
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21. Serotonergic mechanisms in spinal cord injury.
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Perrin, Florence Evelyne and Noristani, Harun Najib
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SEROTONINERGIC mechanisms , *SPINAL cord injuries , *CENTRAL nervous system , *SEROTONIN , *SPINAL cord , *AXONS , *NERVOUS system regeneration , *INNERVATION - Abstract
Spinal cord injury (SCI) is a tragic event causing irreversible losses of sensory, motor, and autonomic functions, that may also be associated with chronic neuropathic pain. Serotonin (5-HT) neurotransmission in the spinal cord is critical for modulating sensory, motor, and autonomic functions. Following SCI, 5-HT axons caudal to the lesion site degenerate, and the degree of axonal degeneration positively correlates with lesion severity. Rostral to the lesion, 5-HT axons sprout, irrespective of the severity of the injury. Unlike callosal fibers and cholinergic projections, 5-HT axons are more resistant to an inhibitory milieu and undergo active sprouting and regeneration after central nervous system (CNS) traumatism. Numerous studies suggest that a chronic increase in serotonergic neurotransmission promotes 5-HT axon sprouting in the intact CNS. Moreover, recent studies in invertebrates suggest that 5-HT has a pro-regenerative role in injured axons. Here we present a brief description of 5-HT discovery, 5-HT innervation of the CNS, and physiological functions of 5-HT in the spinal cord, including its role in controlling bladder function. We then present a comprehensive overview of changes in serotonergic axons after CNS damage, and discuss their plasticity upon altered 5-HT neurotransmitter levels. Subsequently, we provide an in-depth review of therapeutic approaches targeting 5-HT neurotransmission, as well as other pre-clinical strategies to promote an increase in re-growth of 5-HT axons, and their functional consequences in SCI animal models. Finally, we highlight recent findings signifying the direct role of 5-HT in axon regeneration and suggest strategies to further promote robust long-distance re-growth of 5-HT axons across the lesion site and eventually achieve functional recovery following SCI. • Serotonin (5-HT) neurotransmission modulates sensory, motor and autonomic functions. • 5-HT axons sprout upon chronic increase in 5-HT neurotransmission in the intact CNS. • 5-HT axons rostral to the spinal cord lesion sprout regardless of lesion severity. • 5-HT modulates axon regeneration in invertebrates, low vertebrates and vertebrates. • Targeting 5-HT may improve neurochemical imbalance and axon re-growth after injury. [ABSTRACT FROM AUTHOR]
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- 2019
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22. Longitudinal Magnetic Resonance Imaging Analysis and Histological Characterization after Spinal Cord Injury in Two Mouse Strains with Different Functional Recovery: Gliosis as a Key Factor.
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Noristani, Harun N., Saint-Martin, Guillaume P., Cardoso, Maïda, Sidiboulenouar, Rahima, Catteau, Matthias, Coillot, Christophe, Goze-Bac, Christophe, and Perrin, Florence E.
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- 2018
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23. CSF1R Inhibition Reduces Microglia Proliferation, Promotes Tissue Preservation and Improves Motor Recovery After Spinal Cord Injury.
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Gerber, Yannick Nicolas, Saint-Martin, Guillaume Patrick, Bringuier, Claire Mathilde, Bartolami, Sylvain, Goze-Bac, Christophe, Noristani, Harun Najib, and Perrin, Florence Evelyne
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Spinal cord injury (SCI) induces a pronounced neuroinflammation driven by activation and proliferation of resident microglia as well as infiltrating peripheral monocyte-derived macrophages. Depending on the time post-lesion, positive and detrimental influences of microglia/macrophages on axonal regeneration had been reported after SCI, raising the issue whether their modulation may represent an attractive therapeutic strategy. Colony-stimulating factor 1 (CSF1) regulates microglia/macrophages proliferation, differentiation and survival thus, pharmacological treatments using CSF1 receptor (CSF1R) inhibitors had been used to ablate microglia. We analyzed the effect of chronic (10 weeks) food diet containing GW2580 (a CSF1R inhibitor) in mice that underwent lateral spinal cord hemisection (HS) at vertebral thoracic level 9. Treatment started 4 weeks prior to SCI and continued until 6 weeks post-lesion. We first demonstrate that GW2580 treatment did not modify microglial response in non-injured spinal cords. Conversely, a strong decrease in proliferating microglia was observed following SCI. Second, we showed that GW2580 treatment improved some parameters of motor recovery in injured animals through better paw placement. Using in and ex vivo magnetic resonance imaging (MRI), we then established that GW2580 treatment had no effect on lesion extension and volume. However, histological analyses revealed that GW2580-treated animals had reduced gliosis and microcavity formation following SCI. In conclusion, CSF1R blockade using GW2580 specifically inhibits SCI-induced microglia/macrophages proliferation, reduces gliosis and microcavity formations and improves fine motor recovery after incomplete SCI. Preventing microglial proliferation may offer therapeutic approach to limit neuroinflammation, promote tissue preservation and motor recovery following SCI. [ABSTRACT FROM AUTHOR]
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- 2018
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24. Deleterious effect of Usutu virus on human neural cells.
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Salinas, Sara, Constant, Orianne, Desmetz, Caroline, Barthelemy, Jonathan, Lemaitre, Jean-Marc, Milhavet, Ollivier, Nagot, Nicolas, Foulongne, Vincent, Perrin, Florence E., Saiz, Juan-Carlos, Lecollinet, Sylvie, Van de Perre, Philippe, and Simonin, Yannick
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ZIKA virus ,FLAVIVIRUSES ,MENINGOENCEPHALITIS ,CENTRAL nervous system diseases ,HUMAN abnormalities ,ASTROCYTES - Abstract
In the last decade, the number of emerging Flaviviruses described worldwide has increased considerably. Among them Zika virus (ZIKV) and Usutu virus (USUV) are African mosquito-borne viruses that recently emerged. Recently, ZIKV has been intensely studied due to major outbreaks associated with neonatal death and birth defects, as well as neurological symptoms. USUV pathogenesis remains largely unexplored, despite significant human and veterinary associated disorders. Circulation of USUV in Africa was documented more than 50 years ago, and it emerged in Europe two decades ago, causing massive bird mortality. More recently, USUV has been described to be associated with neurological disorders in humans such as encephalitis and meningoencephalitis, highlighting USUV as a potential health threat. The aim of this study was to evaluate the ability of USUV to infect neuronal cells. Our results indicate that USUV efficiently infects neurons, astrocytes, microglia and IPSc-derived human neuronal stem cells. When compared to ZIKV, USUV led to a higher infection rate, viral production, as well as stronger cell death and anti-viral response. Our results highlight the need to better characterize the physiopathology related to USUV infection in order to anticipate the potential threat of USUV emergence. [ABSTRACT FROM AUTHOR]
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- 2017
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25. Microglia Responses in Acute and Chronic Neurological Diseases: What Microglia-Specific Transcriptomic Studies Taught (and did Not Teach) Us.
