De la cicatrisation à la fibrose dermique

978-2-9535434-0-

Effect of the CD14/TLR4 pathway on glioblastoma cell proliferation induced by CD95/CD95L pathway activation

International audienc

DNA photocleavage by porphyrin-polyamine conjugates.

International audienceA series of polyamine-porphyrin conjugates bearing two (cis or trans position) or four units of spermidine or spermine was synthesized. We studied the binding of these cationic porphyrins to calf thymus DNA by the means of UV-vis spectroscopy and we investigated their ability to cleave plasmid DNA in the presence of light. DNA binding and DNA photocleavage abilities were found to depend on structural characteristics as (a) the relative positions of the side chains on the porphyrin ring and (b) the nature of the attached side chains (spermidine or spermine). DNA cleavage was also studied in the presence of a singlet oxygen quencher (NaN(3)) and in the presence of a hydroxyl radical scavenger (mannitol). Singlet oxygen was the major species responsible for the cleavage of DNA previously observed. Collectively, these data show that polyamine-porphyrin conjugates could be promising phototherapeutic agents

Isolation of Astrocytes Displaying Myofibroblast Properties and Present in Multiple Sclerosis Lesions

International audienceA wide heterogeneity of lesions can affect the central nervous system (CNS). In all situations where neurons are damaged, including multiple sclerosis (MS), a common reactive astrocytosis is present. Sedimentation field-flow fractionation (SdFFF) was used to sort astrocyte subpopulations. After SdFFF elution, cells, prepared from rat newborn cortex, were cultured and analyzed by immunocytofluorescence for glial fibrillary acidic protein (GFAP) and α-smooth muscle (SM) actin (a specific marker for myofibroblasts) expression. Cell contractile capacity was studied. Samples from patients with MS were also analyzed. Three main fractions (F1, F2, and F3) were isolated and compared with the total eluted population (TP). TP, F1, F2, and F3, contained respectively 74, 96, 12, and 98% of GFAP expressing astrocytes. In F3, astrocytes only expressed GFAP while in F1, astrocytes expressed both GFAP and α-SM actin. In F2 and TP, α-SM actin expression was barely detected. F3-derived cells showed higher contractile capacities compared with F1-derived cells. In one specific case of MS known as Baló's concentric MS, astrocytes expressing both GFAP and α-SM actin were detected. Using SdFFF, a population of astrocytes presenting myofibroblast properties was isolated. This subpopulation of astrocytes was also observed in a MS sample suggesting that it could be involved in lesion formation and remodeling during CNS pathologies

Fast astrocyte isolation by sedimentation field flow fractionation

International audienceAstrocytes play a key role during central nervous system (CNS) repair and glial scar formation. After CNS damage, an extensive deposition of the extracellular matrix produced by the activated astrocytes limits the extension of the lesion but impairs axon outgrowth and functional recovery. Until now, methods to obtain astrocytes need long culture period and laborious cell culture conditions and do not allow the isolation of pure astrocyte preparation. In this study, we used sedimentation field flow fractionation (SdFFF) to rapidly sort well preserved astrocyte population. Four main cell fractions, the total eluted population (TP), and fractions F1, F2, and F3, were isolated by SdFFF from rat newborn cortex. After elution, cells were cultured for one week, and analyzed by immunocytofluorescence using antibodies against specific epitopes: glial fibrillary acidic protein (GFAP), O4, β-III tubulin, and CD 68, labelling respectively astrocytes, oligodendrocytes, neurons, and microglial cells. SdFFF eluted cells were compared with the cells obtained with the classical method. Results showed that SdFFF appeared to be a rapid (one week) and effective method to sort enriched populations of viable and functional astrocytes. In particular, F1 and F3 fractions contained high percentage of GFAP expressing cells (95.6% and 98.0%, respectively). Results also showed that F1 derived cell cultures contained large astrocytes that spread in the culture dish while in fraction F3 derived cell cultures, astrocytes were small, showing a tendency to aggregate and displaying higher migratory capacities than those of fraction F1. Thanks to SdFFF, isolation of almost pure astrocyte populations was rapidly obtained. In addition, the isolation of different astrocyte subpopulations showing different behaviors offers a new perspective to better understand the glial scar formation and remodeling after CNS damage

Photodynamic effects of porphyrin-polyamine conjugates in human breast cancer and keratinocyte cell lines.

