Synthesis of chitosan-lysozyme microspheres, physicochemical characterization, enzymatic and antimicrobial activity.

Chitosan microspheres (CMS) by the emulsion-chemical cross-linking method with and without lysozyme immobilization were synthesized and characterized. The technique conditions were adjusted, and spherical particles with approximate diameters of 3.74 ± 1.08 µm and 0. 29 ± 0.029 µm to CMS and chitosan-lysozyme microspheres (C-LMS), respectively, were obtained. The microspheres were characterized by scanning electron microscopy (FESEM), Spectroscopy Fourier Transform Spectroscopy (ATR-FTIR), X-ray diffraction (XRD), and zeta potential. Particle size was identified by laser light scattering (DLS) and the thermal properties by Differential Scanning Calorimetry (DSC) and Thermogravimetry (TGA) were determined. By the lysis of Micrococcus lysodeikticus, the activity of the microspheres was determined, and the results correlated with the amount of lysozyme used in the immobilization process and the enzyme loading efficiency was 67%. Finally, release tests pointed out the amount of enzyme immobilized on the microsphere surface. These results showed that chitosan microspheres could be used as material for lysozyme immobilization by cross-linking technique. The antimicrobial activity was tested by inhibition percent determination, and it evidenced both chitosan microspheres (CMS) and chitosan-lysozyme microspheres (C-LMS) positive antimicrobial activity to Staphylococcus aureus, Enterococcus faecalis and Pseudomonas aeruginosa.

Laundering and textile parameters influence fibers release in household washings.

Synthetic fibers represent one of the main forms of microplastics in marine environment and recently were related to household washings as a source. Although other types of fiber, like natural, do not rely under this classification, there is a potential for them to act as a vector of toxic substances to biota in the same way as microplastics do. Consequently all types of fiber have the potential to cause variable ecologic and socioeconomic impacts. In this scenario, the present study aimed to investigate the effects of washing parameters in the emission of fibers on textiles with different characteristics and fiber content: cotton, acrylic, polyester and polyamide. For this purpose individual garments were sequentially washed with and without detergent. Results showed that the use of a detergent reduced significantly the mass of particles emitted from synthetic garments but not from cotton, which, in relative terms, was responsible for the highest emissions. Textile characteristics such as mass availability and fiber cohesion influenced results, where shorter irregular fibers and lower tenacities dealt to higher releases. For all types of garments tested, 10 sequential cycles decreased particles' release, with peaks in three firsts washes (from 37% to 76%). Taking into account a regular washing machine filter, a considerable mass of fibers (from 40% to 75%) was not retained by this device, indicating a potential for improvement. Together, simple solutions as the use of detergents, three pre-washes and superimposed filter meshes, could diminish >53% of this type of pollution. Besides this potential reduction, globally, in one year, domestic washing machines would still contribute with around 15 thousand tonnes of cotton and synthetic fibers. A structured and sustained solution for this problem should advance in an interdisciplinary approach, fomenting responsibility from plural actors, taken in all stages of products' life cycle.

Synthetic fibers as microplastics in the marine environment: A review from textile perspective with a focus on domestic washings.

The ubiquity of plastic materials in the environment has been, for long, a matter of discussion. Smaller particles, named microplastics (<5mm), gained attention more recently and are now the focus of many studies, especially for their particularities regarding sources, characteristics and effects (e.g., surface-area-to-volume ratio which can increase their potential to transport toxic substances). Fibers from textile materials are a subgroup of microplastics and can be originated from domestic washings, as machine filters and wastewater treatment plants (WWTPs) are not specifically designed to retain them. Once in the environment, fibers can reach concentrations up to thousands of particles per cubic meter, being available to be ingested by a broad range of species. In this scenario, this review adds and details the textile perspective to the microplastics exploring nomenclature, characteristics and factors influencing emission, but also evidencing gaps in knowledge needed to overcome this issue. Preliminarily, general information about marine litter and plastics, followed by specific aspects regarding textile fibers as microplastics, were introduced. Then fiber sources to microplastic pollution were discussed, mainly focusing on domestic washings that pass through WWTPs. Studies that reveal domestic washing as microplastic sources are scarce and there is a considerable lack of standardization in methods as well as incorporation of textile aspects in experimental design. Knowledge gaps include laundry parameters (e.g., water temperature, use of chemicals) and textile articles characteristics (e.g., yarn type, fabric structure) orchestrated by consumers' choice. The lack of information on the coverage and efficiency of sewage treatment systems to remove textile fibers also prevent a global understanding of such sources. The search of alternatives and applicable solutions should come from an integrated, synergic and global perspective, of both environmental and textile area, which still need to be fostered.