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Hirbec, Hélène E., Noristani, Harun N., and Perrin, Florence E.
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MICROGLIA ,NEURODEGENERATION ,NEUROLOGICAL disorders ,FLOW cytometry ,GLIOMAS - Abstract
Over the last decade, microglia have been acknowledged to be key players in central nervous system (CNS) under both physiological and pathological conditions. They constantly survey the CNS environment and as immune cells, in pathological contexts, they provide the first host defense and orchestrate the immune response. It is well recognized that under pathological conditions microglia have both sequential and simultaneous, beneficial and detrimental effects. Cell-specific transcriptomics recently became popular in Neuroscience field allowing concurrent monitoring of the expression of numerous genes in a given cell population. Moreover, by comparing two or more conditions, these approaches permit to unbiasedly identify deregulated genes and pathways. A growing number of studies have thus investigated microglial transcriptome remodeling over the course of neuropathological conditions and highlighted the molecular diversity of microglial response to different diseases. In the present work, we restrict our review to microglia obtained directly from in vivo samples and not cell culture, and to studies using whole-genome strategies. We first critically review the different methods developed to decipher microglia transcriptome. In particular, we compare advantages and drawbacks of flow cytometry and laser microdissection to isolate pure microglia population as well as identification of deregulated microglial genes obtained via RNA sequencing (RNA-Seq) vs. microarrays approaches. Second, we summarize insights obtained from microglia transcriptomes in traumatic brain and spinal cord injuries, pain and more chronic neurological conditions including Amyotrophic lateral sclerosis (ALS), Alzheimer disease (AD) and Multiple sclerosis (MS). Transcriptomic responses of microglia in other non-neurodegenerative CNS disorders such as gliomas and sepsis are also addressed. Third, we present a comparison of the most activated pathways in each neuropathological condition using Gene ontology (GO) classification and highlight the diversity of microglia response to insults focusing on their pro- and anti-inflammatory signatures. Finally, we discuss the potential of the latest technological advances, in particular, single cell RNA-Seq to unravel the individual microglial response diversity in neuropathological contexts. Hirbec et al. [ABSTRACT FROM AUTHOR]
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- 2017
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26. A Combination of Ex vivo Diffusion MRI and Multiphoton to Study Microglia/Monocytes Alterations after Spinal Cord Injury.
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Noristani, Harun N., Boukhaddaoui, Hassan, Saint-Martin, Guillaume, Auzer, Pauline, Sidiboulenouar, Rahima, Lonjon, Nicolas, Alibert, Eric, Tricaud, Nicolas, Goze-Bac, Christophe, Coillot, Christophe, and Perrin, Florence E.
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MICROGLIA ,MAGNETIC resonance imaging ,MULTIPHOTON ionization ,MULTIPHOTON processes ,SPINAL cord injuries ,PHYSIOLOGY - Abstract
Central nervous system (CNS) injury has been observed to lead to microglia activation and monocytes infiltration at the lesion site. Ex vivo diffusion magnetic resonance imaging (diffusion MRI or DWI) allows detailed examination of CNS tissues, and recent advances in clearing procedures allow detailed imaging of fluorescent-labeled cells at high resolution. No study has yet combined ex vivo diffusion MRI and clearing procedures to establish a possible link between microglia/monocytes response and diffusion coefficient in the context of spinal cord injury (SCI). We carried out ex vivo MRI of the spinal cord at different time-points after spinal cord transection followed by tetrahydrofuran based clearing and examined the density and morphology of microglia/monocytes using two-photon microscopy. Quantitative analysis revealed an early marked increase in microglial/monocytes density that is associated with an increase in the extension of the lesion measured using diffusion MRI. Morphological examination of microglia/monocytes somata at the lesion site revealed a significant increase in their surface area and volume as early as 72 hours post-injury. Time-course analysis showed differential microglial/monocytes response rostral and caudal to the lesion site. Microglia/monocytes showed a decrease in reactivity over time caudal to the lesion site, but an increase was observed rostrally. Direct comparison of microglia/monocytes morphology, obtained through multiphoton, and the longitudinal apparent diffusion coefficient (ADC), measured with diffusion MRI, highlighted that axonal integrity does not correlate with the density of microglia/monocytes or their somata morphology. We emphasize that differential microglial/monocytes reactivity rostral and caudal to the lesion site may thus coincide, at least partially, with reported temporal differences in debris clearance. Our study demonstrates that the combination of ex vivo diffusion MRI and two-photon microscopy may be used to follow structural tissue alteration. Lesion extension coincides with microglia/monocytes density; however, a direct relationship between ADC and microglia/monocytes density and morphology was not observed. We highlighted a differential rostro-caudal microglia/monocytes reactivity that may correspond to a temporal difference in debris clearance and axonal integrity. Thus, potential therapeutic strategies targeting microglia/monocytes after SCI may need to be adjusted not only with the time after injury but also relative to the location to the lesion site. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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27. RNA-Seq Analysis of Microglia Reveals Time-Dependent Activation of Specific Genetic Programs following Spinal Cord Injury.
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Noristani, Harun N., Gerber, Yannick N., Sabourin, Jean-Charles, Le Corre, Marine, Lonjon, Nicolas, Mestre-Frances, Nadine, Hirbec, Hélène E., and Perrin, Florence E.
