Scientists Repair Injured Neurons Using Light

Scientists Repair Injured Neurons Using Light
These are zebrafish neurons projecting
to the brain (green). One neuron
expresses a light-activatable enzyme (red).
Scientist were able to stimulate the
regeneration of injured neurons using
optogenetics. (Credit
Helmholtz Zentrum München)
The nervous system is built to last a lifetime, but diverse diseases or environmental insults can overpower the capacity of neurons to maintain function or to repair after trauma. A team led by Dr. Hernán López-Schier at Helmholtz Zentrum München, now succeeded in promoting the repair of an injured neural circuit in zebrafish. The study was published in the journal Current Biology.
 
Key for the researchers' success was the messenger molecule cAMP, which is produced by an enzyme called adenylyl cyclase. For their experiment, the scientist used a special form of this enzyme which is inducible by blue light. Therefore, the scientists are able to specifically modulate the production of cAMP in cells expressing this enzyme by the use of blue light.
 
The researchers used this system in zebrafish larvae which had interrupted sensory lateralis nerves. "However, when blue light was shone on severed nerves that expressed a photoactivatable adenylyl cyclase, their repair was dramatically increased," said Yan Xiao who is the first author of the study.
 
"While untreated nerve terminals only made synapses again in five percent of the cases, about 30% did after photostimulation." In simple terms: the scientists were able to stimulate the repair of a neuronal circuit by elevating cAMP with blue light.
 
"Optogenetics have revolutionized neurobiology, since the method has already been used to modify for instance the electrical activity of neurons. However, our results show for the first time how the repair of a complex neural circuit in a whole animal can be promoted remotely by the use of light", explains López-Schier.
 
But the head of the study thinks that this is only the beginning: "Our results are a first step. Now we would like to investigate, whether these results can be extrapolated beyond single neurons in zebrafish, to more complex neuronal circuits of higher animals." The scientist could think of using this method for future therapeutic approaches for the treatment of neuropathies like those occurring in the wake of Diabetes and other diseases.
 
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