19 results on '"Kissa, Karima"'
Search Results
2. Quantitative imaging and semiotic phenotyping of mitochondrial network morphology in live human cells.
- Author
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Charrasse, Sophie, Racine, Victor, Saint-Omer, Charlotte, Poquillon, Titouan, Lionnard, Loïc, Ledru, Marine, Gonindard, Christophe, Delaunois, Sandrine, Kissa, Karima, Frye, Richard E., Pastore, Manuela, Reynes, Christelle, Frechet, Mathilde, Chajra, Hanane, and Aouacheria, Abdel
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KERATINOCYTE differentiation ,MITOCHONDRIA ,ORGANELLES ,HUMAN cell culture ,CYTOLOGY ,MORPHOLOGY - Abstract
The importance of mitochondria in tissue homeostasis, stress responses and human diseases, combined to their ability to transition between various structural and functional states, makes them excellent organelles for monitoring cell health. There is therefore a need for technologies to accurately analyze and quantify changes in mitochondrial organization in a variety of cells and cellular contexts. Here we present an innovative computerized method that enables accurate, multiscale, fast and cost-effective analysis of mitochondrial shape and network architecture from confocal fluorescence images by providing more than thirty features. In order to facilitate interpretation of the quantitative results, we introduced two innovations: the use of Kiviat-graphs (herein named MitoSpider plots) to present highly multidimensional data and visualization of the various mito-cellular configurations in the form of morphospace diagrams (called MitoSigils). We tested our fully automated image analysis tool on rich datasets gathered from live normal human skin cells cultured under basal conditions or exposed to specific stress including UVB irradiation and pesticide exposure. We demonstrated the ability of our proprietary software (named MitoTouch) to sensitively discriminate between control and stressed dermal fibroblasts, and between normal fibroblasts and other cell types (including cancer tissue-derived fibroblasts and primary keratinocytes), showing that our automated analysis captures subtle differences in morphology. Based on this novel algorithm, we report the identification of a protective natural ingredient that mitigates the deleterious impact of hydrogen peroxide (H2O2) on mitochondrial organization. Hence we conceived a novel wet-plus-dry pipeline combining cell cultures, quantitative imaging and semiotic analysis for exhaustive analysis of mitochondrial morphology in living adherent cells. Our tool has potential for broader applications in other research areas such as cell biology and medicine, high-throughput drug screening as well as predictive and environmental toxicology. [ABSTRACT FROM AUTHOR]
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- 2024
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3. The ROSA-Like Prophage Colonizing Staphylococcus aureus Promotes Intracellular Survival, Biofilm Formation, and Virulence in a Chronic Wound Environment.
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Ahmad-Mansour, Nour, Plumet, Lucile, Pouget, Cassandra, Kissa, Karima, Dunyach-Remy, Catherine, Sotto, Albert, Lavigne, Jean-Philippe, and Molle, Virginie
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CHRONIC wounds & injuries ,STAPHYLOCOCCUS aureus ,DIABETIC foot ,COLONIZATION (Ecology) ,MICROCOCCACEAE ,BIOFILMS ,LABORATORY zebrafish - Abstract
Background The transition from colonization to invasion is critical in diabetic foot ulcer (DFU). Staphylococcus aureus can colonize DFU, or invade the underlying tissues, causing serious infections. The ROSA-like prophage has previously been implicated in strain colonization characteristics of S aureus isolates in uninfected ulcers. Methods In this study, we investigated this prophage in the S aureus -colonizing strain using an in vitro chronic wound medium mimicking the chronic wound environment. Results Chronic wound medium reduced bacterial growth and increased biofilm formation and virulence in a zebrafish model. Conclusions The ROSA-like prophage promoted intracellular survival of S aureus -colonizing strain in macrophages, keratinocytes, and osteoblasts. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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4. Bacteriophage Therapy for Staphylococcus Aureus Infections: A Review of Animal Models, Treatments, and Clinical Trials.