Outer membrane vesicles (OMV) production of Neisseria meningitidis serogroup B in batch process.

Serogroup B outer membrane vesicles (OMV) with iron regulated proteins (IRP) from Neisseria meningitidis constitute the antigen for the vaccine against the disease caused by this bacterium. Aiming to enhance final OMV concentration, seven batch experiments were carried out under four different conditions: (i) with original Catlin medium; (ii) with original Catlin medium and lactate and amino acids pulse at the 6th cultivation hour; (iii) with Catlin medium with double initial concentrations of lactate and amino acids and (iv) Catlin medium without glycerol and with double initial concentrations of lactate and amino acids. The cultivation experiments were carried out in a 7-L bioreactor under the following conditions: 36°C, 0.5atm, overlay air 1L/min, agitation: 250-850 rpm, and O(2) control at 10%, 20 h. After lactate and amino acids exhaustion, cell growth reached stationary phase and a significant release increase of OMV was observed. According to the Luedeking & Piret model, OMV liberation is non-growth associated. Glycerol was not consumed during cultivation. The maximum OMV concentration value attained was 162 mg/L with correspondent productivity of 8.1mg/(Lh) employing Catlin medium with double initial concentrations of lactate and amino acids. The obtained OMV satisfied constitution and protein pattern criteria and were suitable for vaccine production.

Production of outer membrane vesicles (OMV) in batch cultivation of Neisseria meningitidis serogroup B

Meningococcal disease is an important cause of death and morbidity throughout the world. Nearly 330,000 cases and 35,000 deaths occur yearly. Neisseria meningitidis, serogroup B strain N.44/89, is prevalent in Brazil. Its outer membrane vesicles (OMV) with iron regulated proteins (IRP) are released to the culture medium and are used as antigen for vaccine production. In order to have knowledge about the kinetic parameters, especially the final OMV concentration values, 20-h batch cultivations were carried out in Catlin medium with iron restriction. Process conditions comprised: 7 L bioreactor, 36°C, 0.5 atm, overlay air flowrate of 1 L/min, agitation varying from 250 rpm to 850 rpm and dissolved oxygen control set at 10 percent of saturation condition. Biomass was determined by optical density at 540 nm and dry weight. Glycerol, lactate, pH and dissolved oxygen were measured from samples taken during cultivation. Outer membrane vesicle (OMV) concentration was determined by Lowry's method after ultracentrifugation. IRP presence was verified by SDS-PAGE. Highest biomass value, corresponding to the highest initial lactate concentration (7.84 g/L) was achieved at the 9th hour process time corresponding to 1.0 g/L dry biomass and 2.3 optical density at 540 nm. Lactate consumption was directly related to cell growth (yield factor: 0.24 g dry biomass / g lactate). Glycerol concentration in the medium did not change significantly during the process. OMV concentration reached the highest value of 80 mg/L at end cultivation time. The obtained results suggest that lactate is a main limiting growth factor and the maximum amount of antigen is obtained during stationary growth and cell death phases.

A doença meningocócica é uma causa importante de morte a nível mundial. Aproximadamente 330.000 casos e 35.000 mortes ocorrem anualmente. A cepa N.44/89 do sorogrupo B de Neisseria meningitidis é prevalente no Brasil. Suas vesículas de membrana externa (OMV - "outer membrane vesicles"), com proteínas reguladoras de ferro (IRP - "iron regulated proteins") liberadas no meio de cultura, são empregadas como antígeno para a produção da vacina. A fim ter o conhecimento sobre os parâmetros cinéticos, especialmente os valores finais da concentração de OMV, cultivos batelada de 20 hs foram realizados no meio de Catlin com limitação do ferro. As condições de processo compreenderam: biorreator de 7 litros, 36°C, 0,5 atm, vazão de ar de 1 L/min, agitação variando entre 250 a 850 rpm, controle do oxigênio dissolvido em 10 por cento da condição de saturação. A biomassa foi determinada pela densidade ótica em 540 nm e peso seco. Glicerol, lactato, pH e oxigênio dissolvido foram medidos das amostras retiradas durante o cultivo. A concentração de OMV foi determinada pelo método de Lowry após ultracentrifugação. A presença de IRP foi verificada por SDS-PAGE. O valor mais elevado de biomassa, correspondendo à concentração inicial mais elevada de lactato (7,84 g/L) foi obtido no tempo de processo de 9 horas, o qual corresponde a biomassa seca de 1,0 g/L e a densidade ótica de 2,3 em 540 nm. O consumo de lactato. foi relacionado diretamente ao crescimento celular (fator de conversão de 0,24 biomassa por lactato g/g). A concentração do glicerol no meio não se alterou significativamente ao longo do processo. A concentração de OMV alcançou o valor mais elevado de 80 mg/L no tempo final de cultivo. Os resultados obtidos sugerem que o lactato é o principal fator limitante do crescimento e o máximo do antígeno é obtido durante a fase estacionária de crescimento e de morte celular.

