Validação dos processos envolvidos na obtenção do polissacarídeo capsular de Haemophilus influenzae tipo b conjugado com toxóide tetânico utilizado para produção de vacina

Haemophilus influenzae tipo b (Hib) é a principal causa de pneumonia bacteriana e meningite em crianças com menos de 5 anos de idade. A doença pode ser prevenida através da vacinação com uma vacina conjugada polissacarídeo-proteína, uma vez que a vacina de polissacarídeo não é eficaz. Desde 1999, o Ministério da Saúde incluiu a vacina conjugada Hib na rotina do calendário de imunização para crianças rotineiramente. Sendo este um processo de grande importância para as pessoas e demanda de produção significativa para o governo brasileiro, é necessário que os processos estejam de acordo com as normas nacionais e internacionais de regulamentação e devem ser validados. Uma operação validada assegura a produção de lotes uniformes que atendem as especificações exigidas, consequentemente, garantindo ao fabricante a capacidade de proporcionar um produto de qualidade. O trabalho propõe o desenvolvimento de uma metodologia que evidencie e garanta o processo de produção de um conjugado de polissacarídeo-proteína pelo método de conjugação química e que será produzido de forma consistente e de acordo com as suas especificações pré-definidas. Os atributos de qualidade garantem o não desabastecimento da vacina Haemophilus influenzae tipo b por desvios de processo, o que contribui com aumento do valor agregado ao produto em questão. Portanto, a metodologia de validação foi aplicada ao estudo de validação. O estudo baseou-se em três etapas. A primeira foi baseada em análise de parâmetros do processo de conjugação química para mapear e estabelecer intervalos críticos de controle quanto a estes parâmetros, a segunda fase foi realizada com a produção de três lotes consecutivos, em escala industrial, com monitorização regular dos parâmetros críticos mapeados anteriormente. A fase final consistiu em amostras recolhidas, em tempo pré-determinado, durante o processo de produção e de controle do produto final em tamanho 50% a mais que na rotina de produção. Estas amostras foram analisadas utilizando os métodos de análise que foram anteriormente validados, a fim de garantir a reprodutibilidade dos resultados. A robustez do processo foi assegurada uma vez que todos os parâmetros do processo avaliados apresentaram resultados dentro do padrão de conformidade com os resultados de controle determinados durante o processo, e no produto final para a população de amostragem dentro de especificações definidas pelas metodologias analíticas validadas garantindo os resultados. O trabalho proposto assegura status de processo validado para o conjugado polissacarídeo-proteína com excepcionais rendimentos obtidos, combinado com características químicas bem definidas

The intraocular lens: challenges in the prevention and therapy of infectious endophthalmitis and posterior capsular opacification

Cataract is the leading cause of visual impairment worldwide. In the UK, some 30% of the population over 65 years of age have visually impairing cataract. Importantly, 88% of those with treatable visual impairment from cataract are not in contact with any ocular healthcare service, representing a major potential healthcare need [1]. In the USA, it has been estimated that 17.2% of the population (approximately 20.5 million) over 40 years of age have cataract in either eye and by 2020, this number is expected to rise to 30.1 million. Currently, cataract is responsible for 60% of Medicare costs associated with vision [2]. Furthermore, as the populations of industrialized countries such as the UK and the USA continue to age, the costs associated with treatment of cataract can only be expected to increase. Consequently, the development of the intraocular lens to replace the cataractous lens and the advances in intraocular lens design and implantation represent a major development in cataract treatment. However, despite such advances, cataract surgery is not without complications, such as postoperative infectious endophthalmitis, a rare but potentially devastating condition, and posterior capsular opacification, a less serious but much more common problem. This review will examine the epidemiology of cataracts, the polymeric construction of intraocular lenses implanted during cataract surgery and the complications of postoperative infectious endophthalmitis and posterior capsular opacification with regard to therapeutic interventions and prophylactic strategies. Advances in biomaterial design and function will be discussed as novel approaches to prevent such postoperative complications.

Mutational analysis of genes implicated in LPS and capsular polysaccharide biosynthesis in the opportunistic pathogen Bacteroides fragilis

The obligate anaerobe Bacteroides fragilis is a normal resident of the human gastrointestinal tract. The clinically derived B. fragilis strain NCTC 9343 produces an extensive array of extracellular polysaccharides (EPS), including antigenically distinct large, small and micro- capsules. The genome of NCTC 9343 encodes multiple gene clusters potentially involved in the biosynthesis of EPS, eight of which are implicated in production of the antigenically variable micro-capsule. We have developed a rapid and robust method for generating marked and markerless deletions, together with efficient electroporation using unmodified plasmid DNA to enable complementation of mutations. We show that deletion of a putative wzz homologue prevents production of high-molecular-mass polysaccharides (HMMPS), which form the micro-capsule. This observation suggests that micro-capsule HMMPS constitute the distal component of LPS in B. fragilis. The long chain length of this polysaccharide is strikingly different from classical enteric O-antigen, which consists of short-chain polysaccharides. We also demonstrate that deletion of a putative wbaP homologue prevents expression of the phase-variable large capsule and that expression can be restored by complementation. This suggests that synthesis of the large capsule is mechanistically equivalent to production of Escherichia coli group 1 and 4 capsules.