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Plumet, Lucile, Ahmad-Mansour, Nour, Dunyach-Remy, Catherine, Kissa, Karima, Sotto, Albert, Lavigne, Jean-Philippe, Costechareyre, Denis, and Molle, Virginie
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STAPHYLOCOCCUS aureus infections ,BACTERIOPHAGES ,TOXIC shock syndrome ,METHICILLIN-resistant staphylococcus aureus ,CLINICAL trials ,ANIMAL models in research - Abstract
Staphylococcus aureus (S. aureus) is a common and virulent human pathogen causing several serious illnesses including skin abscesses, wound infections, endocarditis, osteomyelitis, pneumonia, and toxic shock syndrome. Antibiotics were first introduced in the 1940s, leading to the belief that bacterial illnesses would be eradicated. However, microorganisms, including S. aureus , began to develop antibiotic resistance from the increased use and abuse of antibiotics. Antibiotic resistance is now one of the most serious threats to global public health. Bacteria like methicillin-resistant Staphylococcus aureus (MRSA) remain a major problem despite several efforts to find new antibiotics. New treatment approaches are required, with bacteriophage treatment, a non-antibiotic strategy to treat bacterial infections, showing particular promise. The ability of S. aureus to resist a wide range of antibiotics makes it an ideal candidate for phage therapy studies. Bacteriophages have a relatively restricted range of action, enabling them to target pathogenic bacteria. Their usage, usually in the form of a cocktail of bacteriophages, allows for more focused treatment while also overcoming the emergence of resistance. However, many obstacles remain, particularly in terms of their effects in vivo , necessitating the development of animal models to assess the bacteriophage efficiency. Here, we provide a review of the animal models, the various clinical case treatments, and clinical trials for S. aureus phage therapy. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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5. Mitochondrial morphology is associated with respiratory chain uncoupling in autism spectrum disorder.
- Author
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Frye, Richard E., Lionnard, Loïc, Singh, Indrapal, Karim, Mohammad A., Chajra, Hanane, Frechet, Mathilde, Kissa, Karima, Racine, Victor, Ammanamanchi, Amrit, McCarty, Patrick John, Delhey, Leanna, Tippett, Marie, Rose, Shannon, and Aouacheria, Abdel
- Published
- 2021
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6. Macrophage morphological plasticity and migration is Rac signalling and MMP9 dependant.
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Travnickova, Jana, Nhim, Sandra, Abdellaoui, Naoill, Djouad, Farida, Nguyen-Chi, Maï, Parmeggiani, Andrea, and Kissa, Karima
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MACROPHAGES ,EXTRACELLULAR matrix ,TISSUE remodeling ,ZEBRA danio embryos ,FISH embryos ,PROGENITOR cells - Abstract
In vitro, depending on extracellular matrix (ECM) architecture, macrophages migrate either in amoeboid or mesenchymal mode; while the first is a general trait of leukocytes, the latter is associated with tissue remodelling via Matrix Metalloproteinases (MMPs). To assess whether these stereotyped migrations could be also observed in a physiological context, we used the zebrafish embryo and monitored macrophage morphology, behaviour and capacity to mobilise haematopoietic stem/progenitor cells (HSPCs), as a final functional readout. Morphometric analysis identified 4 different cell shapes. Live imaging revealed that macrophages successively adopt all four shapes as they migrate through ECM. Treatment with inhibitors of MMPs or Rac GTPase to abolish mesenchymal migration, suppresses both ECM degradation and HSPC mobilisation while differently affecting macrophage behaviour. This study depicts real time macrophage behaviour in a physiological context and reveals extreme reactivity of these cells constantly adapting and switching migratory shapes to achieve HSPCs proper mobilisation. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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7. Modeling and live imaging of mechanical instabilities in the zebrafish aorta during hematopoiesis.
- Author
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Chalin, Dmitrii, Bureau, Charlotte, Parmeggiani, Andrea, Rochal, Sergei, Kissa, Karima, and Golushko, Ivan
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HEMATOPOIESIS ,PROGENITOR cells ,GENE expression ,CELL differentiation ,LABORATORY zebrafish - Abstract
All blood cells originate from hematopoietic stem/progenitor cells (HSPCs). HSPCs are formed from endothelial cells (ECs) of the dorsal aorta (DA), via endothelial-to-hematopoietic transition (EHT). The zebrafish is a primary model organism to study the process in vivo. While the role of mechanical stress in controlling gene expression promoting cell differentiation is actively investigated, mechanisms driving shape changes of the DA and individual ECs remain poorly understood. We address this problem by developing a new DA micromechanical model and applying it to experimental data on zebrafish morphogenesis. The model considers the DA as an isotropic tubular membrane subjected to hydrostatic blood pressure and axial stress. The DA evolution is described as a movement in the dimensionless controlling parameters space: normalized hydrostatic pressure and axial stress. We argue that HSPC production is accompanied by two mechanical instabilities arising in the system due to the plane stress in the DA walls and show how a complex interplay between mechanical forces in the system drives the emerging morphological changes. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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8. Mechanical instabilities of aorta drive blood stem cell production: a live study.
