Cell differentiation in the embryonic midgut of the tobacco hornworm, Manduca sexta.

While the larval midgut of Manduca sexta has been intensively studied as a model for ion transport, the developmental origins of this organ are poorly understood. In our study we have used light and electron microscopy to investigate the process of midgut epithelial cell differentiation in the embryo. Our studies were confined to the period between 56 and 95 hr of embryonic development (hatching is at 101 hr at 25 degrees C), since preliminary studies indicated that all morphologically visible differentiation of the midgut epithelium occurs during this time. At 56 hr the midgut epithelium is organized into a ragged pseudostratified epithelium. Over the next 10 hr, the embryo molts and the midgut epithelium takes on a distinctive character in which the future goblet and columnar cells can be identified. With further differentiation, closed vesicles in the goblet cells expand and subsequently communicate to the outside by way of a valve. The columnar cells form numerous microvilli on their apical surfaces that extend over the goblet cells. Both cell types form basal folds from a series of plasmalemmal invaginations. Differentiation occurs concurrent with a six-fold elongation of these cells.