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SPINAL cord injuries ,RNA sequencing ,MICROGLIA - Abstract
Neurons have inherent competence to regrow following injury, although not spontaneously. Spinal cord injury (SCI) induces a pronounced neuroinflammation driven by resident microglia and infiltrating peripheral macrophages. Microglia are the first reactive glial population after SCI and participate in recruitment of monocyte-derived macrophages to the lesion site. Both positive and negative influence of microglia and macrophages on axonal regeneration had been reported after SCI, raising the issue whether their response depends on time post-lesion or different lesion severity. We analyzed molecular alterations in microglia at several time-points after different SCI severities using RNA-sequencing. We demonstrate that activation of microglia is time-dependent post-injury but is independent of lesion severity. Early transcriptomic response of microglia after SCI involves proliferation and neuroprotection, which is then switched to neuroinflammation at later stages. Moreover, SCI induces an autologous microglial expression of astrocytic markers with over 6% of microglia expressing glial fibrillary acidic protein and vimentin from as early as 72 h post-lesion and up to 6 weeks after injury. We also identified the potential involvement of DNA damage and in particular tumor suppressor gene breast cancer susceptibility gene 1 (Brca1) in microglia after SCI. Finally, we established that BRCA1 protein is specifically expressed in non-human primate spinal microglia and is upregulated after SCI. Our data provide the first transcriptomic analysis of microglia at multiple stages after different SCI severities. Injury-induced microglia expression of astrocytic markers at RNA and protein levels demonstrates novel insights into microglia plasticity. Finally, increased microglia expression of BRCA1 in rodents and non-human primate model of SCI, suggests the involvement of oncogenic proteins after CNS lesion. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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28. Spinal cord injury induces astroglial conversion towards neuronal lineage.
- Author
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Noristani, Harun Najib, Sabourin, Jean Charles, Boukhaddaoui, Hassan, Chan-Seng, Emilie, Gerber, Yannick Nicolas, and Perrin, Florence Evelyne
- Subjects
SPINAL cord injuries ,ASTROCYTES ,NEURONS ,NERVOUS system regeneration ,FIBROBLAST growth factor receptors - Abstract
Background: Neurons have intrinsic capability to regenerate after lesion, though not spontaneously. Spinal cord injury (SCI) causes permanent neurological impairments partly due to formation of a glial scar that is composed of astrocytes and microglia. Astrocytes play both beneficial and detrimental roles on axonal re-growth, however, their precise role after SCI is currently under debate. Methods: We analyzed molecular changes in astrocytes at multiple stages after two SCI severities using cell-specific transcriptomic analyses. Results: We demonstrate that astrocyte response after injury depends on both time after injury and lesion severity. We then establish that injury induces an autologous astroglial transdifferentiation where over 10% of astrocytes express classical neuronal progenitor markers including βIII-tubulin and doublecortin with typical immature neuronal morphology. Lineage tracing confirmed that the origin of these astrocytes is resident mature, rather than newly formed astrocytes. Astrocyte-derived neuronal progenitors subsequently express GABAergic, but not glutamatergic-specific markers. Furthermore, we have identified the neural stem cell marker fibroblast growth factor receptor 4 (Fgfr4) as a potential autologous modulator of astrocytic transdifferentiation following SCI. Finally, we establish that astroglial transdifferentiation into neuronal progenitors starts as early as 72 h and continues to a lower degrees up to 6 weeks post-lesion. Conclusion: We thus demonstrate for the first time autologous injury-induced astroglial conversion towards neuronal lineage that may represent a therapeutic strategy to replace neuronal loss and improve functional outcomes after central nervous system injury. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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29. Combination of grafted Schwann cells and lentiviral-mediated prevention of glial scar formation improve recovery of spinal cord injured rats.
- Author
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Do-Thi, Anh, Perrin, Florence E., Desclaux, Mathieu, Saillour, Paulette, Amar, Lahouari, Privat, Alain, and Mallet, Jacques
- Subjects
- *
SPINAL cord injuries , *SCHWANN cells , *LENTIVIRUSES , *SCARS , *GLIAL cell line-derived neurotrophic factor , *LABORATORY rats - Abstract
The present study was intended to combine three therapeutic approaches in a well-defined rat model of spinal cord injury, a lateral hemisection at thoracic level. A guidance channel was implanted at the lesion site. This channel was seeded with native Schwann cells or Schwann cells that had been previously transduced with a lentiviral vector carrying the GDNF gene. Thereafter, these experiences were reproduced in animals injected with lentiviral vectors carrying a shRNA for GFAP (Lv-shGFAP), which has recently been shown to block glial scar formation. Functional evaluations showed that Lv-shGFAP induced a significant improvement in recovery in animals grafted with Schwann cells. Histological studies demonstrated the outgrowth of axons in the guidance channel containing Schwann cells transduced or not with GDNF. This axonal growth was enhanced in rats receiving Lv-shGFAP vector. Also, a significant increase of serotonergic innervation of the injured hemicord, distal to the lesion, was found only in animals treated with Lv-shGFAP vectors. Importantly, this study confirms that glial scar formation is a major impediment for axonal sprouting after spinal cord injury, and emphasizes the importance of serotonergic innervation for locomotor function. Moreover we show a significant additive effect of a combinatorial approach to axonal regeneration in the injured spinal cord. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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30. UV Degradation of Clay-Reinforced Polypropylene Nanocomposites.
- Author
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Ben Hadj Salah, Hend, Ben Daly, Hachmi, Denault, Johanne, and Perrin, Florence
- Subjects
ULTRAVIOLET radiation ,POLYPROPYLENE ,MONTMORILLONITE ,X-ray diffraction ,NANOINDENTATION ,NANOINDENTATION tests ,POLYMERIC nanocomposites - Abstract
The aim of this work is to experimentally characterize the UV-degradation process at both the surface and at different layers across the thickness of injection-molded polypropylene (PP) matrix containing different amounts of nanosized montmorillonite (MMT) clay particles. These nanocomposite materials have been exposed to UV irradiations (γ=320 nm) at different preset temperatures (25, 45, and 65°C) in the presence of oxygen and during different exposure times. The extent of such process at these layers was determined using both the FTIR spectroscopy and the wide-angle X-ray diffraction analyses. The micromechanical properties across the thickness have been characterized using the nanoindentation technique. The obtained results have indicated that the UV-degradation process for the nanocomposite materials is much more intense than the one observed for the neat PP. Moreover, it has been noted that such degradation process is not uniform across the thickness of the exposed materials. Results obtained from the X-ray analysis have shown an increase of the crystallinity of the polymer molecules at only the external surface of the exposed materials. This was confirmed using the nanoindentation test as an increase of the Young's modulus at this layer was noted. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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31. Signal modeling of an MRI ribbon solenoid coil dedicated to spinal cord injury investigations.