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Poullet, Nausicaa, Golushko, Ivan, Lorman, Vladimir, Travnickova, Jana, Bureau, Charlotte, Chalin, Dmitrii, Rochal, Sergei, Parmeggiani, Andrea, and Kissa, Karima
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DONOR blood supply ,STEM cells ,BLOOD cells ,PROGENITOR cells ,CLASSICAL mechanics ,THORACIC aorta - Abstract
During embryogenesis of all vertebrates, haematopoietic stem/progenitor cells (HSPCs) extrude from the aorta by a complex process named endothelial-to-haematopoietic transition (EHT). HSPCs will then colonize haematopoietic organs allowing haematopoiesis throughout adult life. The mechanism underlying EHT including the role of each aortic endothelial cell (EC) within the global aorta dynamics remains unknown. In the present study, we show for the first time that EHT involves the remodelling of individual cells within a collective migration of ECs which is tightly orchestrated, resulting in HSPCs extrusion in the sub-aortic space without compromising aorta integrity. By performing a cross-disciplinary study which combines high-resolution 4D imaging and theoretical analysis based on the concepts of classical mechanics, we propose that this complex developmental process is dependent on mechanical instabilities of the aorta preparing and facilitating the extrusion of HSPCs. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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9. Whole embryo culture, transcriptomics and RNA interference identify TBX1 and FGF11 as novel regulators of limb development in the mouse.
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Tejedor, Gautier, Laplace-Builhé, Béryl, Luz-Crawford, Patricia, Assou, Said, Barthelaix, Audrey, Mathieu, Marc, Kissa, Karima, Jorgensen, Christian, Collignon, Jérôme, Chuchana, Paul, and Djouad, Farida
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TRANSCRIPTOMES ,RNA interference ,EMBRYOS ,PLACENTA ,ANIMAL breeding - Abstract
Identifying genes involved in vertebrate developmental processes and characterizing this involvement are daunting tasks, especially in the mouse where viviparity complicates investigations. Attempting to devise a streamlined approach for this type of study we focused on limb development. We cultured E10.5 and E12.5 embryos and performed transcriptional profiling to track molecular changes in the forelimb bud over a 6-hour time-window. The expression of certain genes was found to diverge rapidly from its normal path, possibly reflecting the activation of a stress-induced response. Others, however, maintained for up to 3 hours dynamic expression profiles similar to those seen in utero. Some of these resilient genes were known regulators of limb development. The implication of the others in this process was either unsuspected or unsubstantiated. The localized knockdown of two such genes, Fgf11 and Tbx1, hampered forelimb bud development, providing evidence of their implication. These results show that combining embryo culture, transcriptome analysis and RNA interference could speed up the identification of genes involved in a variety of developmental processes, and the validation of their implication. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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10. Correction to: TNF signaling and macrophages govern fin regeneration in zebrafish larvae.
- Author
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Nguyen-Chi, Mai, Laplace-Builhé, Béryl, Travnickova, Jana, Luz-Crawford, Patricia, Tejedor, Gautier, Lutfalla, Georges, Kissa, Karima, Jorgensen, Christian, and Djouad, Farida
- Published
- 2018
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11. Identification of polarized macrophage subsets in zebrafish.
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Mai Nguyen-Chi, Laplace-Builhe, Béryl, Travnickova, Jana, Luz-Crawford, Patricia, Tejedor, Gautier, Quang Tien Phan, Duroux-Richard, Isabelle, Levraud, Jean-Pierre, Kissa, Karima, Lutfalla, Georges, Jorgensen, Christian, and Djouad, Farida
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MACROPHAGES ,ZEBRA danio - Abstract
The article presents the study that identifies the macrophages vital in the diverse abilities of zebrafish using the polarization process in France.
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- 2015
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12. Mycobacterium abscessus cording prevents phagocytosis and promotes abscess formation.
