Françoise Pons scite author profile

Chemokines have been convincingly implicated in driving leukocyte emigration in different inflammatory reactions. However, the cellular and molecular mechanisms of chemokine involvement in leukocyte emigration are not clear. We and others suggested that leukocyte adhesion to the endothelium and transmigration are induced by chemokines immobilized on the endothelial cell surface. This would require the presence of specific chemokine binding sites in this microanatomical location. Using an in situ binding assay we demonstrated the presence of binding sites for interleukin-8 (IL-8) and RANTES, but not monocyte inflammatory protein-1 alpha on the endothelium of postcapillary venules and small veins in human skin. In contrast, venules and veins in various anatomical locations showed dramatically differing IL-8 binding patterns. The subcellular distribution of IL-8 in the venular endothelial cells following its in vivo and ex vivo injections was studied by use of electron microscopy. Our results suggest that IL-8 was internalized by the endothelial cells, transported transcellularly via plasmalemmal vesicles, and released onto the luminal surface where it appeared located preferentially on tips of membrane protrusions. We were unable to study the endothelial IL-8 binding or transport in vitro because all the in vitro propagated endothelial cell lines and primary endothelial cells tested lacked IL-8 binding sites. This includes human umbilical vein endothelial cells (HUVECs), which also did not bind IL-8 in situ. However, HUVECs provided a satisfactory in vitro system to study the secretion of IL-8 by the endothelial cells. Two possible alternative pathways were described: secretion directly from the Golgi apparatus or following storage in Weibel-Palade bodies.

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Erratum: Calpain 3 deficiency is associated with myonuclear apoptosis and profound perturbation of the IkBa/NF-kB pathway in limb-girdle muscular dystrophy type 2A

Baghdiguian¹,

Martin²,

Richard³

et al. 1999

Nat Med

128

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Cytoskeletal protein contents before and after hindlimb suspension in a fast and slow rat skeletal muscle

Chopard

Pons

Marini

2001

American Journal of Physiology-Regulatory, Integrative and Comp

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Transversal cytoskeletal organization of muscle fibers is well described, although very few data are available concerning protein content. Measurements of desmin, alpha-actinin, and actin contents in soleus and extensor digitorum longus (EDL) rat skeletal muscles, taken with the results previously reported for several dystrophin-glycoprotein complex (DGC) components, indicate that the contents of most cytoskeletal proteins are higher in slow-type fibers than in fast ones. The effects of hypokinesia and unloading on the cytoskeleton were also investigated, using hindlimb suspension. First, this resulted in a decrease in contractile protein contents, only after 6 wk, in the soleus. Dystrophin and associated proteins were shown to be reduced for soleus at 3 wk, whereas only the dystrophin-associated proteins were found to increase after 6 wk. On the other hand, the contents of DGC components were increased for EDL for the two durations. Desmin and alpha-actinin levels were unchanged in the same conditions. Consequently, it can be concluded that the cytoskeletal protein expression levels could largely contribute to muscle fiber adaptation induced by modified functional demands.

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Isolated dystrophin molecules as seen by electron microscopy.

Pons

Augier

Heilig

et al. 1990

Proc. Natl. Acad. Sci. U.S.A.

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Dystrophin, the protein product of the Duchenne muscular dystrophy locus [Hoffman, E. P., Brown, R. H., Jr., & Kunkel, L. M. (1987) CeU 51, 919-928], is expressed in striated and smooth muscles as well as in nonmuscle tissues. Examination of its primary structure has revealed that the molecule is composed of four domains, three of which share many features with the membrane cytoskeletal proteins spectrin and actinin. Dystrophin has thus been predicted to adopt a rod shape [Koenig, M., Monaco, A. P. & Kunkel, L. M. (1988) Cell 53, 219-228]. In the present study, we describe its isolation from the chicken gizzard smooth muscle and present electron microscopic images of the molecule. Polyclonal antibodies were first prepared from a dystrophin fragment derived from the chicken skeletal muscle gene (residues 1173-1728). A dystrophin-enriched membrane preparation from chicken gizzard muscle was then purified by passing it through an affinity chromatography column made with the anti-dystrophin antibodies. Electron microscopy of isolated and rotatory-shadowed dystrophin molecules revealed that the lengths measured for the dystrophin monomers (175 ± 15 nm) are compatible with a structural arrangement of the repeat sequence segments in triple-barrel a-helices connected by short-turn regions, as was earlier postulated for the repeat domains of spectrin and actinin. Electron microscopic images indicate that in addition the dystrophin molecules could present the same capacity of self-association in oligomeric structures as these cytoskeletal proteins and may thus be a part of a complex molecular meshwork essential to muscle cell function.

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Françoise Pons

Calpain 3 deficiency is associated with myonuclear apoptosis and profound perturbation of the IκBα/NF-κB pathway in limb-girdle muscular dystrophy type 2A

Some aspects of IL-8 pathophysiology III: chemokine interaction with endothelial cells

Erratum: Calpain 3 deficiency is associated with myonuclear apoptosis and profound perturbation of the IkBa/NF-kB pathway in limb-girdle muscular dystrophy type 2A

Cytoskeletal protein contents before and after hindlimb suspension in a fast and slow rat skeletal muscle

Isolated dystrophin molecules as seen by electron microscopy.

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