Project description:Differential gene expression to parasite and nonparasite antigen was seen in infected patients with lifelong exposure to the human filarial parasite Loa loa (endemics) compared with patients who became infected due to temporary residence or travel in an endemic country (expatriates).
Project description:Differential gene expression to parasite and nonparasite antigen was seen in infected patients with lifelong exposure to the human filarial parasite Loa loa (endemics) compared with patients who became infected due to temporary residence or travel in an endemic country (expatriates). CD4+ and CD8+ cells were isolated; comparison was done between unstimulated cells from 2 patient groups and between parasite microfilarial (MfAg) and nonparasite streptolysin O (SLO) antigen-stimulated cells with unstimulated cells; Technical replicates (2 unstimulated; 2 each antigen)
Project description:Analysis of 80 glioblastoma specimen of patients treated within clinical trials and 4 samples of "normal" brain tissue (non-tumoral). The data was used to identify factors of resistance to a chemoradiation therapy protocol of radiotherapy and concomitant and adjuvant temozolomide (alkylating agent). Experiment Overall Design: 80 glioblastoma specimen and 4 non-tumoral brain samples
Project description:Rapid and accurate prevalence mapping of lymphatic filariasis (LF) is necessary to eliminate this disfiguring and disabling neglected tropical disease. Unfortunately, rapid tests such as the filariasis test strip (FTS) for Wuchereria bancrofti, the causative agent of LF in Africa, can cross-react with antigens circulating in some persons infected by the African eye worm, Loa loa, rendering the test unreliable in eleven co-endemic nations. The intended target of the FTS is a heavily glycosylated W. bancrofti circulating filarial antigen (Wb-CFA). Previously, we determined that the FTS monoclonal antibody, AD12.1, which detects a carbohydrate epitope on Wb-CFA, also detects multiple L. loa proteins in cross-reactive sera from persons with loiasis. Since the carbohydrate epitope recognized by AD12.1 is present on glycoproteins of other parasitic nematodes, including Brugia species, it is unclear why reactive glycoproteins are not detected in infections with other filarial parasites. To gain a better understanding of the proteins recognized by the FTS diagnostic antibody, we used proteomics and to characterize filarial glycoproteins that are bound by the AD12.1 antibody using Brugia malayi as a model. This included using shotgun proteomics to catalog the AD12-reactive glycoproteins found in adult female somatic (BmSOM) and excretory/secretory (BmES) antigens. As well as in-gel proteomics of two predominant protein bands from BmES.
Project description:The availability of two genetically very similar clones (A and B) derived from the laboratory isolate Entamoeba histolytica HM-1:IMSS, which differ in their virulence properties, provides a powerful tool for identifying pathogenicity factors of the causative agent of human amoebiasis. We isolated RNA from each clone for transcriptional comparison.
