Y. Le Vern

Analysis and partial reversal of multidrug resistance to anthelmintics due to P-glycoprotein in Haemonchus contortus eggs using Lens culinaris lectin

Abstract. Our previous work has shown that drug efflux pumps close to MDR1 P-glycoprotein (Pgp) can regulate anthelmintic efflux in nematodes in a way similar to that of the mutidrug resistance system (MDR) in vertebrate cancer cells. In the present study, the role of the glycosylation of Pgp was studied using a lectin specific for the α-mannosyl residues (Lens culinaris agglutinin, LCA). Highly significant reversion (up to 50%) in the resistance to thiabendazole of eggs pre-treated with the lectin was obtained. Flow cytometric examinations were performed using FITC-labelled lectin. The results demonstrated that: (1) the number of Pgp sites was higher in resistant H aemonchus contortus, (2) resistance can also be associated with a decreased affinity of LCA for these sites, (3) eggs stained with LCA were also stained with specific MDR1 monoclonal antibodies. The implication of the glycosylation of Pgp in the activity and/or degradation of these pumps in eukaryotic cells is discussed.

Morphogenesis of a Highly Replicative EGFPVP22 Recombinant Marek's Disease Virus in Cell Culture

ABSTRACT Mareks disease virus (MDV) is an alphaherpesvirus for which infection is strictly cell associated in permissive cell culture systems. In contrast to most other alphaherpesviruses, no comprehensive ultrastructural study has been published to date describing the different stages of MDV morphogenesis. To circumvent problems linked to nonsynchronized infection and low infectivity titers, we generated a recombinant MDV expressing an enhanced green fluorescent protein fused to VP22, a major tegument protein that is not implicated in virion morphogenesis. Growth of this recombinant virus in cell culture was decreased threefold compared to that of the parental Bac20 virus, but this mutant was still highly replicative. The recombinant virus allowed us to select infected cells by cell-sorting cytometry at late stages of infection for subsequent transmission electron microscopy analysis. Under these conditions, all of the stages of assembly and virion morphogenesis could be observed except extracellular enveloped virions, even at the cell surface. We observed 10-fold fewer naked cytoplasmic capsids than nuclear capsids, and intracellular enveloped virions were very rare. The partial envelopment of capsids in the cytoplasm supports the hypothesis of the acquisition of the final envelope in this cellular compartment. We demonstrate for the first time that, compared to other alphaherpesviruses, MDV seems deficient in three crucial steps of viral morphogenesis, i.e., release from the nucleus, secondary envelopment, and the exocytosis process. The discrepancy between the efficiency with which this MDV mutant spreads in cell culture and the relatively inefficient process of its envelopment and virion release raises the question of the MDV cell-to-cell spreading mechanism.

Beta-carotene preferentially regulates chicken myoblast proliferation withdrawal and differentiation commitment via BCO1 activity and retinoic acid production

ABSTRACT The enzyme &bgr;‐carotene oxygenase 1 (BCO1) catalyzes the breakdown of provitamin A, including beta‐carotene (BC), into retinal, prior to its oxidation into retinoic acid (RA). Allelic variation at the BCO1 locus results in differential expression of its mRNA and affects carotenoid metabolism specifically in chicken Pectoralis major muscle. In this context, the aim of this study was to evaluate the potential myogenic effect of BC and the underlying mechanisms in chicken myoblasts. BCO1 mRNA was detected in myoblasts derived from chicken satellite cells. Treating these myoblasts with BC led to a significant decrease in BrdU incorporation. This anti‐proliferative effect was confirmed by a cell cycle study using flow cytometry. BC also significantly increased the differentiation index, suggesting a positive effect on the commitment of avian myoblasts to myogenic differentiation. Addition of DEAB, a specific inhibitor of RALDH activity, significantly reduced BC anti‐proliferative and pro‐differentiating effects, suggesting that BC exerted its biological effect on chicken myoblasts through activation of the RA pathway. We also observed that in myoblast showing decreased BCO1 expression consecutive to a natural mutation or to a siRNA treatment, the response to BC was inhibited. Nevertheless, BCO1 siRNA transfection increased expression of BCO2 which inhibited cell proliferation in control and BC treated cells. HIGHLIGHTSBCO1 gene is expressed in skeletal myoblasts.BC reduces proliferation and induces differentiation of skeletal myoblasts.Inhibition by DEAB shows that BC implies RA production through BCO1 – RALDH pathway.Reduced BCO1 gene expression blunts the effect of BC on myoblast proliferation.BCO1 RNA silencing increases BCO2 expression, which could mediate BC effect.