- Author
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Coillot, Christophe, Sidiboulenouar, Rahima, Nativel, Eric, Zanca, Michel, Alibert, Eric, Cardoso, Maida, Saintmartin, Guillaume, Noristani, Harun, Lonjon, Nicolas, Lecorre, Marine, Perrin, Florence, and Goze-Bac, Christophe
- Subjects
MAGNETIC resonance imaging ,CROSS-sectional imaging - Abstract
Nuclear magnetic resonance imaging (NMRI) is a powerful tool for biological investigations. Nevertheless, the imaging resolution performance results in the combination of the magnetic field (B
0 ) and the antenna efficiency. This latter one results in a compromise between the size of the sample, the location of the region of interest and the homogeneity requirement. In the context of spinal cord imaging on mice, a ribbon solenoid coil is used to enhance the efficiency of the MRI experiment. This paper details the calculation of the local magnetization contribution to the induced voltage of MRI coils. The modeling is illustrated on ribbon solenoid antennas used in emitter-receiver mode for the study. The analytical model, which takes into account the emitting mode, the receiving step and the imaging sequence, is compared to the measurement performed on a 9.4 T VARIAN MRI apparatus. The efficiency of the antenna, in terms of signal to noise ratio, is significantly enhanced with respect to a commercial quadrature volumic antenna, given a significant advantage for the study of spinal cord injuries. [ABSTRACT FROM AUTHOR]- Published
- 2016
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32. Brca1 is expressed in human microglia and is dysregulated in human and animal model of ALS.
- Author
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Noristani, Harun Najib, Sabourin, Jean Charles, Gerber, Yannick Nicolas, Teigell, Marisa, Sommacal, Andreas, Vivanco, Maria dM, Weber, Markus, and Perrin, Florence Evelyne
- Subjects
MICROGLIA ,PATHOPHYSIOLOGY of amyotrophic lateral sclerosis ,MOTOR neurons ,NEURODEGENERATION ,NEUROPROTECTIVE agents ,ANIMAL models in research ,PHYSIOLOGY - Abstract
Background: There is growing evidence that microglia are key players in the pathological process of amyotrophic lateral sclerosis (ALS). It is suggested that microglia have a dual role in motoneurone degeneration through the release of both neuroprotective and neurotoxic factors. Results: To identify candidate genes that may be involved in ALS pathology we have analysed at early symptomatic age (P90), the molecular signature of microglia from the lumbar region of the spinal cord of hSOD1
G93A mice, the most widely used animal model of ALS. We first identified unique hSOD1G93A microglia transcriptomic profile that, in addition to more classical processes such as chemotaxis and immune response, pointed toward the potential involvement of the tumour suppressor gene breast cancer susceptibility gene 1 (Brca1). Secondly, comparison with our previous data on hSOD1G93A motoneurone gene profile substantiated the putative contribution of Brca1 in ALS. Finally, we established that Brca1 protein is specifically expressed in human spinal microglia and is up-regulated in ALS patients. Conclusions: Overall, our data provide new insights into the pathogenic concept of a non-cell-autonomous disease and the involvement of microglia in ALS. Importantly, the identification of Brca1 as a novel microglial marker and as possible contributor in both human and animal model of ALS may represent a valid therapeutic target. Moreover, our data points toward novel research strategies such as investigating the role of oncogenic proteins in neurodegenerative diseases. [ABSTRACT FROM AUTHOR]- Published
- 2015
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33. OCAM Regulates Embryonic Spinal Cord Stem Cell Proliferation by Modulating ErbB2 Receptor.
- Author
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Deleyrolle, Loïc, Sabourin, Jean-Charles, Rothhut, Bernard, Fujita, Hiroko, Guichet, Pierre-Olivier, Teigell, Marisa, Ripoll, Chantal, Chauvet, Norbert, Perrin, Florence, Mamaeva, Daria, Noda, Tetsuo, Mori, Kensaku, Yoshihara, Yoshihiro, and Hugnot, Jean-Philippe
- Subjects
NEURAL stem cells ,CELL proliferation ,PROTEIN-tyrosine kinases ,CELL differentiation ,CELL adhesion molecules ,LABORATORY mice - Abstract
The proliferation and differentiation of neural stem cells are tightly controlled by intrinsic and extrinsic cues. Cell adhesion molecules are increasingly recognized as regulators of these processes. Here we report the expression of the olfactory cell adhesion molecule (OCAM/NCAM2/RNCAM) during mouse spinal cord development and in neural stem cells cultured as neurospheres. OCAM is also weakly expressed in the dormant adult stem cell niche around the central canal and is overexpressed after spinal cord injury. Both transmembrane (TM) and glycosylphosphatidylinositol (GPI)-linked isoforms are present in neurospheres. Electron microscopy and internalisation experiments revealed a dynamic trafficking of OCAM between the membrane and intracellular compartments. After differentiation, OCAM remains in neurons and oligodendrocytes whereas no expression is detected in astrocytes. Using OCAM knockout (KO) mice, we found that mutant spinal cord stem cells showed an increased proliferation and self-renewal rates although no effect on differentiation was observed. This effect was reversed by lentivirus-mediated re-introduction of OCAM. Mechanistically, we identified the ErbB2/Neu/HER2 protein as being implicated in the enhanced proliferation of mutant cells. ErbB2 protein expression and phosphorylation level were significantly increased in KO cells whereas no difference was observed at the mRNA level. Overexpression of ErbB2 in wild-type and mutant cells also increased their growth while reintroduction of OCAM in mutant cells reduced the level of phosphorylated ErbB2. These results indicate that OCAM exerts a posttranscriptional control on the ErbB2 signalling in spinal cord stem cells. This study adds further support for considering cell adhesion molecules as regulators of the ErbB signalling. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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34. Correlation of in vivo and ex vivo 1H-MRI with histology in two severities of mouse spinal cord injury.
- Author
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Noristani, Harun N., Lonjon, Nicolas, Cardoso, Maïda, Le Corre, Marine, Chan-Seng, Emilie, Captier, Guillaume, Privat, Alain, Coillot, Christophe, Goze-Bac, Christophe, and Perrin, Florence E.
