Kinin B2 receptor can play a neuroprotective role in Alzheimer's disease.

Alzheimer's disease (AD) is characterized by cognitive decline, presence of amyloid-beta peptide (Aß) aggregates and neurofibrillary tangles. Kinins act through B1 and B2 G-protein coupled receptors (B1R and B2R). Chronic infusion of Aß peptide leads to memory impairment and increases in densities of both kinin receptors in memory processing areas. Similar memory impairment was observed in C57BL/6 mice (WTAß) but occurred earlier in mice lacking B2R (KOB2Aß) and was absent in mice lacking B1R (KOB1Aß). Thus, the aim of this study was to evaluate the participation of B1R and B2R in Aß peptide induced cognitive deficits through the evaluation of densitiesof kinin receptors, synapses, cell bodies and number of Aß deposits in brain ofWTAß, KOB1Aß and KOB2Aß mice. An increase in B2R density was observed in both WTAß and KOB1Aß in memory processing related areas. KOB1Aß showed a decrease in neuronal density and an increase in synaptic density and, in addition, an increase in Aß deposits in KOB2Aß was observed. In conclusion, memory preservation in KOB1Aß, could be due to the increase in densities of B2R, suggesting a neuroprotective role for B2R, reinforced by the increased number of Aß plaques in KOB2Aß. Our data point to B2R as a potential therapeutic target in AD.

NUCEL (Cell and Molecular Therapy Center): a multidisciplinary center for translational research in Brazil.

Social and economical development is closely associated with technological innovation and a well-developed biotechnological industry. In the last few years, Brazil's scientific production has been steadily increasing; however, the number of patents is lagging behind, with technological and translational research requiring governmental incentive and reinforcement. The Cell and Molecular Therapy Center (NUCEL) was created to develop activities in the translational research field, addressing concrete problems found in biomedical and veterinary areas and actively searching for solutions by employing a genetic engineering approach to generate cell lines over-expressing recombinant proteins to be transferred to local biotech companies, aiming at furthering the development of a national competence for local production of biopharmaceuticals of widespread use and of life-saving importance. To this end, mammalian cell engineering technologies were used to generate cell lines over-expressing several different recombinant proteins of biomedical and biotechnological interest, namely, recombinant human Amylin/IAPP for diabetes treatment, human FVIII and FIX clotting factors for hemophilia, human and bovine FSH for fertility and reproduction, and human bone repair proteins (BMPs). Expression of some of these proteins is also being sought with the baculovirus/insect cell system (BEVS) which, in many cases, is able to deliver high-yield production of recombinant proteins with biological activity comparable to that of mammalian systems, but in a much more cost-effective manner. Transfer of some of these recombinant products to local Biotech companies has been pursued by taking advantage of the São Paulo State Foundation (FAPESP) and Federal Government (FINEP, CNPq) incentives for joint Research Development and Innovation partnership projects.

Prolactin-induced changes in protein expression in human pancreatic islets.

Ex vivo islet cell culture prior to transplantation appears as an attractive alternative for treatment of type 1 diabetes. Previous results from our laboratory have demonstrated beneficial effects of human prolactin (rhPRL) treatment on human islet primary cultures. In order to probe into the molecular events involved in the intracellular action of rhPRL in these cells, we set out to identify proteins with altered expression levels upon rhPRL cell treatment, using two-dimensional (2D) gel electrophoresis and mass spectrometry (MS). An average of 300 different protein spots were detected, 14 of which were modified upon rhPRL treatment (p<0.01), of which 12 were successfully identified using MS and grouped according to their biological functions. In conclusion, our study provides, for the first time, information about proteins that could be critically involved in PRL's action on human pancreatic islets, and facilitate identification of new and specific targets involved in islet cell function and proliferation.

Expression of functional Anopheles merus alpha-amylase in the baculovirus/Spodoptera frugiperda system.

The Anopheles merus (Diptera, Nematocera, Culicoidea) alpha-amylase gene (AmerAmy, GenBank Accession Number U01210) was amplified with its own or with the Zabrotes subfasciatusalpha-amylase signal peptide (ZsAmerAmy, GenBank Accession Number AY270183) by PCR, using designed primers. The AmerAmy gene was sequenced from its promotor to the TGA codon. As a positive control, the Z. subfasciatusalpha-amylase gene with its own signal peptide (ZsAmy, GenBank Accession Number AF255722) was also amplified by PCR. These three sequences were inserted into the baculovirus genome using the Bac-to-Bac trade mark system. Recombinant baculovirus preparations were used to infect Sf9 Spodoptera frugiperda insect cells. The A. merusalpha-amylase was successfully expressed as an active enzyme detected mainly in cell culture supernatants.