RT Journal Article
SR Electronic
T1 Discovery of a Natural Microsporidian Pathogen with a Broad Tissue Tropism in <em>Caenorhabditis elegans</em>
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 047720
DO 10.1101/047720
A1 Robert J. Luallen
A1 Aaron W. Reinke
A1 Linda Tong
A1 Michael R. Botts
A1 Marie-Anne Félix
A1 Emily R. Troemel
YR 2016
UL http://biorxiv.org/content/early/2016/04/08/047720.abstract
AB Microbial pathogens often establish infection within particular niches of their host for replication. Determining how infection occurs preferentially in specific host tissues is a key aspect of understanding host-microbe interactions. Here, we describe the discovery of a natural microsporidian parasite of the nematode Caenorhabditis elegans that has a unique tissue tropism compared to other parasites of C. elegans. We characterize the life cycle of this new species, Nematocida displodere, including pathogen entry, intracellular replication, and exit. N. displodere can invade multiple host tissues, including the epidermis, muscle, neurons, and intestine of C. elegans. Despite robust invasion of the intestine very little replication occurs there, with the majority of replication occurring in the muscle and epidermis. This feature distinguishes N. displodere from two closely related microsporidian pathogens, N. parisii and N. sp. 1, which exclusively invade and replicate in the intestine. Comparison of the N. displodere genome with N. parisii and N. sp. 1 reveals that N. displodere is the earliest diverging species of the Nematocida genus and devotes over 10% of its genome to a single species-specific gene family that may be mediating host interactions upon infection. Altogether, this system provides a convenient whole-animal model to investigate factors responsible for pathogen growth in different tissue niches.