Carole Baron scite author profile

In HeLa cells, Shiga toxin B-subunit is transported from the plasma membrane to the endoplasmic reticulum, via early endosomes and the Golgi apparatus, circumventing the late endocytic pathway. We describe here that in cells derived from human monocytes, i.e., macrophages and dendritic cells, the B-subunit was internalized in a receptor-dependent manner, but retrograde transport to the biosynthetic/secretory pathway did not occur and part of the internalized protein was degraded in lysosomes. These differences correlated with the observation that the B-subunit associated with Triton X-100-resistant membranes in HeLa cells, but not in monocyte-derived cells, suggesting that retrograde targeting to the biosynthetic/secretory pathway required association with specialized microdomains of biological membranes. In agreement with this hypothesis we found that in HeLa cells, the B-subunit resisted extraction by Triton X-100 until its arrival in the target compartments of the retrograde pathway, i.e., the Golgi apparatus and the endoplasmic reticulum. Furthermore, destabilization of Triton X-100-resistant membranes by cholesterol extraction potently inhibited B-subunit transport from early endosomes to the trans-Golgi network, whereas under the same conditions, recycling of transferrin was not affected. Our data thus provide first evidence for a role of lipid asymmetry in membrane sorting at the interface between early endosomes and the trans-Golgi network.

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Role of Diacylglycerol in PKD Recruitment to the TGN and Protein Transport to the Plasma Membrane

Baron

Malhotra

2002

Science

391

354

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Protein kinase D (PKD) is a cytosolic serine-threonine kinase that binds to the trans-Golgi network (TGN) and regulates the fission of transport carriers specifically destined to the cell surface. PKD was found to bind diacylglycerol (DAG), and this binding was necessary for its recruitment to the TGN. Reducing cellular levels of DAG inhibited PKD recruitment and blocked protein transport from the TGN to the cell surface. Thus, a DAG-dependent, PKD-mediated signaling regulates the formation of transport carriers from the TGN in mammalian cells.

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Immune depression syndrome following human spinal cord injury (SCI): A pilot study

Riegger¹,

Conrad

Schluesener³

et al. 2009

Neuroscience

144

114

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Cutting Edge Communication: In Vitro Generation of Dendritic Cells from Human Blood Monocytes in Experimental Conditions Compatible for In Vivo Cell Therapy

Cao¹,

Vergé²,

Baron³

et al. 2000

Journal of Hematotherapy & Stem Cell Research

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DC are professional APC that are promising adjuvants for clinical immunotherapy. Methods to generate in vitro large numbers of functional human DC using either peripheral blood monocytes or CD34+ pluripotent HPC have been developed recently. However, the various steps of their in vitro production for further clinical use need to fit good manufacturing practice (GMP) conditions. Our study focused on setting up such a full procedure, including collection of mononuclear cells (MNC) by apheresis, separation of monocytes by elutriation, and culture of monocytes with GM-CSF + IL-13 + autologous serum (SAuto) in sterile Teflon bags. The procedure was first developed with apheresis products from 7 healthy donors. Its clinical feasibility was then tested on 7 patients with breast cancer. The characteristics of monocyte-derived DC grown with SAuto (or in some instances with a pooled AB serum) were compared with those obtained in the presence of FBS by evaluation of their phenotype, their morphology in confocal microscopy, and their capacity to phagocytize latex particles and to stimulate allogeneic (MLR) or autologous lymphocytes (antigen-presentation tests). The results obtained demonstrate that the experimental conditions we set up are easily applicable in clinical trials and lead to large numbers of well-defined SAuto-derived DC as efficient as those derived with FBS.

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Potassium Chloride Pulse Enhances Mitogen‐Activated Protein Kinase Activity in Rat Hippocampal Slices

Baron

Benes

Tan

et al. 1996

Journal of Neurochemistry

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Mitogen‐activated protein (MAP) kinases have been implicated in multiple responses to extracellular stimuli. In this study we show that MAP kinase activity is enhanced after a KCI pulse. This activation correlates with an increased tyrosine phosphorylation of a 42‐kDa protein as determined by antiphosphotyrosine immunoblot. The same band is found in an anti‐MAP kinase immunoblot. Activity is enhanced within 1 min, reaches a maximum at 2 min, and returns to basal level after 10 min. A second peak of activity is observed between 12 and 30 min. The activation is completely blocked by 6‐cyano‐7‐nitroquinoxaline‐2,3‐dione (CNQX), showing the involvement of the AMPA type of glutamate receptor. Partial inhibition of MAP kinase activation by 2‐amino‐5‐phosphonovalerate (APV) also shows the involvement of the NMDA receptor. Because the KCI pulse used induces long‐term potentiation (LTP) in rat hippocampal slice, we conclude that MAP kinase may be involved in neuronal transduction events leading to LTP.

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Carole Baron

Targeting of Shiga Toxin B-Subunit to Retrograde Transport Route in Association with Detergent-resistant Membranes

Role of Diacylglycerol in PKD Recruitment to the TGN and Protein Transport to the Plasma Membrane

Immune depression syndrome following human spinal cord injury (SCI): A pilot study

Cutting Edge Communication: In Vitro Generation of Dendritic Cells from Human Blood Monocytes in Experimental Conditions Compatible for In Vivo Cell Therapy

Potassium Chloride Pulse Enhances Mitogen‐Activated Protein Kinase Activity in Rat Hippocampal Slices

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