Characterizing Humoral Immune Response to Mosquito Bites

Summary

Participation Requirements

Description

This study is a human challenge model with five arms corresponding to controlled exposure to bites of uninfected laboratory-adapted colonies of Anopheles minimus, An. maculatus, An. dirus, Aedes. aegypti or Ae. albopictus. Following screening and eligibility assessment, 150 participants will be enro...

This study is a human challenge model with five arms corresponding to controlled exposure to bites of uninfected laboratory-adapted colonies of Anopheles minimus, An. maculatus, An. dirus, Aedes. aegypti or Ae. albopictus. Following screening and eligibility assessment, 150 participants will be enrolled in the study using a block-randomized design stratified on the mosquito species and number of bites (35 or 305 bites in total) such as to constitute 10 groups of 15 individuals for each of the study condition. Participants will be in the study for 112 days. The baseline will consist of 2 visits over 2 weeks (day 0 and day 7). In the low-exposure groups, participants will be exposed to 5 mosquito bites at weekly intervals from day 14 to day 56 (seven challenges with 5 mosquito bites/challenge over six weeks, yielding a total of 35 mosquito bites). In the high-exposure group, participants will be exposed to 5 mosquito bites on day 14 and then to 50 mosquito bites at weekly intervals from day 21 to day 56 (one challenge with 5 mosquito bites and six challenges with 50 mosquito bites/challenge over 6 weeks, yielding a total of 305 mosquito bites). The number of bites and modalities of the follow up used in this study were chosen based on previous entomological investigation conducted in this area, published reports of human challenge with mosquito bites and current knowledge on the characteristic of the humoral response against saliva antigens. Both immediate and delayed skin reactions will be recorded after day 14 and day 21 challenges, requiring additional visits at day 15 and day 22. Participants with hypersensitivity to mosquito bites will be withdrawn from the study. Both capillary and venous blood samples will be collected weekly from each study participant. Eighteen venous blood samples will be collected including one sample of 2 mL drawn during screening visit, 14 samples of 8.6 mL during visits 2, 3, 6, 8, 9, 10, 11, 12, 14, 15, 16, 17, 18 and 19, and 3 samples of 18.6 mL during visits 4, 13 and 20 (178.2 mL of venous blood per participant in total). Seventeen dry blood spot (DBS) samples will be made from of 300 ?L of capillary blood collected during visits 2, 3, 4, 6, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19 and 20 (5.1 mL of capillary blood per participant in total). Candidate peptides will be identified in silico using publicly available genomes sequences and B-cell epitope prediction algorithms. The kinetic of antibody titers against candidate biomarkers will be assessed by enzyme-linked immunosorbent assay (ELISA) and mesoscale screening performed with serum and DBS specimens. Briefly, the positivity threshold of the assay will be determined using reference sera specimens from individuals not exposed to mosquito bites, as described previously. The ELISA signal measured in 60 reference sera obtained from unexposed individuals (30 Thai sera obtained from the Thai Red Cross and 30 Australian sera obtained from the Burnet Institute) will be used to define the positivity threshold of the assay. The positivity threshold of the assay will be defined as three standard deviation (SD) above the mean optic density (?OD) measured for the unexposed control population. A test in the study population with a ?OD above this cut-off will be considered positive (i.e. an immune response). The specific antibody titer of study samples will be determined by performing serial dilution experiments. Serial dilution will be made from study samples and the ?OD will be determined for each dilution. The antibody titer will be defined as the highest dilution giving a positive signal. Results obtained with DBS and serum specimens will be compared in order to assess the feasibility of using DBS samples to monitor exposure to bites of mosquitoes during epidemiological studies. Serum specimens collected during visits 4 (baseline), 13 (early after the end of exposure) and 20 (post-exposure) will also be analysed with immuno-proteomic approach (2D gel electrophoresis of salivary gland protein extracts, Western blot and mass spectrometry) yielding additional information on the antigenic properties of mosquito salivary gland proteome. Planned Sample Size: 150 participants followed-up for 16 weeks Participant Identification: Study participants are defined as healthy participants aged between 18 and 60 years old and willing to participate in the study. This study will take place at the Shoklo Malaria Research Unit (SMRU) research centre in Mae Sot.

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