beta2-adrenergic receptor-selective agonist clenbuterol prevents Fas-induced liver apoptosis and death in mice

Stimulation of the cAMP-signaling pathway modulates apoptosis in several cell types and inhibits Jo2-mediated apoptosis in cultured rat hepatocytes. No information is yet available as to whether the hepatic beta2-adrenergic receptor (AR) expression level, including beta2-AR-dependent adenylyl cyclase activation, modulates hepatocyte sensitivity to apoptosis in vivo or whether this sensitivity can be modified by beta2-AR ligands. We have examined this using C57BL/6 mice, in which hepatic beta2-AR densities are low, and transgenic F28 mice, which overexpress beta2-ARs and have elevated basal liver adenylyl cyclase activity. The F28 mice were resistant to Jo2-induced liver apoptosis and death. The beta-AR antagonist propranolol sensitized the F28 livers to Jo2. In normal mice clenbuterol, a beta2-AR-specific agonist, considerably reduced Jo2-induced liver apoptosis and death; salbutamol, another beta2-AR-selective agonist, also reduced Jo2-induced apoptosis and retarded death but with less efficacy than clenbuterol; and propranolol blocked the protective effect of clenbuterol. This indicates that the expression level of functional beta2-ARs modulates Fas-regulated liver apoptosis and that this apoptosis can be inhibited in vivo by giving beta2-AR agonists. This may well form the basis for a new therapeutic approach to diseases involving abnormal apoptosis.

The amino-terminal region of SV40 large T antigen is sufficient to induce hepatic tumours in mice

The transforming activity of SV40 large T-antigen (Tag) depends on its binding to cellular proteins involved in the control of the cell cycle (p53, pRb, p300..) and on the J-domain region in the amino-terminus. We established transgenic lines expressing wild-type or Tag mutant proteins lacking one of the three transforming domains, to determine the respective contributions of these domains to hepatic tumour formation. Tag mutants with no pRb-binding domain or N-terminal fragment did not cause neoplastic liver abnormalities. The d11137 Tag mutant protein, which inhibits pRb function without affecting p53, induced hepatic tumours. These tumours grew significantly faster than those induced by wild-type Tag. Our results demonstrate different requirements for each of the inactivating functions of SV40 Tag in hepatocyte transformation and show that the loss of p53 function has only a moderate effect on hepatic tumour formation.

Transient expression of genes transferred in vivo into heart using first-generation adenoviral vectors: role of the immune response

Gene therapy for heart diseases requires availability of an efficient vector for gene transfer into myocardium. Recombinant adenovirus expressing the Escherichia coli beta-galactosidase (beta-Gal) gene was shown to infect rat cardiocytes efficiently in vivo. However, a time course of gene expression showed that transgene expression was maximal during the first week following injection, then declined and disappeared by day 21. An immunosuppressive treatment prolonged beta-Gal expression for at least 21 days. On the contrary, a preimmunization of the animals by two intraperitoneal injections of the vector led to a decreased transgene expression 48 hr after intramyocardial injection and to a barely detectable expression at the sixth day. Appearance of adenovirus neutralizing antibodies in preimmunized animals could have contributed to such a refractoriness to further adenoviral infection. Finally, a neonatal intrathymic injection of the vector was able to induce long-term LacZ expression for more than 2 months after heart injection, although neutralizing as well as anti-beta-Gal antibodies were detected in sera of the animals. These results indicate that an immune response against first-generation replication-defective adenoviral vectors is a major cause of transient transgene expression, a cellular response being most probably responsible for ablation of transgene expression in immunocompetent animals.

Tat-induced lesions in transgenic mice do not correlate with the HIV-1 LTR transactivation

The product of the tat gene is the most potent transcriptional trans-activator of the HIV-1 LTR (Human Immunodeficiency Virus type 1 Long Terminal Repeat) and might be predicted to be one of the HIV-1 proteins involved in the pathogenesis of AIDS-associated tumors. Deciphering its role in vivo may imply generation of transgenic mouse models displaying different spectra of tat expression. However, it remains difficult to correlate the mRNA expression, the protein production and the eventual pathological consequences in the animal. Our goal in this work was to elaborate a binary transgenic system allowing such an approach, the correlation of the transgene expression in different tissues and the production of the Tat protein, tested as a trans-activator in vivo, with its pathogenic effects. No direct linkage was evident between the degree of transactivation and pathogenesis. Indeed, only benign lesions were observed in malpighian epithelia, where the production of the Tat protein was clearly evidenced by its transactivating property.

