κ-Carrageenan/sericin polymer matrix modified with different crosslinking agents and thermal crosslinking: Improved release profile of mefenamic acid.

The crosslinking of the polymer matrix with compatible macromolecules results in a three-dimensional network structure that offers an enhancement in the controlled release properties of the material. In this sense, this work aimed to improve the release profile of mefenamic acid (MAC) through crosslinking strategies. κ-Carrageenan/sericin crosslinked blend was obtained by covalent and thermal crosslinking and the different formulations were characterized. The gastroresistant potential and release profile were evaluated in the dissolution assay. The effect and characterization of the particles were investigated. Multiple units presented high entrapment efficiency (94.11-104.25), high drug loading (36.50-47.50 %) and adequate particle size (1.34-1.57 mm) with rough surface and visually spherical shape. The Weibull model showed that drug release occurred by relaxation, erosion and Fickian diffusion. Material stability and absence of MAC -polymer interactions were demonstrated by FTIR and thermogravimetric analysis. DSC showed a stable character of MAC in the drug-loaded beads. Moreover, the application studies of κ-Car/Ser/carboxymethylcellulose in the in vitro intestine mode showed that the crosslinked blend increased cell viability (>85 %), while free MAC exhibited a cytotoxic effect. Finally, the crosslinked k-Car/Ser blend MAC -loaded showed promising properties of a sustained release form of anti-inflammatory drug.

Two-Step Purification of L-Asparaginase from Acrylaway® L

Abstract L-Asparaginase (L-ASNase) is a biopharmaceutical used for acute lymphoblastic leukaemia (ALL) treatment, dramatically increasing the patients' chance of cure. However, its production and distribution in developing countries were disrupted because of its low profitability, which caused great concern among patients. This study evaluates the feasibility of combining fractional precipitation and aqueous two-phase systems (ATPS) to purify L-ASNase from a low-grade product, commercially known as Acrylaway® L. The ATPS purification results were not particularly expressive compared to the two-step purification process composed of ethanol precipitation and gel filtration, which was able to recover the target molecule with a purification factor over 5 fold. Thus, we studied a purification process capable of manufacturing pharmaceutical grade L-ASNase from a commercially available low-grade raw material; however, improvements regarding its throughput must be achieved, and high purity is the first step to apply it as a new biopharmaceutical product. The proposed process could pose as a short-time solution to mitigate its shortage while a cost-effective production plant is being developed.

Nanostructures for protein drug delivery.

Use of nanoscale devices as carriers for drugs and imaging agents has been extensively investigated and successful examples can already be found in therapy. In parallel, recombinant DNA technology together with molecular biology has opened up numerous possibilities for the large-scale production of many proteins of pharmaceutical interest, reflecting in the exponentially growing number of drugs of biotechnological origin. When we consider protein drugs, however, there are specific criteria to take into account to select adequate nanostructured systems as drug carriers. In this review, we highlight the main features, advantages, drawbacks and recent developments of nanostructures for protein encapsulation, such as nanoemulsions, liposomes, polymersomes, single-protein nanocapsules and hydrogel nanoparticles. We also discuss the importance of nanoparticle stabilization, as well as future opportunities and challenges in nanostructures for protein drug delivery.

Porinas e suas ações imunomoduladoras dependentes de TLR2 / Porins and their immunomodulatory effects triggered by TLR2

Os micro-organismos podem infectar seu hospedeiro por diferentes vias, sendo a principal o trato respiratório. O reconhecimento pela mucosa dessas vias pode desencadear inibição da proliferação e bloqueio da entrada microbiana, assim como estimular resposta direcionada a memória imunológica para prevenir posteriores infecções. Alguns micro-organismo, como as bactérias Neisseria meningitidis e Neisseria lactamica, são capazes de modular a resposta imune de mucosa diretamente, ou por meio das células epiteliais respiratórias. Este trabalho propôs, então, a avaliação das porinas B provenientes destas bactérias como moduladoras da produção de IL-8 nas linhagens BEAS-2B e Detroit 562. Também foi avaliada a dependência deste estímulo ao receptor TLR2. Ambas as porinas se ligaram a TLR2 e por este receptor estimularam a produção de IL-8. O perfil de produção foi dependente da expressão de TLR2 pelas células. A porina lactâmica induziu menos IL-8 por regular negativamente a expressão de TLR2, mas sua afinidade pelo receptor se mostrou maior que a da porina meningocócica. As porinas são então moduladoras das células de mucosa, fato que somado a atividade adjuvante destas proteínas por via parenteral estimulou a avaliação destas como adjuvantes de mucosa. O modelo escolhido para a avaliação foi o de inoculação intranasal de camundongos, utilizando como antígeno o lipopolissacarídio pouco imunogênico de Franciscella tularensis atenuada (Ft-LPS). A análise foi baseada no título de anticorpos IgG e IgM séricos. A porina meningocócica se mostrou a mais imunogênica, mas por ser originária de patógeno acarreta maior risco biológico em sua produção. Para viabilizar a porina meningocócica como adjuvante, a mesma foi substituída por porina homóloga produzida de modo recombinante em Escherichia coli não patogênica. A porina recombinante foi avaliada pelo mesmo sistema in vivo e comparada a adjuvantes experimentais de ação conhecida (rCTB, QS-21 e ODN 1826). A porina apresentou...

Microorganisms can invade the host through many routes, specially the respiratory tract. The respiratory mucosa is responsible for recognition, inhibition, proliferation and entry blockade of microorganisms, besides incitation of immunological memory to prevent further infections. Some microorganisms, such as Neisseria meningitidis and Neisseria lactamica, can modulate the mucosa immune response directly or through stimulation of respiratory epithelial cells. The present work proposed the evaluation of porin B proteins, derived from these microorganisms, as modulators of IL-8 production on respiratory epithelial cell strains BEAS-2B and Detroit 562. TLR2 receptor dependency for the modulation was also evaluated. Both porins bounded to TLR2 and through this receptor were able to stimulate IL-8 production, whereas this profile was correlated with TLR2 expression. Lactamica porin (Nlac PorB) induced less IL-8 and TLR2 expression, also for a shorter period of time. The effect caused by Nlac PorB was attributed to TLR2 down regulated expression, since its binding affinity to the receptor is greater than meningococcal porin (Nmen PorB). Porins were therefore able to immune modulate mucosal cells, fact that allied with their parenteral adjuvant activity incited evaluation of porins as potential mucosal adjuvants. The model chosen for the evaluation was intranasal immunization of mice, using as the antigen a low immunogenic lipopolysaccharide extracted from attenuated Franciscella tularensis (Ft-LPS). The evaluation was based on IgG and IgM serum titers. After the immunization scheme, Nmen PorB induced higher IgG and IgM titers than Nlac PorB. Although Nmen PorB was more efficient, it comes from a pathogen. To overcome the risk of its production, it was replaced by recombinant porin (rPorB) produced by Escherichia coli. rPorB was evaluated by the same model and compared with well known experimental adjuvants (rCTB, QS-21 e ODN 1826). rPoB had the highest IgM and IgG...