Nicotinamide/nicotinate adenine dinucleotide (NAD+/NaAD) performs essential functions
in cell metabolism and energy production due to its redox properties. The
nicotinamide/nicotinate mononucleotide adenylyltransferase (NMNAT, EC 2.7.7.1/18)
enzyme catalyses the key step in the biosynthesis of NAD+. Previously, the enzyme
NMNAT was identified in Trypanosoma cruzi (TcNMNAT), a pathogenic
agent with epidemiological importance in Latin America. To continue with the
functional characterisation of this enzyme, its subcellular location and its possible
post-translational modifications were examined in this study. For this, polyclonal
antibodies were generated in mice, with soluble and denatured recombinant protein
being used to detect the parasite’s NMNAT. Immunodetection assays were performed on
whole extracts of T. cruzi, and an approximation of its
intracellular location was determined using confocal microscopy on wild and
transgenic parasites, which revealed the cytosol distribution patterns. This
localisation occurs according to the needs of the dinucleotides that exist in this
compartment. Additionally, a bioinformatics study was performed as a first approach
to establish the post-translational modifications of the enzyme. Possible
phosphorylation events were experimentally analysed by western blot, highlighting
TcNMNAT as a potential target for serine kinases.
Nanoprecipitation technique, also named solvent injection, spontaneous emulsification, solvent displacement, solvent diffusion, interfacial deposition, mixinginduced nanoprecipitation, or flash nanoprecipitation, is recognized as a useful and versatile strategy for trapping active molecules on the submicron and nanoscale levels. Thus, these particles could be intended among others, for developing innovative pharmaceutical products bearing advantages as controlled drug release, target therapeutic performance, or improved stability and organoleptic properties. On this basis, this chapter offers readers a comprehensive revision of the state of the art in research on carriers to be used for pharmaceutical applications and developed by the nanoprecipitation method. In this sense, the starting materials, the particle characteristics, and the in vitro and in vivo performances of the most representative of these carriers, i.e., polymer, lipid, and hybrid particles have been analyzed in a comparative way searching for a general view of the obtained behaviors.
Diabetes mellitus is a metabolic disorder mainly characterized by obesity, hyperglycemia, altered lipid profile, oxidative stress, and vascular compromise. Physalis peruviana is a plant used in traditional Colombian medicine for its known activities of glucose regulation. This study aimed to evaluate the anti-diabetic activity of the butanol fraction from an extract of Physalis peruviana calyces in two doses (50 mg/kg and 100 mg/kg) in induced type 2 diabetic mice. Blood glucose levels were evaluated once a week, demonstrating that a dose of 100 mg/kg resulted in greater regulation of blood glucose levels in mice throughout the experiment. The same overall result was found for the oral glucose tolerance test (OGTT) and the homeostatic model assessment for insulin resistance (HOMA- IR). The lipid profile exhibited improvement compared to the non-treated group, a dose of 100 mg/kg having greater protection against oxidative stress (catalase, superoxide dismutase, and malondialdehyde levels). Histopathological findings in several tissues showed structure preservation in most of the animals treated. The butanol fraction from Physalis peruviana at 100 mg/kg showed beneficial results in improving hyperglycemia, lipidemia, and oxidative stress status, and can therefore be considered a beneficial coadjuvant in the therapy of diabetes mellitus.
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