The peritrophic membrane: Ultrastructural analysis and function as a mechanical barrier to microbial infection in Orgyia pseudotsugata

The feasibility of freeze-etching as a method for structural analysis of the peritrophic membrane (PM) has been demonstrated, and this method and other electron microscopical techniques have been employed to investigate the possible function of the PM as a mechanical barrier to infection of the larval midgut. Thin sections show that the PM consists of granular and microfibrous layers typical of PMs from other insects. Freeze-etch studies show that the membrane consists of at least three structurally distinct layers. The major component is a layer of chitin microfibrils that appear to be arranged in oriented layers. The fibrils exhibit a periodicity of 4 nm and are embedded in a granular matrix. The fibrils coalesce into 100-nm fibers which run throughout the microfibrillar layer. Adjacent to this layer is a very rough layer, with randomly dispersed granules 100 nm in diameter and covered with particles 32 nm in diameter. Adjacent to the midgut lumen is a finely granular layer which gives the PM a smooth appearance. No pores or other discontinuities through which a bacterial or viral pathogen could penetrate were detected in the PM, indicating the PM of the Douglas fir tussock moth could function as a mechanical barrier to microbial infection. The importance of chitin and protein to the apparent strength of the Douglas fir tussock moth PM was partially elucidated by studies with chitinases and proteases. Both types of enzymes degraded the PM, causing release of the products of hyrolysis or structural changes in the membrane.