The non-human primate (NHP)-brain endothelium constitutes an essential alternative to human in the prediction of molecule trafficking across the blood–brain barrier (BBB). This study presents a comparison between the NHP transcriptome of freshly isolated brain microcapillaries and in vitro-selected brain endothelial cells (BECs), focusing on important BBB features, namely tight junctions, receptors mediating transcytosis (RMT), ABC and SLC transporters, given its relevance as an alternative model for the molecule trafficking prediction across the BBB and identification of new brain-specific transport mechanisms. In vitro BECs conserved most of the BBB key elements for barrier integrity and control of molecular trafficking. The function of RMT via the transferrin receptor (TFRC) was characterized in this NHP-BBB model, where both human transferrin and anti-hTFRC antibody showed increased apical-to-basolateral passage in comparison to control molecules. In parallel, eventual BBB-related regional differences were investigated in seven-day in vitro-selected BECs from five brain structures: brainstem, cerebellum, cortex, hippocampus, and striatum. Our analysis retrieved few differences in the brain endothelium across brain regions, suggesting a rather homogeneous BBB function across the brain parenchyma. The presently established NHP-derived BBB model closely mimics the physiological BBB, thus representing a ready-to-use tool for assessment of the penetration of biotherapeutics into the human CNS.
A gene which encodes resistance by abortive infection (Abi+) to bacteriophage was cloned from Lactococcus lactis ssp. lactis biovar. diacetylactis S94. This gene was found to confer a reduction in efficiency of plating and plaque size for prolate-headed bacteriophage phi 53 (group I of homology) and total resistance to the small isometric-headed bacteriophage phi 59 (group III of homology). The cloned gene is predicted to encode a polypeptide of 346 amino acid residues with a deduced molecular mass of 41 455 Da. No homology with any previously described genes was found. A probe was used to determine the presence of this gene in two strains on 31 tested.
A 7.275-kb DNA fragment which encodes resistance by abortive infection (Abi+) to bacteriophage was cloned from Lactococcus lactis subsp. cremoris S114. The genetic determinant for abortive infection was subcloned from this fragment. This gene was found to confer a reduction in efficiency of plating and plaque size for prolate-headed bacteriophage phi 53 (group I homology) and for small isometric-headed bacteriophage phi 59 (group III homology). This new gene, termed abiN, is predicted to encode a polypeptide of 178 amino acid residues with a deduced molecular mass of 20,461 Da and an isoelectric point of 4.63. No homology with any previously described genes was found. A probe was used to determine the presence of this gene only in S114 from 31 strains tested.
Summary -Transfer by conjugation and selection of the food-grade plasmid pPF66.0 is reported. This 66-kbp plasmid confers resistance to phages (Rap+), to bacteriocins (Bac''), is Tra' and is not involved in the secretion of bacteriocins (Bac-). It is derived from the Bac+-pPF66 plasmid. Following conjugation, the first step of selection was carried out using phage 0ML 19, active on industrial recipient Lactococcus lactis subsp cremoris FL388. A second step of selection was conducted with bacteriocins in order to eliminate spontaneous phage-resistant mutants.
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