Rp-vasa: a bona fide Primordial Germ Cell marker that drives embryonic expression in the Chagas disease vector Rhodnius prolixus

Rhodnius prolixus is an insect vector of the protozoan Trypanosoma cruzi, the causative agent of debilitating Chagas disease, which is transmitted to humans during blood feeding. Identifying germline markers is a critical step in advancing vector control and transgenic technologies of these medically important insects. Transmission of genetic traits to the next generation requires proper differentiation of the germline that gives rise to gametes. Germline precursors are established during early stages of development as the primordial germ cell (PGC) population. Among the genes required for this process, vasa homologues exert a conserved role in germline specification. Here, we characterize and validate the genomic structure of the R. prolixus Rp-vasa locus and assess its expression during early embryogenesis. We observe widespread Rp-vasa expression in preblastoderm embryos. Later, during the cellular blastoderm and at the beginning of gastrulation, Rp-vasa and Rp-piwi2 expression is restricted to PGCs, morphologically identifiable as a cluster of cells at the posterior of the embryo. We also report, for the first time, the use of R. prolixus regulatory sequences to drive the expression of exogenous genes. We identify the Rp-vasa regulatory region and show that these cis-regulatory sequences are sufficient to drive Cas9 and dsRed expression in the early embryo. Together, these findings demonstrate that Rp-vasa has great potential for use as a PGC marker and as a driver for gene expression in transgenic and gene editing approaches for Triatomine vectors.