Candidates for extraocular photoreceptors in the cockroach suggest homology to the lamina and lobula organs in beetles.

Abstract

Using light- and electron microscopic methods, we describe two novel putative extraocular photoreceptor organs in the optic lobes of the cockroaches Leucophaea maderae and Blaberus craniifer. The lamina organ is an elongated structure distal to the first optic chiasm, adjacent to the anterior edge of the lamina. The lobula organ is situated on the anterior distal surface of the lobula. In cross sections through the pigment-free organs, cell bodies are arranged in a closed or open circle and are interconnected by desmosomes. They send protrusions with rhabdom-like microvilli into a common, central space apparently filled with extracellular matrix. A different cell type gives rise to electron-dense lamellae, which also extend into the central space and partly join to form a common lamellar bundle. Axonal processes extend from the microvillar cells and run along the outer surface of the organs to the neighboring optic neuropils. The organs receive multiple efferent innervation from neurosecretory axons. Both organs show strong immunostaining with an antiserum against Arabidopsis cryptochrome 2 that is associated with the lamellated structure in the central lumen. The specific features of the organs suggest that they are homologous to similar organs in the optic lobe of beetles and may serve a role as extraocular photoreceptors for light entrainment of the circadian system.