International audiencePorphyrin-polyamine conjugates bearing two (cis or trans position) or four spermidine or spermine units were synthesized. We studied the photostability, the hydrophilic/lipophilic balance of porphyrin-polyamine derivatives and the production of singlet oxygen. All these compounds possess physicochemical features required for their use in PDT. Then, we investigated the photocytotoxic efficacy of these porphyrin-polyamine derivatives and the cell death pathway implicated. All compounds appear to be more efficient than Photofrin® to induce HaCat and MCF7 cell death, essentially by apoptosis. Collectively, these data show that porphyrin-polyamine conjugates could be promising phototherapeutic agents

Erythropoietin restores C-fiber function and prevents pressure ulcer formation in diabetic mice.

International audiencePressure-induced vasodilatation (PIV), a cutaneous physiological neurovascular (C-fiber/endothelium) mechanism, is altered in diabetes and could possibly contribute to pressure ulcer development. We wanted to determine whether recombinant human erythropoietin (rhEPO), which has protective neurovascular effects, could prevent PIV alteration and pressure ulcer formation. We developed a skin pressure ulcer model in mice by applying two magnetic plates to the dorsal skin. This induced significant stage 2 ulcers (assessed visually and histologically) in streptozotocin-treated mice with 8 weeks of diabetes compared with very few in controls. Control and streptozotocin mice received either no treatment or systematic rhEPO (3,000 UI kg(-1) intraperitoneally, twice a week) during the last 2 weeks of diabetes. After 8 weeks of diabetes, we assessed ulcer development, PIV, endothelium-dependent vasodilation, C-fiber-mediated nociception threshold, and skin innervation density. Pretreatment with rhEPO fully prevented ulcer development in streptozotocin mice and also fully restored C-fiber nociception, skin innervation density, and significantly improved PIV, but had no effect on endothelium-dependent vasodilation. Our finding that rhEPO treatment protects the skin against pressure-induced ulcers in diabetic mice encourages evaluation of the therapeutic potential for non-hematopoietic analogs of EPO in preventing neuropathic diabetic ulcers

Neural Stem Cell Properties of an Astrocyte Subpopulation Sorted by Sedimentation Field-Flow Fractionation

International audienceAstrocytes encompass a heterogeneous cell population. Using sedimentation field-flow fractionation (SdFFF) method, different, almost pure, astrocyte subpopulations were isolated. Cells were collected from cortex of newborn rats and sorted by SdFFF to obtain different fractions, which were subjected to protein analysis and characterized by immunocytofluorescence. The behavior of the cells was analyzed in vitro, under culture conditions used for neural stem cells. These culture conditions were also applied to cells derived from an adult cortical tissue after traumatic brain injury (TBI). Finally, the astrocytic neural stem-like cells were transplanted in damaged sciatic nerve. Protein analysis indicated a high expression of glial fibrillary acidic protein (GFAP) and vimentin in fraction F3-derived cells. These cells formed neurospheres when cultured with epidermal growth factor and large colonies in a collagen-containing semi-solid matrix. Neurospheres expressed GFAP and nestin and were able in addition to generate neurons expressing MAP2 and oligodendrocytes expressing Olig2. When transplanted in a damaged nerve, cells of F3-derived neurospheres colonized the damaged area. Finally, after TBI in adult rats, cells able to form neurospheres containing a subpopulation of astrocytes expressing vimentin were obtained. Using the SdFFF method, an astrocyte subpopulation presenting stem cell properties was isolated from a newborn rat cortex and from an injured adult rat cortex. The specific activation of this astrocyte subpopulation may provide a potential therapeutic approach to restore lost neuronal function in injured or diseased brain

TLR4 signal transduction pathways neutralize the effect of Fas signals on glioblastoma cell proliferation and migration.

The Fas pathway is described as an activator of the glioblastoma proliferation by increasing the pathogenicity of this tumour. The lipopolysaccharide (LPS) pathway depending on Toll-like receptor 4 (TLR4) could limit the glioblastoma spreading. Here, Fas and TLR4 pathways were activated in glioblastoma cell lines by an agonist antibody and/or LPS treatment. Activation of the Fas pathway or of the TLR4 pathway induced cell proliferation. However, simultaneous treatment with agonist antibody and LPS decreased proliferation. This anti-proliferative effect was caspase dependent, and a decreased cell migration and matrix metalloproteinase (MMP)-9 expression were also observed. Both TLR4 and MMP-9 were highly expressed in human glioblastoma tissues. These data suggest that TLR4 signal transduction pathways neutralize proliferation and migration induced by Fas pathway activation in glioblastoma cell lines