1 research outputs found
Asymmetric Wolbachia Segregation during Early Brugia malayi Embryogenesis Determines Its Distribution in Adult Host Tissues
Wolbachia are required for filarial nematode survival and
fertility and contribute to the immune responses associated with human filarial
diseases. Here we developed whole-mount immunofluorescence techniques to
characterize Wolbachia somatic and germline transmission
patterns and tissue distribution in Brugia malayi, a nematode
responsible for lymphatic filariasis. In the initial embryonic divisions,
Wolbachia segregate asymmetrically such that they occupy
only a small subset of cells in the developing embryo, facilitating their
concentration in the adult hypodermal chords and female germline.
Wolbachia are not found in male reproductive tissues and
the absence of Wolbachia from embryonic germline precursors in
half of the embryos indicates Wolbachia loss from the male
germline may occur in early embryogenesis. Wolbachia rely on
fusion of hypodermal cells to populate adult chords. Finally, we detect
Wolbachia in the secretory canal lumen suggesting living
worms may release bacteria and/or their products into their host