- Subjects
SPINAL cord injuries ,NEUROLOGICAL disorders ,MAGNETIC resonance imaging ,RODENTS ,TRANSGENIC mice ,PATHOLOGICAL physiology - Abstract
Spinal cord injury (SCI) is a debilitating neuropathology with no effective treatment. Magnetic resonance imaging (MRI) technology is the only method used to assess the impact of an injury on the structure and function of the human spinal cord. Moreover, in pre-clinical SCI research, MRI is a non-invasive method with great translational potential since it provides relevant longitudinal assessment of anatomical and structural alterations induced by an injury. It is only recently that MRI techniques have been effectively used for the follow-up of SCI in rodents. However, the vast majority of these studies have been carried out on rats and when conducted in mice, the contusion injury model was predominantly chosen. Due to the remarkable potential of transgenic mice for studying the pathophysiology of SCI, we examined the use of both in and ex vivo
1 H-MRI (9.4 T) in two severities of the mouse SCI (hemisection and over-hemisection) and documented their correlation with histological assessments. We demonstrated that a clear distinction between the two injury severities is possible using in and ex vivo1 H-MRI and that ex vivo MR images closely correlate with histology. Moreover, tissue modifications at a remote location from the lesion epicenter were identified by conventional ex vivo MRI analysis. Therefore, in vivo MRI has the potential to accurately identify in mice the progression of tissue alterations induced by SCI and is successfully implemented by ex vivo MRI examination. This combination of in and ex vivo MRI follow-up associated with histopathological assessment provides a valuable approach for further studies intended to evaluate therapeutic strategies on SCI. [ABSTRACT FROM AUTHOR]- Published
- 2015
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35. Lentiviral-Mediated Silencing of Glial Fibrillary Acidic Protein and Vimentin Promotes Anatomical Plasticity and Functional Recovery After Spinal Cord Injury.
- Author
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Desclaux, Mathieu, Perrin, Florence E., Do ‐ Thi, Anh, Prieto ‐ Cappellini, Monica, Gimenez y Ribotta, Minerva, Mallet, Jacques, and Privat, Alain
- Published
- 2015
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36. Gacyclidine improves the survival and reduces motor deficits in a mouse model of amyotrophic lateral sclerosis.
- Author
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Gerber, Yannick N., Privat, Alain, and Perrin, Florence E.
- Subjects
AMYOTROPHIC lateral sclerosis ,LABORATORY mice ,NEURODEGENERATION ,METHYL aspartate ,GLUTAMIC acid ,CELL death - Abstract
Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disorder typified by a massive loss of motor neurons with few therapeutic options. The exact cause of neuronal degeneration is unknown but it is now admitted that ALS is a multifactorial disease with several mechanisms involved including glutamate excitotoxicity. More specifically, N-methyl-D-aspartate (NMDA)-mediated cell death and impairment of the glutamate-transport has been suggested to play a key role in ALS pathophysiology. Thus, evaluating NMDAR antagonists is of high therapeutic interest. Gacyclidine, also named GK11, is a high affinity non-competitive NMDAR antagonist that may protect against motor neuron death in an ALS context. Moreover, GK11 presents a low intrinsic neurotoxicity and has already been used in two clinical trials for CNS lesions. In the present study, we investigated the influence of chronic administration of two doses of GK11 (0.1 and 1 mg/kg) on the survival and the functional motor activity of hSOD1
G93A mice, an animal model of ALS. Treatment started at early symptomatic age (60 days) and was applied bi-weekly until the end stage of the disease. We first confirmed that functional alteration of locomotor activity was evident in the hSOD1G93A transgenic female mice by 60 days of age. A low dose of GK11 improved the survival of the mice by 4.3% and partially preserved body weight. Improved life span was associated with a delay in locomotor function impairment. Conversely, the high dose treatment worsened motor functions. These findings suggest that chronic administration of GK11 beginning at early symptomatic stage may be beneficial for patients with ALS. [ABSTRACT FROM AUTHOR]- Published
- 2013
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37. Unlike Physical Exercise, Modified Environment Increases the Lifespan of SOD1G93A Mice However Both Conditions Induce Cellular Changes.
- Author
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Gerber, Yannick N., Sabourin, Jean-Charles, Hugnot, Jean-Philippe, Perrin, Florence E., and Weidong Le
- Subjects
AMYOTROPHIC lateral sclerosis ,EXERCISE therapy ,PHYSIOLOGICAL aspects of running ,LABORATORY mice ,IMMUNOHISTOCHEMISTRY ,LIFE spans - Abstract
Background: Amyotrophic lateral sclerosis (ALS) is characterized by a gradual muscular paralysis resulting from progressive motoneurons death. ALS etiology remains unknown although it has been demonstrated to be a multifactorial disease involving several cellular partners. There is currently no effective treatment. Even if the effect of exercise is under investigation for many years, whether physical exercise is beneficial or harmful is still under debate. Methods and Findings: We investigated the effect of three different intensities of running exercises on the survival of SOD1
G93A mice. At the early-symptomatic stage (P60), males were isolated and randomly assigned to 5 conditions: 2 sedentary groups ("sedentary" and "sedentary treadmill" placed on the inert treadmill), and 3 different training intensity groups (5 cm/s, 10 cm/s and 21 cm/s; 15 min/day, 5days/week). We first demonstrated that an appropriate "control" of the environment is of the utmost importance since comparison of the two sedentary groups evidenced an 11.6% increase in survival in the "sedentary treadmill" group. Moreover, we showed by immunohistochemistry that this increased lifespan is accompanied with motoneurons survival and increased glial reactivity in the spinal cord. In a second step, we showed that when compared with the proper control, all three running-based training did not modify lifespan of the animals, but result in motoneurons preservation and changes in glial cells activation. Conclusions/Significance: We demonstrate that increase in survival induced by a slight daily modification of the environment is associated with motoneurons preservation and strong glial modifications in the lumbar spinal cord of SOD1G93A . Using the appropriate control, we then demonstrate that all running intensities have no effect on the survival of ALS mice but induce cellular modifications. Our results highlight the critical importance of the control of the environment in ALS studies and may explain discrepancy in the literature regarding the effect of exercise in ALS. [ABSTRACT FROM AUTHOR]- Published
- 2012
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38. Early Functional Deficit and Microglial Disturbances in a Mouse Model of Amyotrophic Lateral Sclerosis.
