Histopathology of a nuclear polyhedrosis infection in Aedes epactius with observations in four additional mosquito species

Abstract

Aedes epactius larvae were utilized to study the infection sequence of the nuclear polyhedrosis virus (NPV) from Aedes sollicitans. From 30 min to 6 hr postinoculation, polyhedra and many free virions were observed in the larval midgut lumen. Penetration of the midgut cells by virions was not observed. The first infected nuclei were observed 12 hr postinoculation. Nucleocapsids initially exhibited electron translucent cores which became electron dense before the nucleocapsids acquired an envelope. Envelope acquisition occurred through a process of de novo membrane morphogenesis. Occlusion of the singly embedded virions began by 18 hr postinoculation with the mature rough-surfaced polyhedra averaging approximately 1 by 2 μm. Unusually long nucleocapsids (approximately two or three times the length of other nucleocapsids) were only observed in late infection period nuclei. There was no evidence that long nucleocapsids represented an early developmental stage for nucleocapsids of standard length. Infection was restricted to midgut nuclei and gastric caecae cells. Infected early instar A. epactius larvae became moribund 36 to 40 hr postinoculation and infected midgut nuclei were observed to undergo lysis. The late stages of NPV infection were observed in larvae of A. annandalei, Wyeomyia smithii, Toxorhynchites brevipalpus, and Eretmapodites quinquevittatus. Virion development and occlusion in these species was basically identical to the sequence observed in A. epactius larvae.