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Bernut, Audrey, Herrmann, Jean-Louis, Kissa, Karima, Dubremetz, Jean-François, Gaillard, Jean-Louis, Lutfalla, Georges, and Kremer, Laurent
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MYCOBACTERIUM ,PHAGOCYTOSIS ,ABSCESSES ,CYSTIC fibrosis ,MACROPHAGES ,PREVENTION ,PATIENTS - Abstract
Mycobacterium abscessus is a rapidly growing Mycobacterium causing a wide spectrum of clinical syndromes. It now is recognized as a pulmonary pathogen to which cystic fibrosis patients have a particular susceptibility. The M. abscessus rough (R) variant, devoid of cell-surface glycopeptidolipids (GPLs), causes more severe clinical disease than the smooth (S) variant, but the underlying mechanisms of R-variant virulence remain obscure. Exploiting the optical transparency of zebrafish embryos, we observed that the increased virulence of the M. abscessus R variant compared with the S variant correlated with the loss of GPL production. The virulence of the R variant involved the massive production of serpentine cords, absent during S-variant infection, and the cords initiated abscess formation leading to rapid larval death. Cording occurred within the vasculature and was highly pronounced in the central nervous system (CNS). It appears that M. abscessus is transported to the CNS within macrophages. The release of M. abscessus from apoptotic macrophages initiated the formation of cords that grew too large to be phagocytized by macrophages or neutrophils. This study is a description of the crucial role of cording in the in vivo physiopathology of M. abscessus infection and emphasizes cording as a mechanism of immune evasion. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
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13. Blood stem cells emerge from aortic endothelium by a novel type of cell transition.
- Author
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Kissa, Karima and Herbomel, Philippe
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HEMATOPOIETIC stem cells ,ENDOTHELIUM ,DEVELOPMENTAL biology ,EMBRYONIC stem cells ,CELL proliferation ,BLOOD cells ,ZEBRA danio ,CELL division ,STEM cells - Abstract
The ontogeny of haematopoietic stem cells (HSCs) during embryonic development is still highly debated, especially their possible lineage relationship to vascular endothelial cells. The first anatomical site from which cells with long-term HSC potential have been isolated is the aorta-gonad-mesonephros (AGM), more specifically the vicinity of the dorsal aortic floor. But although some authors have presented evidence that HSCs may arise directly from the aortic floor into the dorsal aortic lumen, others support the notion that HSCs first emerge within the underlying mesenchyme. Here we show by non-invasive, high-resolution imaging of live zebrafish embryos, that HSCs emerge directly from the aortic floor, through a stereotyped process that does not involve cell division but a strong bending then egress of single endothelial cells from the aortic ventral wall into the sub-aortic space, and their concomitant transformation into haematopoietic cells. The process is polarized not only in the dorso-ventral but also in the rostro-caudal versus medio-lateral direction, and depends on Runx1 expression: in Runx1-deficient embryos, the exit events are initially similar, but much rarer, and abort into violent death of the exiting cell. These results demonstrate that the aortic floor is haemogenic and that HSCs emerge from it into the sub-aortic space, not by asymmetric cell division but through a new type of cell behaviour, which we call an endothelial haematopoietic transition. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
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14. Investigating Pathogenicity and Virulence of Staphylococcus pettenkoferi: An Emerging Pathogen.
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Ahmad-Mansour, Nour, Plumet, Lucile, Huc-Brandt, Sylvaine, Magnan, Chloé, Yahiaoui-Martinez, Alex, Kissa, Karima, Pantel, Alix, Lavigne, Jean-Philippe, and Molle, Virginie
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STAPHYLOCOCCUS ,DIABETIC foot ,GENOMICS ,PATHOGENIC bacteria ,STAPHYLOCOCCUS aureus ,PERITONEAL macrophages ,ZEBRA danio ,BRACHYDANIO - Abstract
Staphylococcus pettenkoferi is a coagulase-negative Staphylococcus identified in 2002 that has been implicated in human diseases as an opportunistic pathogenic bacterium. Its multiresistant character is becoming a major health problem, yet the pathogenicity of S. pettenkoferi is poorly characterized. In this study, the pathogenicity of a S. pettenkoferi clinical isolate from diabetic foot osteomyelitis was compared with a Staphylococcus aureus strain in various in vitro and in vivo experiments. Growth kinetics were compared against S. aureus, and bacteria survival was assessed in the RAW 264.7 murine macrophage cell line, the THP-1 human leukemia monocytic cell line, and the HaCaT human keratinocyte cell line. Ex vivo analysis was performed in whole blood survival assays and in vivo assays via the infection model of zebrafish embryos. Moreover, whole-genome analysis was performed. Our results show that S. pettenkoferi was able to survive in human blood, human keratinocytes, murine macrophages, and human macrophages. S. pettenkoferi demonstrated its virulence by causing substantial embryo mortality in the zebrafish model. Genomic analysis revealed virulence factors such as biofilm-encoding genes (e.g., icaABCD; rsbUVW) and regulator-encoding genes (e.g., agr, mgrA, sarA, saeS) well characterized in S. aureus. This study thus advances the knowledge of this under-investigated pathogen and validates the zebrafish infection model for this bacterium. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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15. Histopathological and cognitive defects induced by Nef in the brain.