- Author
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Gerber, Yannick Nicolas, Sabourin, Jean-Charles, Rabano, Miriam, Vivanco, Maria dM, and Perrin, Florence Evelyne
- Subjects
AMYOTROPHIC lateral sclerosis ,NEURODEGENERATION ,IMMUNOHISTOCHEMISTRY ,FLOW cytometry ,MICROGLIA ,BIOMARKERS - Abstract
Background: Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disorder characterized by selective motoneurons degeneration. There is today no clear-cut pathogenesis sequence nor any treatment. However growing evidences are in favor of the involvement, besides neurons, of several partners such as glia and muscles. To better characterize the time course of pathological events in an animal model that recapitulates human ALS symptoms, we investigated functional and cellular characteristics of hSOD1
G93A mice. Methods and Findings:We have evaluated locomotor function of hSOD1G93A mice through dynamic walking patterns and spontaneous motor activity analysis. We detected early functional deficits that redefine symptoms onset at 60 days of age, i.e. 20 days earlier than previously described. Moreover, sequential combination of these approaches allows monitoring of motor activity up to disease end stage. To tentatively correlate early functional deficit with cellular alterations we have used flow cytometry and immunohistochemistry approaches to characterize neuromuscular junctions, astrocytes and microglia. We show that (1) decrease in neuromuscular junction's number correlates with motor impairment, (2) astrocytes number is not altered at pre- and early-symptomatic ages but intraspinal repartition is modified at symptoms onset, and (3) microglia modifications precede disease onset. At pre-symptomatic age, we show a decrease in microglia number whereas at onset of the disease two distinct microglia sub-populations emerge. Conclusions: In conclusion, precise motor analysis updates the onset of the disease in hSOD1G93A mice and allows locomotor monitoring until the end stage of the disease. Early functional deficits coincide with alterations of neuromuscular junctions. Importantly, we identify different sets of changes in microglia before disease onset as well as at earlysymptomatic stage. This finding not only brings a new sequence of cellular events in the natural history of the disease, but it may also provide clues in the search for biomarkers of the disease, and potential therapeutic targets. [ABSTRACT FROM AUTHOR]- Published
- 2012
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39. Grafted Human Embryonic Progenitors Expressing Neurogenin-2 Stimulate Axonal Sprouting and Improve Motor Recovery after Severe Spinal Cord Injury.
- Author
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Perrin, Florence E., Boniface, Guillaume, Serguera, Che, Lonjon, Nicolas, Serre, Angeline, Prieto, Monica, Mallet, Jacques, and Privat, Alain
- Subjects
- *
SPINAL cord injuries , *REGENERATIVE medicine , *CELL transplantation , *ANIMAL models in research , *NERVE grafting , *MEDICAL research , *CLINICAL trials , *MOTOR neurons , *GENETIC mutation - Abstract
Background: Spinal cord injury (SCI) is a widely spread pathology with currently no effective treatment for any symptom. Regenerative medicine through cell transplantation is a very attractive strategy and may be used in different non-exclusive ways to promote functional recovery. We investigated functional and structural outcomes after grafting human embryonic neural progenitors (hENPs) in spinal cord-lesioned rats. Methods and Principal Findings: With the objective of translation to clinics we have chosen a paradigm of delayed grafting, i.e., one week after lesion, in a severe model of spinal cord compression in adult rats. hENPs were either naïve or engineered to express Neurogenin 2 (Ngn2). Moreover, we have compared integrating and non-integrating lentiviral vectors, since the latter present reduced risks of insertional mutagenesis. We show that transplantation of hENPs transduced to express Ngn2 fully restore weight support and improve functional motor recovery after severe spinal cord compression at thoracic level. This was correlated with partial restoration of serotonin innervations at lumbar level, and translocation of 5HT1A receptors to the plasma membrane of motoneurons. Since hENPs were not detectable 4 weeks after grafting, transitory expression of Ngn2 appears sufficient to achieve motor recovery and to permit axonal regeneration. Importantly, we also demonstrate that transplantation of naïve hENPs is detrimental to functional recovery. Conclusions and Significance: Transplantation and short-term survival of Ngn2-expressing hENPs restore weight support after SCI and partially restore serotonin fibers density and 5HT1A receptor pattern caudal to the lesion. Moreover, grafting of naïve-hENPs was found to worsen the outcome versus injured only animals, thus pointing to the possible detrimental effect of stem cell-based therapy per se in SCI. This is of major importance given the increasing number of clinical trials involving cell grafting developed for SCI patients. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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- View/download PDF
40. Overexpression of the Mitochondrial T3 Receptor Induces Skeletal Muscle Atrophy during Aging.
- Author
-
Casas, François, Pessemesse, Laurence, Grandemange, Stéphanie, Seyer, Pascal, Baris, Olivier, Gueguen, Naïg, Ramonatxo, Christelle, Perrin, Florence, Fouret, Gilles, Lepourry, Laurence, Cabello, Gérard, and Wrutniak-Cabello, Chantal
- Subjects
GENE expression ,MITOCHONDRIA ,MUSCULAR atrophy ,TRANSCRIPTION factors ,ORGANELLE formation ,AGING ,MICE ,ANIMAL experimentation - Abstract
In previous studies, we characterized a new hormonal pathway involving a mitochondrial T3 receptor (p43) acting as a mitochondrial transcription factor. In in vitro and in vivo studies, we have shown that p43 increases mitochondrial transcription and mitochondrial biogenesis. In addition, p43 overexpression in skeletal muscle stimulates mitochondrial respiration and induces a shift in metabolic and contractile features of muscle fibers which became more oxidative. Here we have studied the influence of p43 overexpression in skeletal muscle of mice during aging. We report that p43 overexpression initially increased mitochondrial mass. However, after the early rise in mitochondrial DNA occurring at 2 months of age in transgenic mice, we observed a progressive decrease of mitochondrial DNA content which became 2-fold lower at 23 months of age relatively to control animals. Moreover, p43 overexpression induced an oxidative stress characterized by a strong increase of lipid peroxidation and protein oxidation in quadriceps muscle, although antioxidant enzyme activities (catalase and superoxide dismutase) were stimulated. In addition, muscle atrophy became detectable at 6 months of age, probably through a stimulation of the ubiquitin proteasome pathway via two muscle-specific ubiquitin ligases E3, Atrogin-1/MAFbx and MuRF1. Taken together, these results demonstrate that a prolonged stimulation of mitochondrial activity induces muscle atrophy. In addition, these data underline the importance of a tight control of p43 expression and suggest that a deregulation of the direct T3 mitochondrial pathway could be one of the parameters involved in the occurrence of sarcopenia. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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- View/download PDF
41. RNA Profiling of Mouse Ependymal Cells after Spinal Cord Injury Identifies the Oncostatin Pathway as a Potential Key Regulator of Spinal Cord Stem Cell Fate.
