Progestin regulation of galanin and prolactin gene expression in oestrogen-induced pituitary tumours.

Galanin is a peptide widely distributed in the hypothalamic-pituitary axis. In the female rat pituitary, galanin is mainly present in lactotrophs, where it regulates their secretion and proliferation. Galanin expression is increased in oestrogen-induced prolactinomas, and it has been proposed that oestrogen effects on lactotroph function and proliferation could be mediated by galanin. Previous studies from our laboratory demonstrated that the synthetic progestin levonorgestrel antagonizes pituitary tumorigenesis of rats given oestrogen, reducing the number of proliferating cells and increasing cell death by nonapoptotic mechanism(s). To elucidate the role of galanin in levonorgestrel effects on the tumours, we examined galanin and prolactin mRNA and peptide expression in prolactinomas of rats receiving the progestin. Levonorgestrel reduced the pituitary weight and serum prolactin concentrations in oestrogen-treated rats. Galanin mRNA expression (determined by in situ hybridization), and the number of galanin expressing cells (determined by immunocytochemistry) were also reduced by the progestin in tumour-bearing rats. However, neither prolactin mRNA content, nor the number of prolactin-expressing cells, were modified by levonorgestrel treatment of oestrogen-receiving rats. The present study suggests that levonorgestrel controls pituitary growth by diminishing galanin expression. In contrast, changes in serum prolactin concentration seem to be more related to the reduction in tumour size, since the reduction in galanin expression was not large enough to regulate prolactin mRNA expression or the percentage of lactotrophs.

Single-shot plasmid DNA intrasplenic immunization for the production of monoclonal antibodies. Persistent expression of DNA.

Monoclonal antibodies (Mc. Abs.) were generated against a 18-kDa protein from Brucella abortus 48 h and 25 days after a single intrasplenic injection of a DNA plasmid containing the expression vector for the protein. Hybridomas were also obtained from spleens injected 3, 5, and 10 days before fusion. Somatic cell fusion of spleen cells from mice, injected with the plasmid DNA, in saline, with the NS-0 myeloma cell line resulted in Mc. Abs of the IgG and IgM Isotypes. IgG antibodies were of the IgG2b and IgG1 subtype. Hybridoma tissue culture supernatants were strongly positive by ELISA at dilutions of up to 1/1200 and produced intense specific bands in immunoblotting. All these antibodies recognized the native recombinant protein (the screening antigen) and some of them also recognized the heat-denatured recombinant 18-kDa protein. When compared to standard procedures of immunization, as well as to intramuscular or gene gun DNA immunizations, this technique results in very early, time saving, strong Mc Abs. It is common knowledge that in order to generate specific hybridomas; spleen cells from immunized animals have to be fused no later than 5 days after the last boost. The fact that through single-shot intrasplenic immunization (SSI) specific hybridomas are generated 25 days after one single injection indicates that the gene coding the p18 protein is being expressed in the spleen for at least 20 days. We propose that plasmid DNA intrasplenic immunization can be a helpful tool for the production of specific hybridomas. This route of immunization could also be helpful in the further understanding of early events of the immune response to genetic immunization by naked DNA injection.