The stepwise development of the lamprey visual system and its evolutionary implications

ABSTRACT Lampreys, which represent the oldest group of living vertebrates (cyclostomes), show unique eye development. The lamprey larva has only eyespot‐like immature eyes beneath a non‐transparent skin, whereas after metamorphosis, the adult has well‐developed image‐forming camera eyes. To establish a functional visual system, well‐organised visual centres as well as motor components (e.g. trunk muscles for locomotion) and interactions between them are needed. Here we review the available knowledge concerning the structure, function and development of the different parts of the lamprey visual system. The lamprey exhibits stepwise development of the visual system during its life cycle. In prolarvae and early larvae, the ‘primary’ retina does not have horizontal and amacrine cells, but does have photoreceptors, bipolar cells and ganglion cells. At this stage, the optic nerve projects mostly to the pretectum, where the dendrites of neurons in the nucleus of the medial longitudinal fasciculus (nMLF) appear to receive direct visual information and send motor outputs to the neck and trunk muscles. This simple neural circuit may generate negative phototaxis. Through the larval period, the lateral region of the retina grows again to form the ‘secondary’ retina and the topographic retinotectal projection of the optic nerve is formed, and at the same time, the extra‐ocular muscles progressively develop. During metamorphosis, horizontal and amacrine cells differentiate for the first time, and the optic tectum expands and becomes laminated. The adult lamprey then has a sophisticated visual system for image‐forming and visual decision‐making. In the adult lamprey, the thalamic pathway (retina–thalamus–cortex/pallium) also transmits visual stimuli. Because the primary, simple light‐detecting circuit in larval lamprey shares functional and developmental similarities with that of protochordates (amphioxus and tunicates), the visual development of the lamprey provides information regarding the evolutionary transition of the vertebrate visual system from the protochordate‐type to the vertebrate‐type.