- Author
-
Chevreau, Robert, Ghazale, Hussein, Ripoll, Chantal, Chalfouh, Chaima, Delarue, Quentin, Hemonnot-Girard, Anne Laure, Mamaeva, Daria, Hirbec, Helene, Rothhut, Bernard, Wahane, Shalaka, Perrin, Florence Evelyne, Noristani, Harun Najib, Guerout, Nicolas, and Hugnot, Jean Philippe
- Subjects
SPINAL cord injuries ,MICROGLIA ,SPINAL cord ,STEM cells ,RNA ,TRANSCRIPTION factors - Abstract
Ependymal cells reside in the adult spinal cord and display stem cell properties in vitro. They proliferate after spinal cord injury and produce neurons in lower vertebrates but predominantly astrocytes in mammals. The mechanisms underlying this glial-biased differentiation remain ill-defined. We addressed this issue by generating a molecular resource through RNA profiling of ependymal cells before and after injury. We found that these cells activate STAT3 and ERK/MAPK signaling post injury and downregulate cilia-associated genes and FOXJ1, a central transcription factor in ciliogenesis. Conversely, they upregulate 510 genes, seven of them more than 20-fold, namely Crym, Ecm1, Ifi202b, Nupr1, Rbp1, Thbs2 and Osmr—the receptor for oncostatin, a microglia-specific cytokine which too is strongly upregulated after injury. We studied the regulation and role of Osmr using neurospheres derived from the adult spinal cord. We found that oncostatin induced strong Osmr and p-STAT3 expression in these cells which is associated with reduction of proliferation and promotion of astrocytic versus oligodendrocytic differentiation. Microglial cells are apposed to ependymal cells in vivo and co-culture experiments showed that these cells upregulate Osmr in neurosphere cultures. Collectively, these results support the notion that microglial cells and Osmr/Oncostatin pathway may regulate the astrocytic fate of ependymal cells in spinal cord injury. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
42. Unlike Brief Inhibition of Microglia Proliferation after Spinal Cord Injury, Long-Term Treatment Does Not Improve Motor Recovery.
- Author
-
Poulen, Gaëtan, Bartolami, Sylvain, Noristani, Harun N., Perrin, Florence E., and Gerber, Yannick N.
- Subjects
SPINAL cord injuries ,DIFFUSION magnetic resonance imaging ,MACROPHAGE colony-stimulating factor ,MICROGLIA ,ORAL drug administration - Abstract
Microglia are major players in scar formation after an injury to the spinal cord. Microglia proliferation, differentiation, and survival are regulated by the colony-stimulating factor 1 (CSF1). Complete microglia elimination using CSF1 receptor (CSF1R) inhibitors worsens motor function recovery after spinal injury (SCI). Conversely, a 1-week oral treatment with GW2580, a CSF1R inhibitor that only inhibits microglia proliferation, promotes motor recovery. Here, we investigate whether prolonged GW2580 treatment further increases beneficial effects on locomotion after SCI. We thus assessed the effect of a 6-week GW2580 oral treatment after lateral hemisection of the spinal cord on functional recovery and its outcome on tissue and cellular responses in adult mice. Long-term depletion of microglia proliferation after SCI failed to improve motor recovery and had no effect on tissue reorganization, as revealed by ex vivo diffusion-weighted magnetic resonance imaging. Six weeks after SCI, GW2580 treatment decreased microglial reactivity and increased astrocytic reactivity. We thus demonstrate that increasing the duration of GW2580 treatment is not beneficial for motor recovery after SCI. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
43. Grafted neural stem cells increase the life span and protect motoneurons in pmn mice.
- Author
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Ferrer-Alcon, Marcel, Winkler-Hirt, Carine, Perrin, Florence E., and Kato, Ann C.
- Published
- 2007
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44. Motoneuron Resistance to Apoptotic Cell Death In Vivo Correlates with the Ratio between X-Linked Inhibitor of Apoptosis Proteins (XIAPs) and Its Inhibitor, XIAP-Associated Factor 1.
- Author
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Perrelet, Daniel, Perrin, Florence E., Liston, Peter, Korneluk, Robert G., MacKenzie, Alex, Ferrer-Alcon, Marcel, and Kato, Ann C.
- Subjects
- *
DEATH (Biology) , *CELL death , *CELLS , *PROTEINS , *NERVOUS system , *ANTIGEN analysis , *SCIATIC nerve , *SPINAL nerves - Abstract
Apoptotic cell death occurs in motoneurons in the neonate but not in the adult after a lesion of a peripheral nerve. To investigate the molecular basis for this difference, we have analyzed the expression and localization of inhibitors of apoptosis proteins (IAPs) and their inhibitors X-linked IAP (XIAP)-associated factor 1 (XAF1), Smac/DIABLO, and Omi/HtrA2 in motoneurons at both ages. Quantitative immunohistochemical and immunoblotting analysis of these proteins in motoneurons revealed an increase in IAP expression [XIAP, neuronal apoptosis inhibitory protein, human IAPI (HIAPI), and HIAP2] during postnatal development as opposed to XAF1, which decreased during the same period; there was no significant alteration in either Smac/DIABO or Omi/HtrA2. The regulation of IAPs and XAF1 varied after axotomy of the sciatic nerve; in the neonate, there was a significant loss of IAP in the injured motoneurons as opposed to the adult, in which there was only a moderate decrease. By overexpressing exogenous IAPs in neonatal axotomized motoneurons, it was possible to delay motoneuron cell death (Perrelet et al., 2000, 2002). In opposition, the overexpression of exogenous XAF1 in adult motoneurons totally abrogated the natural resistance of these cells to axotomy. The degradation in the adult, induced by XAF1, could be overcome by simultaneously expressing high levels of exogenous XIAP in adult motoneurons. These experiments suggest that it may be the ratio between XAF1 and XIAP that confers the resistance of adult motoneurons to axotomy. In addition, the regulation in the levels of IAPs and XAF1 may be essential in the cell death mechanism of injured motoneurons. [ABSTRACT FROM AUTHOR]
- Published
- 2004
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- View/download PDF
45. Use of lipophilic dyes in studies of axonal pathfinding in vivo.
- Author
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Perrin, Florence E. and Stoeckli, Esther T.