In vivo adenovirus-mediated gene transfer into ocular tissues

Replication-deficient adenoviruses have been successfully used to transfer foreign DNA into a variety of cells including post-mitotic cells, in vivo. In the eyes, most of the cells are quiescent or slowly dividing. They constitute the obligatory targets of gene transfer for a number of ocular diseases that have been elucidated at the molecular level and are potential targets for gene therapy. We have therefore analysed the ability of an adenovirus vector to transfer in vivo the Escherichia coli lacZ gene into ocular cells of mice. Injection of up to 3 x 10(7) p.f.u. into the vitreous body, the anterior chamber or the peribulbar space, did not result in any detectable cytopathic effect and was associated with endocytosis of viral particles in corneal endothelial, photoreceptor, bipolar, ganglionic and oculomotor muscle cells, depending on the administration route. At the viral titer used (3 x 10(7) p.f.u.), the expression was detected for at least 50 days. These results open new prospects for the treatment of some retinal hereditary disorders and acquired corneal or retinal alterations due to inflammatory disease.

Long-term correction of mouse dystrophic degeneration by adenovirus-mediated transfer of a minidystrophin gene

Duchene muscular dystrophy (DMD) is a fatal progressive X-linked muscle disorder, caused by mutations in the dystrophin gene. We have investigated adenovirus-mediated transfer of a dystrophin minigene in a mutant mouse lacking dystrophin, the mdx mouse. We report here that six months after a single intramuscular injection of a recombinant adenovirus containing a human dystrophin minigene, a large number of dystrophin-positive fibres are still detected in the injected muscles. Moreover, although the minigene encodes a truncated protein, its expression is able to protect the fibres efficiently against the degeneration process that affects the dystrophin-deficient mdx myofibres.

Efficient adenovirus-mediated transfer of a human minidystrophin gene to skeletal muscle of mdx mice

Duchenne progressive muscular dystrophy is a lethal and common X-linked genetic disease caused by the absence of dystrophin, a 427K protein encoded by a 14 kilobase transcript. Two approaches have been proposed to correct the dystrophin deficiency in muscle. The first, myoblast transfer therapy, uses cells from normal donors, whereas the second involves direct intramuscular injection of recombinant plasmids expressing dystrophin. Adenovirus is an efficient vector for in vivo expression of various foreign genes. It has recently been demonstrated that a recombinant adenovirus expressing the lac-Z reporter gene can infect stably many mouse tissues, particularly muscle and heart. We have tested the ability of a recombinant adenovirus, containing a 6.3 kilobase pair Becker-like dystrophin complementary DNA driven by the Rous sarcoma virus promoter to direct the expression of a 'minidystrophin' in infected 293 cells and C2 myoblasts, and in the mdx mouse, after intramuscular injection. We report here that in vivo, we have obtained a sarcolemmal immunostaining in up to 50% of fibres of the injected muscle.

Dispensable role of the NF-kappa B sites in the UV-induction of the HIV-1 LTR in transgenic mice

We have previously reported the epidermis-specific expression of the HIV-1 LTR in transgenic mice and its induction by UV-B rays. To dissect the underlying mechanism of the UV induction of the LTR in mice, we developed two approaches. We first demonstrated by gel mobility shift analysis, using mice epidermal extracts, that the NF-kappa B sites of the HIV-1 LTR were one of the targets of the UV induction. The Sp-1 sites and the potential AP-1 sites of the LTR were not involved in this phenomenon. The transient transfection assays of modified LTR in HeLa cells also demonstrated the involvement of the NF-kappa B sites in the UV induction and were consistent with previously published data. Secondly, to study the regulation acting on an integrated gene, we generated transgenic mice carrying the lacZ gene under the control of the partially deleted LTR. All the transgenic lines and unexpectedly those carrying the LTR deleted for the kappa B sites displayed a UV-inducible epidermal expression. This suggests that, in mice, the UV induction might be mediated through other sites than the kappa B sites and may also depend on changes of the chromatin state.