Accumulation of organic acids in cultivations of Neisseria meningitidis C.

Aiming at the industrial production of serogroup C meningococcal vaccine, different experimental protocols were tested to cultivate Neisseria meningitidis C and to investigate the related organic acid release. Correlations were established between specific rates of acetic acid and lactic acid accumulation and specific growth rate, during cultivations carried out on the Frantz medium in a 13 l bioreactor at 35 degrees C, 0.5 atm, 400 rpm and air flowrate of 2 l min(-1). A first set of nine batch runs was carried out: (1) with control of dissolved oxygen (O2) at 10% of its saturation point, (2) with control of pH at 6.5, and (3) without any control, respectively. Additional fed-batch or partial fed-batch cultivations were performed without dissolved O2 control, varying glucose concentration from 1.0 to 3.0 g l(-1), nine of which without pH control and other two with pH control at 6.5. No significant organic acid level was detected with dissolved O2 control, whereas acetic acid formation appeared to depend on biomass growth either in the absence of any pH and dissolved O2 control or when the pH was kept at 6.5. Under these last conditions, lactic acid was released as well, but it did not seem to be associated to biomass growth. A survey of possible metabolic causes of this behavior suggested that N. meningitidis may employ different metabolic pathways for the carbon source uptake depending on the cultivation conditions.

Neisseria meningitidis serogroup C polysaccharide production by varying the bacteria inoculum and the initial glucose concentration

A produção de polissacarídeo para a produção de vacina específica contra N. meningitidis sorogrupo C é o principal produto obtido dos cultivos deste microorganismo. Para uma análise comparativa da produção de polissacarídeo variando as quantidades de inóculo e as concentrações iniciais de glicose, realizaram-se quatro ensaios, empregando planejamento fatorial 22, em duplicata. As amostras foram retiradas a cada duas horas para a determinação da concentração celular, pH, glicose e concentração de polissacarídeo. O critério analítico foi baseado na concentração final de polissacarídeo e no fator de conversão célula/polissacarídeo (YP/X). Os melhores resultados de concentração final de polissacarídeo (0,105 g/L) e YP/X(0,078) ocorreram na condição de cultivo com maior inóculo (densidade óptica de cerca de 0,1 a 540 nm). O polissacarídeo obtido ao final desse cultivo foi eluído em gel-cromatografia para determinação de peso molecular, sendo um antígeno adequado para a produção da vacina.

Influence of initial L-asparagine and glycerol concentrations on the batch growth kinetics of Mycobacterium bovis BCG

Estudou-se a influência das concentrações iniciais, no meio de Sauton, de asparagina e glicerol sobre as produtividades, expressas em unidades formadoras de colônias e biomassa microbiana, referentes aos cultivos submersos do Mycobacterium bovis, em biorreator de 20 mL. As concentrações iniciais de 2,27 e 25 mL/L de asparagina e glicerol, respectivamente, conduziram à maior produtividade, em unidades formadoras de colônias, a saber 2,7.106 colônias/mg.dia. Por outro lado, as concentrações de 4,54 e 25 mL/L dos mesmos componentes, corresponderam à melhor produtividade em biomassa, a saber: 2,5 g/dia. Através das análises dos consumos relativos de asparagina e glicerol (50 e 26 per center respectivamente), verificou-se também que as concentrações destes componentes podem ser reduzidas na composição original do meio de Sauton, com o objetivo de obter uma produção otimizada de vacina BCG em bioreator.

Characterization of polysaccharide production of haemophilus influenzae Type b and its relationship to bacterial cell growth.

Haemophilus influenzae type b (Hib) causes invasive infections in infants and young children. Vaccines consisting of Hib capsular polysaccharide (polymer of ribosylribitol phosphate [PRP]) conjugated to a protein are effective in the prevention of such infections. The production of capsular polysaccharide type b was studied in three cultivation conditions: single, glucose pulse, and repeated batch. Specific polysaccharide production (Yp/x) was calculated for all experiments, showing the following values: 67 (single-batch cultivation), 71 (glucose pulse), 75 (repeated-batch cultivation, first batch), and 87 mg of PRP/g of dry cell weight (DCW) (repeated-batch cultivation, second batch). Biomass concentration reached approximately 1.8 g of DCW/L, while polysaccharide concentration was about approximately 132 mg/L in the three fermentation runs. Polysaccharide synthesis is associated with cell growth in all studied conditions as established by Kono's analysis and Luedeking-Piret's model.