- Published
- 2000
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46. Negative Impact of Sigma-1 Receptor Agonist Treatment on Tissue Integrity and Motor Function Following Spinal Cord Injury.
- Author
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Lattard, Alise, Poulen, Gaëtan, Bartolami, Sylvain, Gerber, Yannick N., and Perrin, Florence E.
- Subjects
SPINAL cord injuries ,CERVICAL cord ,DIFFUSION magnetic resonance imaging ,CENTRAL nervous system - Abstract
In traumatic spinal cord injury, the initial trauma is followed by a cascade of impairments, including excitotoxicity and calcium overload, which ultimately induces secondary damages. The sigma-1 receptor is widely expressed in the central nervous system and is acknowledged to play a key role in calcium homeostasis. Treatments with agonists of the sigma-1 receptor induce beneficial effects in several animal models of neurological diseases. In traumatic injury the use of an antagonist of the sigma-1 receptor reversed several symptoms of central neuropathic pain. Here, we investigated whether sigma-1 receptor activation with PRE-084 is beneficial or detrimental following SCI in mice. First, we report that PRE-084 treatment after injury does not improve motor function recovery. Second, using ex vivo diffusion weighted magnetic resonance imaging completed by histological analysis, we highlight that σ1R agonist treatment after SCI does not limit lesion size. Finally, PRE-084 treatment following SCI decreases NeuN expression and increases astrocytic reactivity. Our findings suggest that activation of sigma-1 receptor after traumatic spinal cord injury is detrimental on tissue preservation and motor function recovery in mice. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
47. Isolation of mineralizing Nestin+ Nkx6.1+ vascular muscular cells from the adult human spinal cord.
- Author
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Mamaeva, Daria, Ripoll, Chantal, Bony, Claire, Teigell, Marisa, Perrin, Florence E, Rothhut, Bernard, Bieche, Ivan, Lidereau, Rosette, Privat, Alain, Rigau, Valérie, Guillon, Hélène, Vachiery-Lahaye, Florence, Noel, Daniele, Bauchet, Luc, and Hugnot, Jean-Philippe
- Abstract
Background: The adult central nervous system (CNS) contains different populations of immature cells that could possibly be used to repair brain and spinal cord lesions. The diversity and the properties of these cells in the human adult CNS remain to be fully explored. We previously isolated Nestin+ Sox2+ neural multipotential cells from the adult human spinal cord using the neurosphere method (i.e. non adherent conditions and defined medium).Results: Here we report the isolation and long term propagation of another population of Nestin+ cells from this tissue using adherent culture conditions and serum. QPCR and immunofluorescence indicated that these cells had mesenchymal features as evidenced by the expression of Snai2 and Twist1 and lack of expression of neural markers such as Sox2, Olig2 or GFAP. Indeed, these cells expressed markers typical of smooth muscle vascular cells such as Calponin, Caldesmone and Acta2 (Smooth muscle actin). These cells could not differentiate into chondrocytes, adipocytes, neuronal and glial cells, however they readily mineralized when placed in osteogenic conditions. Further characterization allowed us to identify the Nkx6.1 transcription factor as a marker for these cells. Nkx6.1 was expressed in vivo by CNS vascular muscular cells located in the parenchyma and the meninges.Conclusion: Smooth muscle cells expressing Nestin and Nkx6.1 is the main cell population derived from culturing human spinal cord cells in adherent conditions with serum. Mineralization of these cells in vitro could represent a valuable model for studying calcifications of CNS vessels which are observed in pathological situations or as part of the normal aging. In addition, long term propagation of these cells will allow the study of their interaction with other CNS cells and their implication in scar formation during spinal cord injury. [ABSTRACT FROM AUTHOR]- Published
- 2011
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- View/download PDF
48. Feasibility of nanocrystalline cellulose production by endoglucanase treatment of natural bast fibers.
- Author
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Xu, Yali, Salmi, Jani, Kloser, Elisabeth, Perrin, Florence, Grosse, Stephan, Denault, Johanne, and Lau, Peter C.K.
- Subjects
- *
NANOCRYSTALS , *CELLULOSE , *PLANT fibers , *FEASIBILITY studies , *COMPARATIVE studies , *CATALYSTS - Abstract
Highlights: [•] A green route toward NCC production from natural bast fibers was sought. [•] A new thermostable endoglucanase of fungal origin acted as catalyst. [•] Rod-like nanofibrils of ∼10nm in height and 200nm in length were demonstrated. [•] NCC yield by physical pretreatment or combined physical–chemical method were compared. [Copyright &y& Elsevier]
- Published
- 2013
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49. In vivo astrocyte reprogramming following spinal cord injury.
- Author
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Gerber YN and Perrin FE
- Abstract
Competing Interests: None
- Published
- 2024
- Full Text
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50. Isolation and Culture of Precursor Cells from the Adult Human Spinal Cord.
- Author
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Bauchet L, Poulen G, Lonjon N, Vachiery-Lahaye F, Bourinet E, Perrin FE, and Hugnot JP
- Subjects
- Adult, Cell Culture Techniques, Cell Separation, Ganglia, Spinal, Humans, Neural Stem Cells, Spinal Cord
- Abstract
We demonstrated the presence of neural stem cells and/or progenitor cells in the adult human spinal cord. This chapter provides materials and methods to harvest high-quality samples of thoracolumbar, lumbar, and sacral adult human spinal cord and human dorsal root ganglia isolated from brain-dead patients who had agreed before passing to donate their bodies to science for therapeutic and scientific advances. The methods to culture precursor cells from the adult human spinal cord are also described., (© 2022. Springer Science+Business Media, LLC, part of Springer Nature.)
- Published
- 2022
- Full Text
- View/download PDF
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