Immunogenic Salivary Proteins of Triatoma infestans: Development of a Recombinant Antigen for the Detection of Low-Level Infestation of Triatomines

Chagas disease, caused by Trypanosoma cruzi, is a neglected disease with 20 million people at risk in Latin America. The main control strategies are based on insecticide spraying to eliminate the domestic vectors, the most effective of which is Triatoma infestans. This approach has been very successful in some areas. However, there is a constant risk of recrudescence in once-endemic regions resulting from the re-establishment of T. infestans and the invasion of other triatomine species. To detect low-level infestations of triatomines after insecticide spraying, we have developed a new epidemiological tool based on host responses against salivary antigens of T. infestans. We identified and synthesized a highly immunogenic salivary protein. This protein was used successfully to detect differences in the infestation level of T. infestans of households in Bolivia and the exposure to other triatomine species. The development of such an exposure marker to detect low-level infestation may also be a useful tool for other disease vectors

Biomarkers of therapeutic responses in chronic Chagas disease: state of the art and future perspectives

The definition of a biomarker provided by the World Health Organization is any substance, structure, or process that can be measured in the body, or its products and influence, or predict the incidence or outcome of disease. Currently, the lack of prognosis and progression markers for chronic Chagas disease has posed limitations for testing new drugs to treat this neglected disease. Several molecules and techniques to detect biomarkers in Trypanosoma cruzi-infected patients have been proposed to assess whether specific treatment with benznidazole or nifurtimox is effective. Isolated proteins or protein groups from different T. cruzi stages and parasite-derived glycoproteins and synthetic neoglycoconjugates have been demonstrated to be useful for this purpose, as have nucleic acid amplification techniques. The amplification of T. cruzi DNA using the real-time polymerase chain reaction method is the leading test for assessing responses to treatment in a short period of time. Biochemical biomarkers have been tested early after specific treatment. Cytokines and surface markers represent promising molecules for the characterisation of host cellular responses, but need to be further assessed.RICET RD12/0018/0010. RICET RD12/0018/0021. AGAUR 2014SGR26. Plan Nacional de I+D+I SAF2012-35777. Plan Nacional de I+D+I SAF2013-48527-R. NIMHD/NIH 2G12MD007592. Financial support: CRESIB and IPBLN research members were partially supported by the RICET (RD12/0018/0010, RD12/0018/0021), M-JP and JG received research funds from AGAUR (2014SGR26) and Fundación Mundo Sano, M-CT and M-CL were supported by Plan Nacional de I+D+I (MINECO-Spain) (SAF2012-35777, SAF2013-48527-R and FEDER), ICA was partially supported by NIMHD/NIH (2G12MD007592). Financial support: CRESIB and IPBLN research members were partially supported by the RICET (RD12/0018/0010, RD12/0018/0021), M-JP and JG received research funds from AGAUR (2014SGR26) and Fundación Mundo Sano, M-CT and M-CL were supported by Plan Nacional de I+D+I (MINECO-Spain) (SAF2012-35777, SAF2013-48527-R and FEDER), ICA was partially supported by NIMHD/NIH (2G12MD007592).Peer reviewe