News Release

CCNY-led research team identifies new organelle in parasitic wasp venom

Peer-Reviewed Publication

City College of New York

CCNY-led Research Team Identifies New Organelle in Parasitic Wasp Venom

image: CCNY-led research team identifies new organelle in parasitic wasp venom. view more 

Credit: City College of New York

City College of New York biologist Shubha Govind and her research team have identified the composition of "virus-like particles" (VLPs) found in the venom of a wasp that is a parasite of fruit flies. Invisible to the eye, wasp VLPs suppress the flies' immune responses by killing their blood cells.

Wasps lay their eggs along with spiked VLP particles into the worm-like immature bodies of Drosophila melanogaster, the long-venerated genetic model of human disease and development. In the wild, parasitic wasps attack insects and are used to naturally control crop damage by insect pests. The Govind lab has developed a model to study this host/parasite interaction in the laboratory. While the particles were originally termed "virus like" due to their size and structure, this work has shifted that view.

The new study reports that VLPs have a profile of "extracellular microvesicles" that are microscopic, membrane-bound transport structures most animal cells use to package and traffic proteins to the outside. Strikingly, VLPs also have proteins that resemble bacterial proteins, found on their needle-shaped "injectisome" used to invade animal cells. The VLP proteins are similarly located on their surfaces/spikes, suggesting parallel mechanisms of invading hosts' blood cells.

Given the VLP particles' mixed prokaryotic/eukaryotic properties, the researchers have renamed them MSEVs for "Mixed Strategy Extracellular Vesicles."


Govind's team included CCNY Division of Science graduate students, Mary Ellen Heavner and Johnny Ramroop, and collaborators Shaneen Singh (Brooklyn College) and Rong Wang (Icahn School of Medicine at Mount Sinai).

The research, which appears in the journal Current Biology, was co-funded by the National Institutes of Health, National Science Foundation, and NASA.

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