Enhancement of humoral immunity to SIVenv following simultaneous inoculation of mice by three recombinant adenoviruses encoding SIVenv/poliovirus chimeras, Tat and Rev.

A means of inducing gene expression by simultaneous infection with three recombinant adenoviruses (Ad) is described. The simian immunodeficiency virus (SIV) envelope-coding region was placed under the control of the human immunodeficiency virus type 1 (HIV-1) Tat and Rev proteins provided in trans by distinct Ad vectors (Ad-tat; Ad-rev). Coinfection of cells with the three recombinant adenoviruses led to induction of high levels of SIV env mRNA and protein synthesis, while inoculation of mice elicited anti-Env antibodies.

Residual expression of reporter genes in constructs mimicking HIV genome organization.

Plasmids were constructed whereby the expression of a reporter gene, either the cDNA corresponding to the secreted form of human alkaline phosphatase (SEAP) or the herpes simplex virus type 1 (HSV1) thymidine kinase (tk) gene, was rendered dependent upon the expression of the human immunodeficiency virus type 1 (HIV1) tat and rev proteins. The SEAP or tk genes were placed between HIV1 splice donor and acceptor sites. One SEAP construct carried a series of alternating splice donor and acceptor sites.

Polarity of secretion of alpha 1-antitrypsin by human respiratory epithelial cells after adenoviral transfer of a human alpha 1-antitrypsin cDNA.

alpha 1-Antitrypsin (alpha AT) deficiency, a hereditary cause of progressive emphysema, can potentially be treated by transfer of a functional human alpha 1AT gene to the respiratory epithelium. For such an approach to be successful, alpha 1AT must be provided to both the interstitium and the epithelial surface--that is, the alpha 1AT directed by the transferred gene must be secreted to both the apical and basolateral surfaces of the epithelial cells. To evaluate this concept, a recombinant, replication-deficient adenoviral vector (Ad-alpha 1AT) containing a human alpha 1AT cDNA driven by an adenovirus major late promoter was used to infect Bet-1A human respiratory epithelial cells.

[Adenovirus, a gene therapy vector: application to lung diseases].

Due to their quiescent nature and spatial complexity, many target tissues for gene therapy will require novel strategies. An alternative to ex vivo gene transfer, providing many technical advantages and possibly allowing sufficient transfer of the therapeutic gene, is direct in vivo delivery of the vehicle. For a favorable outcome, this procedure is dependent on a high-titer vector, fully competent before post-mitotic cells.

In vivo transfer of a marker gene to study motoneuronal development.

Adenovirus vectors containing a marker gene (lacZ from Escherichia coli) are potent for transferring the gene to neurones after intraparenchymal injections. Expression of the marker gene may lead to the synthesis of an enormous amount of beta-galactosidase which diffuses throughout the entire neurone, providing a 'Golgi-like' staining. This suggested that the technique may be used to study the morphology of specific neuronal populations.