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Not So Different After All: Mysterious Eye Cells Adapt To Light
January 06, 2006A new retinal photoreceptor adjusts its sensitivity in different lighting conditions, according to scientists at Brown University, where the rare eye cells were discovered.
The results, published in Neuron, are a surprise. Though rods and cones, their biological cousins in the retina, clearly adjust to light levels, these new cells - intrinsically photosensitive retinal ganglion cells, or ipRGCs - were assumed not to adapt this way. Still, the adaptation process in ipRGCs is weaker and slower than it is in rods and cones.
The findings provide further evidence that the eye has complementary brain-signaling systems at work. Rods and cones rapidly communicate changes in brightness, signals which allow us to glimpse a baseball streaking across the sky or a deer darting into a darkened road. But ipRGCs work differently. They send signals about overall brightness, telling the brain when it is night and when it is day.
"These cells operate like a light meter on a camera," said David Berson, the Sidney A. Fox and Dorothea Doctors Fox Professor of Ophthalmology and Visual Sciences. "They tell the brain to constrict the pupil based on the amount of light registered over time."
Berson discovered ipRGCs in his Brown neuroscience lab three years ago. These cells number no more than 2,000 in the eye and have a direct link to the brain, sending electrical messages to an area regulating the pupil as well as a region controlling the body clock. This circadian rhythm controls alertness, sleep, hormone production, body temperature and organ function.
Earlier this year, the Berson lab reported in Nature that a protein called melanopsin plays a key role in the cells' ability to absorb light energy, sparking a chain reaction that sends these signals to the brain.
But how ipRGCs behave naturally is largely unknown. The authors said this new work fills in a few blanks in the scientific book.
"Until now, we didn't know if these cells were adaptive to lighting conditions," said Kwoon Wong, a postdoctoral research fellow in the Berson lab and the lead author of the Neuron paper. "Now we know that they are. Compared with rods and cones, they're glacially slow and they don't adjust their sensitivity as completely. But they do behave in similar ways. It's a difference of degree, not of kind. In fact, what we found out about ipRGCs seems to be true of all biological systems: They adapt to their environment."
To arrive at the findings, Wong, Berson and former Brown undergraduate Felice Dunn exposed rat ipRGCs to a series of increasingly bright flashes then measured changes in voltage across the cell membrane - a sign of neuronal response. The flashes evoked much bigger responses when the cells had been sitting in darkness than when they were exposed to bright background light. These adjustments persisted when ipRGC synapses were chemically blocked, indicating that the changes in sensitivity were indeed happening within these cells.
The National Institutes of Health funded the work.
Brown University
"These cells operate like a light meter on a camera," said David Berson, the Sidney A. Fox and Dorothea Doctors Fox Professor of Ophthalmology and Visual Sciences. "They tell the brain to constrict the pupil based on the amount of light registered over time."
Berson discovered ipRGCs in his Brown neuroscience lab three years ago. These cells number no more than 2,000 in the eye and have a direct link to the brain, sending electrical messages to an area regulating the pupil as well as a region controlling the body clock. This circadian rhythm controls alertness, sleep, hormone production, body temperature and organ function.
Earlier this year, the Berson lab reported in Nature that a protein called melanopsin plays a key role in the cells' ability to absorb light energy, sparking a chain reaction that sends these signals to the brain.
But how ipRGCs behave naturally is largely unknown. The authors said this new work fills in a few blanks in the scientific book.
"Until now, we didn't know if these cells were adaptive to lighting conditions," said Kwoon Wong, a postdoctoral research fellow in the Berson lab and the lead author of the Neuron paper. "Now we know that they are. Compared with rods and cones, they're glacially slow and they don't adjust their sensitivity as completely. But they do behave in similar ways. It's a difference of degree, not of kind. In fact, what we found out about ipRGCs seems to be true of all biological systems: They adapt to their environment."
To arrive at the findings, Wong, Berson and former Brown undergraduate Felice Dunn exposed rat ipRGCs to a series of increasingly bright flashes then measured changes in voltage across the cell membrane - a sign of neuronal response. The flashes evoked much bigger responses when the cells had been sitting in darkness than when they were exposed to bright background light. These adjustments persisted when ipRGC synapses were chemically blocked, indicating that the changes in sensitivity were indeed happening within these cells.
The National Institutes of Health funded the work.
Brown University
Eye Cells Current Events and Eye Cells News RSSSmall evolutionary shifts make big impacts -- like developing night vision, researchers find
In the developing fetus, cell growth follows a very specific schedule. In the eye's retina, for example, cones -- which help distinguish color during the day -- develop before the more light-sensitive rods -- which are needed for night vision.
Eye cells believed to be retinal stem cells are misidentified
Cells isolated from the eye that many scientists believed were retinal stem cells are, in fact, normal adult cells, investigators at St. Jude Children's Research Hospital have found.
The difference between eye cells is-sumo?
Researchers at the Johns Hopkins University School of Medicine and Washington University School of Medicine have identified a key to eye development - a protein that regulates how the light-sensing nerve cells in the retina form.
Stem cell therapy shows promise for rescuing deteriorating vision
For the millions of Americans whose vision is slowly ebbing due to degenerative diseases of the eye, the lowly neural progenitor cell may be riding to the rescue.
A wandering eye
Eyes are among the earliest recognisable structures in an embryo; they start off as bulges on the sides of tube-shaped tissue that will eventually become the brain.
UF scientists reverse muscle contractions in mouse model of muscular dystrophy
University of Florida scientists have used gene therapy to eliminate disabling muscle contractions in a mouse model of the most common form of adult-onset muscular dystrophy.
Bacterium present in eyes with 'wet' age-related macular degeneration
Researchers at the Massachusetts Eye and Ear Infirmary (MEEI) have found that Chlamydia pneumoniae, a bacterium linked to heart disease and capable of causing chronic inflammation, was present in the diseased eye tissue of five out of nine people with neovascular, or "wet," age-related macular degeneration (AMD).
Yellow Glasses To Save Vision
Blue light destroys certain structural elements in the eye, as was revealed by the Russian research team. The mechanism of this effect was studied, and protective measures were offered. The work was supported jointly by the Russian Foundation for Basic Research (RFBR) and the Foundation for Assistance to Small Innovative Enterprises (FASIE), project no. 02-04-08012.
Controlling body size by regulating the number of cells
Why are elephants bigger than mice? The main reason is that mice have fewer cells. Research published in Journal of Biology this week uncovers a key pathway that controls the number of cells in an animal, thereby controlling its size. Ernst Hafen and his colleagues from the University of Zürich used fruit flies to investigate the role of the insulin-signalling pathway and in particular a molecule called FOXO. If insulin signalling is reduced, for example by starving developing fly larvae, FOXO activity increases; this then reduces the number of cells in the developing flies, causing them to be smaller. Mammals have similar a signalling pathway, and it has been suggested to have a role
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