Gary Barsomian scite author profile

Recombinant adenoviruses are currently being used as vectors for gene delivery to a wide variety of cells and tissues. Although generally efficacious for gene transfer in vitro, improvement in the efficiency of vector delivery in vivo may aid several gene therapy applications. One major obstacle is the lack of high-affinity viral receptors on the surface of certain cells that are targets for gene therapy. In principle, incorporation of avid, cell-specific ligands into the virion could markedly improve vector entry into the desired tissues. We have developed a strategy for addressing this issue in the lung by biopanning differentiated, ciliated airway epithelial cells against a phage display library. The peptide with the most effective binding was coupled to the surface of an adenovirus using bifunctional polyethylene glycol (PEG) molecules. The chemically modified adenoviral vector was able to effect gene transfer to well-differentiated human airway epithelial cells by an alternative pathway dependent on the incorporated peptide. Coupling of PEG to the surface of the virus also served to partially protect the virus from neutralizing antibodies in vitro. These experiments will aid in the design of improved adenoviral vectors with the capacity for more specific and efficient delivery of therapeutic genes to desired target tissues. We have used a novel method for enhancing gene delivery to target cells by coupling a biologically selected peptide to the surface of an adenovirus with bifunctional PEG molecules. Modification of the viral capsid by the addition of a peptide with binding preference for differentiated ciliated airway epithelia allowed gene delivery to those cells by a novel entry pathway. Incorporation of the CFTR gene in a similarly modified vector resulted in correction of defective Cl- transport in well-differentiated epithelial cultures established from human cystic fibrosis (CF) donors. The presence of PEG molecules on the surface of the virus served, in addition, to reduce antibody neutralization. Modification of adenoviruses with PEG/peptide complexes can serve to partially overcome the barrier of inefficient gene transfer in some cell types and some of the adverse immunological responses associated with gene delivery by these vectors.

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Ureas of 5-aminopyrazole and 2-aminothiazole inhibit growth of gram-positive bacteria

Kane¹,

Hirth²,

Liang³

et al. 2003

Bioorganic & Medicinal Chemistry Letters

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Replicon fusions promoted by insertion sequences on Pseudomonas cepacia plasmid pTGL6

Barsomian

Lessie

1986

Molec. Gen. Genet.

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Plasmid pMR5 (pRP1ts) failed to replicate in Pseudomonas cepacia at 47 degrees C. Selection at this temperature for maintenance of tetracycline resistance associated with this plasmid allowed isolation of cointegrate plasmids formed by fusion of pMR5 with pTGL6, a 170 kb plasmid harbored by P. cepacia 249. In the cointegrate plasmids pTGL100, pTGL101, and pTGL102, different regions of pTGL6 were involved in fusion with the same tra-2-containing region of pMR5. Formation of all three plasmids was promoted by insertion sequences on pTGL6, which were also represented in the chromosome. Two different copies of a 1.3 kb element, IS401, were involved in formation of pTGL100 and pTGL101. Another insertion sequence, IS402 (1 kb), promoted the fusion which formed pTGL102. Southern hybridization experiments indicated that each of the cointegrate plasmids contained an additional copy of the fusion mediating element. Plasmid pTGL100 was observed to resolve into two independent replicons: pTGL6 and pTGL105 (pMR5::IS401), a novel derivative of pMR5 containing a copy of IS401. The third cointegrate plasmid, pTGL102, evolved in two steps: fusion of pTGL6 and pMR5 mediated by IS402, and transposition of IS411 (1.9 kb) to a region of pMR5 distinct from that involved in the fusion. Plasmid pTGL6 contained one copy of IS402 and IS411 while pTGL102 contained two copies of each of these elements.

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Chromosomal mapping of Bacillus thuringiensis by transduction

Barsomian¹,

Robillard²,

Thorne³

1984

J Bacteriol

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Three groups of linked markers were mapped in Bacillus thuringiensis 4042B by using two-, three-, and four-factor crosses tnediated by the temperate bacteriophages TP-13 and TP-18. The order of markers was (trp-11, trp-2)-(leu-J, leu-2)-his-I-(lys-J, lys-2)-cys-J in the first group; met-i-(argCl, argOl)-met-2-(pyr-1, pyrA2) in the second group; and met-3-pur-1-(nal-1, nal-2)-str-1-(pur-2, pur4)-pur-3 in the third group. Electron miQroscopic measurements of head sizes suggested that the volume of the TP-i3 phage head is seven times greater than that of the TP-18 phage head. The TP-18 genome was shown by DNA restriction analysis to have a molecular mass of 36 megadaltons. TP-13 was useful for scanning large segments of the B. thuringiensis chromosome, and TP-18 was effective for ordering markers too closely linked for simple resolution with TP-13.

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Rhizobium meliloti mutants unable to synthesize anthranilate display a novel symbiotic phenotype

et al. 1992

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Analyses of Rhizobium meliloti trp auxotrophs suggest that anthranilate biosynthesis by the R. meliloti trpE(G) gene product is necessary during nodule development for establishment of an effective symbiosis. trpE(G) mutants, as well as mutants blocked earlier along this pathway in aromatic amino acid biosynthesis, form nodules on alfalfa that have novel defects. In contrast, R. meliloti trp mutants blocked later in the tryptophan-biosynthetic pathway form normal, pink, nitrogen-fixing nodules. trpE(G) mutants form two types of elongated, defective nodules containing unusually extended invasion zones on alfalfa. One type contains bacteroids in its base and is capable of nitrogen fixation, while the other lacks bacteroids and cannot fix nitrogen. The trpE(G) gene is expressed in normal nodules. Models are discussed to account for these observations, including one in which anthranilate is postulated to act as an in planta siderophore.

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Gary Barsomian

Modification of an Adenoviral Vector with Biologically Selected Peptides: A Novel Strategy for Gene Delivery to Cells of Choice

Ureas of 5-aminopyrazole and 2-aminothiazole inhibit growth of gram-positive bacteria

Replicon fusions promoted by insertion sequences on Pseudomonas cepacia plasmid pTGL6

Chromosomal mapping of Bacillus thuringiensis by transduction

Rhizobium meliloti mutants unable to synthesize anthranilate display a novel symbiotic phenotype

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