Toxoplasmosis, an overview with emphasis on ocular involvement

Toxoplasmosis is a common parasitic zoonosis and an important cause of abortions, mental retardation, encephalitis, blindness, and death worldwide. Although a large body of literature has emerged on the subject in the past decades, many questions about the pathogenesis and treatment of the disease remain unanswered. This review aims to provide an overview of the current insights regarding the causative parasite and the mechanisms leading to symptomatic infection with emphasis on ocular toxoplasmosis

IgA antibodies to Toxoplasma gondii in human tears

PURPOSE. To investigate whether mucosal immune responses directed against the ubiquitous parasite Toxoplasma gondii can be detected in tears of healthy humans. METHODS. Nonstimulated tears and blood were obtained from 62 healthy humans (mean age, 35 ± 10 [SD] years). Serum anti-T. gondii immunoglobulin titers were determined by Sabin-Feldman (SF) dye test. Western blot analysis was used to compare the anti-T. gondii repertoire in tears and serum, and antibody avidity was determined by urea elution. Diluted tear and serum samples were incubated with the intact parasite to determine whether the antibodies found in tears and serum are capable of binding to surface exposed antigens of T. gondii. RESULTS. Eighty-one percent of the individuals tested had an anti-T. gondii IgA response in their tears, whereas only 23% had evidence of systemic immunity against the parasite. There was no apparent relation between chronic infection and presence of anti-T. gondii IgA in tears. Characteristically, the antigens recognized by the IgA antibodies in tears were often limited to at least one of four antigens with molecular weights of 74, 70, 49, and 34 kDa. The avidity of the anti-T. gondii IgA antibodies in tears was similar to the avidity of serum IgG antibodies. IgA antibodies directed against the 49- and 74-kDa antigens recognized epitopes exposed on the surface of the parasite. CONCLUSIONS. A major finding of this study is that tears of many individuals, chronically infected or not, contain IgA antibodies against T. gondii. It is not known whether these frequently observed antibody responses are the result of common mucosal immune responses against T. gondii or represent the natural antibody repertoire

Conserved Regions of Protein Disulfide Isomerase are Targeted by Natural IgA Antibodies in Humans

Secretory IgA (sIgA) antibodies in human tears and milk were found to recognize protein disulfide isomerase (PDI) on a Toxoplasma gondii lysate immunoblot (IB). These antibodies were already detectable in tears of infants. To determine the epitope containing-regions on PDI, we generated truncated versions of recombinant PDI that differ by 8-10 amino acids in length. By IB, it was found that the sIgA epitopes were confined to conserved regions of PDI, including the functionally essential thioredoxin-like domain. This suggested the capacity of sIgA to react with PDI of other species, which was confirmed by recognition of human PDI by IgA in tears. In contrast, anti-T. gondii PDI antibodies generated by immunization were not able to cross-react. Binding to the thioredoxin-like domain on IB could be gradually abrogated by incubation with peptide constituting the same domain. By consecutive investigation of the function of the protein targeted by sIgA, the presence of antibody in relation to age and analysis of the epitope constituting regions on PDI we demonstrate that sIgA directed against PDI are self-reactive natural antibodies. Furthermore, analysis of antibody epitopes on an antigen is a useful method to distinguish conventional, affinity-matured antibodies from natural antibodies. The presence at early age and continuity of anti-PDI sIgA in relation to age suggests the existence of B cells secreting germline-encoded antibodies in human mucosa outside of the gut. Overall, the PDI-specific antibodies are clearly part of the natural antibody repertoire, suggesting an active role for these antibodies in the innate defense against pathogen

A novel, high stringency selection system allows screening of few clones for high protein expression.

To obtain highly productive mammalian cell lines, often large numbers of clones need to be screened. This is largely due to low selection stringencies, creating many, but low protein producing clones. To remedy this problem, a novel, very stringent selection system was designed, to create few, but high protein producing clones. In essence, a selection marker with a startcodon that confers attenuated translation initiation frequency was placed upstream of the gene of interest with a startcodon that confers optimal translation initiation. From the transcribed bicistronic mRNA, the selection marker is translated at a low frequency, and the protein of interest at a high frequency. This selection system is so stringent that clones form only rarely. However, application of anti-repressor elements, which increase promoter activity, did induce the formation of clones that expressed proteins at high levels. When combined with anti-repressor elements, this novel selection system can be a valuable tool to rapidly create few, but highly productive mammalian cell lines