Repertoire of HLA-DR1-restricted CD4 T cell responses to capsular Caf1 antigen of Y. pestis HLA-transgenic mice

Yersinia pestis is the causative agent of plague, a rapidly fatal infectious disease that has not been eradicated worldwide. The capsular Caf1 protein of Y. pestis is a protective antigen under development as a recombinant vaccine. However, little is known about the specificity of human T cell responses for Caf1. We characterized CD4 T cell epitopes of Caf1 in 'humanized'-HLA-DR1 transgenic mice lacking endogenous MHC class II molecules. Mice were immunized with Caf1 or each of a complete set of overlapping synthetic peptides, and CD4 T cell immunity was measured with respect to proliferative and IFNgamma T cell responses and recognition by a panel of T cell hybridomas, as well as direct determination of binding affinities of Caf1 peptides to purified HLA-DR molecules. Although a number of DR1-restricted epitopes were identified following Caf1 immunization, the response was biased towards a single immunodominant epitope near the C-terminus of Caf1. In addition, potential promiscuous epitopes, including the immunodominant epitope, were identified by their ability to bind multiple common HLA alleles, with implications for the generation of multivalent vaccines against plague for use in humans.

Role of capsular modified heptose in the virulence of Campylobacter jejuni

The Campylobacter jejuni capsular polysaccharide is important for virulence and often contains a modified heptose. In strain ATCC 700819 (a.k.a. NCTC 11168), the modified heptose branches off from the capsular backbone and is directly exposed to the environment. We reported previously that the enzymes encoded by wcaG, mlghB and mlghC are involved in heptose modification. Here, we show that inactivation of any of these genes leads to production of capsule lacking modified heptose and alters the transcription of other capsule modification genes differentially. Inactivation of mlghB or mlghC, but not of wcaG, decreased susceptibility to bile salts and abrogated invasion of intestinal cells. All mutants showed increased sensitivity to serum killing, especially wcaG::cat, and had defects in colonization and persistence in chicken intestine, but did not show significant differences in adhesion, phagocytosis and intracellular survival in murine macrophages. Together, our findings suggest that the capsular heptose modification pathway contributes to bacterial resistance against gastrointestinal host defenses and supports bacterial persistence via its role in serum resistance and invasion of intestinal cells. Our data further suggest a dynamic regulation of expression of this pathway in the gastrointestinal tract.

Studies of the assembly of the Streptococcus pneumoniae capsular polysaccharide

Dissertation presented to obtain the Ph.D degree in Biology.

De la contracture hystérique permanente / par Bourneville,... et Voulet,...

Mécénat texte imprimé : Cet ouvrage a été numérisé grâce au fonds "Docteur Jean-Paul Sichel", dédié à l'histoire de la psychiatrie

Capsular sialic acid of Streptococcus suis serotype 2 binds to swine influenza virus and enhances bacterial interactions with virus-infected tracheal epithelial cells.

Streptococcus suis serotype 2 is an important swine bacterial pathogen, and it is also an emerging zoonotic agent. It is unknown how S. suis virulent strains, which are usually found in low quantities in pig tonsils, manage to cross the first host defense lines to initiate systemic disease. Influenza virus produces a contagious infection in pigs which is frequently complicated by bacterial coinfections, leading to significant economic impacts. In this study, the effect of a preceding swine influenza H1N1 virus (swH1N1) infection of swine tracheal epithelial cells (NTPr) on the ability of S. suis serotype 2 to adhere to, invade, and activate these cells was evaluated. Cells preinfected with swH1N1 showed bacterial adhesion and invasion levels that were increased more than 100-fold compared to those of normal cells. Inhibition studies confirmed that the capsular sialic acid moiety is responsible for the binding to virus-infected cell surfaces. Also, preincubation of S. suis with swH1N1 significantly increased bacterial adhesion to/invasion of epithelial cells, suggesting that S. suis also uses swH1N1 as a vehicle to invade epithelial cells when the two infections occur simultaneously. Influenza virus infection may facilitate the transient passage of S. suis at the respiratory tract to reach the bloodstream and cause bacteremia and septicemia. S. suis may also increase the local inflammation at the respiratory tract during influenza infection, as suggested by an exacerbated expression of proinflammatory mediators in coinfected cells. These results give new insight into the complex interactions between influenza virus and S. suis in a coinfection model.