A hyperpolarizing rod bipolar cell in the sea lamprey, Petromyzon marinus

Retinal bipolar cells receive direct input from rod and cone photoreceptors and send axons into the inner retina, synapsing onto amacrine and ganglion cells. Bipolar cell responses can be either depolarizing (ON) or hyperpolarizing (OFF); in lower vertebrates, bipolar cells receive mixed rod and cone input, whereas in mammals, input is mostly segregated into 14 classes of cone ON and OFF cells and a single rod ON bipolar cell. We show that lamprey, like mammals, have rod bipolar cells with little or no cone input, but these cells are OFF rather than ON. They have a characteristic morphology and a spectral sensitivity nearly indistinguishable from that of rod photoreceptors. In background light known to saturate rods, rod bipolar cells are also saturated and cannot respond to increment flashes. Our results suggest that early vertebrate progenitors of both agnathans and gnathostomes may have had a more fluid retinal organization than previously thought.

Automated summary

A study found that lamprey, like mammals, have rod bipolar cells that primarily receive input from rod photoreceptors. These cells have a unique morphology and spectral sensitivity similar to rod photoreceptors. This discovery suggests that early vertebrates may have had a more diverse retinal organization than previously thought.