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Mordelet, Elodie, Kissa, Karima, Cressant, Arnaud, Gray, Francoise, Ozden, Simona, Vidal, Catherine, Charneau, Pierre, and Granon, Sylvie
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HIV ,NEUROLOGICAL disorders ,PROTEINS ,AIDS ,LABORATORY rats ,MACROPHAGES ,NEUROTOXICOLOGY - Abstract
Complex mechanisms of human immunodeficiency virus type-1 (HIV-1) brain pathogenesis suggest the contribution of individual HIV-1 gene products. Among them, the Nef protein has been reported to harbor a major determinant of pathogenicity in AIDS-like disease. The goal of the present study was to determine whether Nef protein expressed in vivo by primary macrophages could induce a brain toxicity also affecting the behavior of the rat. To achieve this goal we grafted Nef-transduced macrophages into the rat hippocampus. Two months post-transplantation, we observed that Nef induces monocyte/macrophage recruitment, expression of TNF-α, and astrogliosis. No apoptotic event was detected. We further demonstrated that Nef neurotoxicity is associated with cognitive deficits.--Mordelet, E., Kissa, K., Cressant, A., Gray, F., Ozden, S., Vidal, C., Charneau, P., Granon, S. Histopathological and cognitive defects induced by Nef in the brain. [ABSTRACT FROM AUTHOR]
- Published
- 2004
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16. Retrograde trans-synaptic transfer of green fluorescent protein allows the genetic mapping of neuronal circuits in transgenic mice.
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Maskos, Uwe, Kissa, Karima, St. Cloment, Cécile, and Brûlet, Philippe
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GREEN fluorescent protein ,NEURAL circuitry ,TETANUS toxin - Abstract
Examines the effect of the retrograde transsynaptic transfer of green fluorescent protein on neuronal circuits. Development of a genetic system for the mapping of synaptic connections; Properties of the tetanus neurotoxin; Expression of the transsynaptic marker molecule.
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- 2002
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17. Author Correction: Modeling and live imaging of mechanical instabilities in the zebrafish aorta during hematopoiesis.
- Author
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Chalin, Dmitrii, Bureau, Charlotte, Parmeggiani, Andrea, Rochal, Sergei, Kissa, Karima, and Golushko, Ivan
- Subjects
HEMATOPOIESIS ,LABORATORY zebrafish - Published
- 2021
- Full Text
- View/download PDF
18. Generating parabiotic zebrafish embryos for cell migration and homing studies.
- Author
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Demy, Doris Lou, Ranta, Zachary, Giorgi, Jean-Michel, Gonzalez, Magali, Herbomel, Philippe, and Kissa, Karima
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CYTOLOGICAL research ,PARABIOSIS ,CELL migration ,ZEBRA danio ,EMBRYOS ,BLASTULA - Abstract
Parabiosis, the surgical generation of conjoined organisms sharing a common bloodstream, has been a powerful tool for studying hematopoietic cell migration and interaction with stromal niches in rodent and avian systems. We describe a technique to generate parabiotic zebrafish embryos based on blastula fusion. This procedure permits the in vivo visualization of hematopoietic cell migration and homing to niches and peripheral tissues in zebrafish parabiotes of different genetic backgrounds. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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19. Primitive macrophages control HSPC mobilization and definitive haematopoiesis.
- Author
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Travnickova, Jana, Tran Chau, Vanessa, Julien, Emmanuelle, Mateos-Langerak, Julio, Gonzalez, Catherine, Lelièvre, Etienne, Lutfalla, Georges, Tavian, Manuela, and Kissa, Karima
- Published
- 2015
- Full Text
- View/download PDF
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