Mon 21 Jul 2014
By Laurel Hamers
One of the brain’s amazing abilities is self-repair: Although injury or illness may disrupt neural circuits, many connections will reform over time.
Artur Llobet, an MBL Research Awardee from the University of Barcelona, is spending his second consecutive summer in the Whitman Center for Visiting Research investigating olfactory neuron repair in Xenopus laevis, the African clawed frog.
“One of the advantages of working with frogs is that they have fantastic regenerative capabilities,” says Llobet. Tadpoles are able to repair damaged neural circuits in a few days, making them ideal test subjects.
Llobet is working with a transgenic line of Xenopus tadpoles that express green fluorescent protein (GFP) in their neurons, allowing him to easily see the neural connections. Last year, he studied the timeframe of Xenopus neural repair by measuring how long snipped olfactory nerves took to regrow. Now, he is trying to understand in greater detail the mechanisms behind the repair process.
Neurons pass electrochemical messages between each other at junctions called synapses; when a neuron fires, the voltage change propagates along the nerve fiber (axon) and calcium increases at the presynaptic terminal, which releases neurotransmitters. By labeling the tadpoles’ synaptic terminals with calcium indicators, Llobet can visualize the functionality of the re-grown connections and determine when during the repair process the new synapses start signaling.
“In a GFP animal, we can see that the nerve has re-grown, but we don’t know if that nerve is actually working or not,” says Llobet. “So we look at the synapses and see whether the calcium concentration increases when we stimulate olfactory sensory neurons.” This calcium accumulation indicates that the new nerve is not just present, but also functional.
By examining neural repair in frogs, scientists hope to gain insight into this process in more complex systems such as the human brain.
Llobet’s research is taking place through the National Xenopus Resource (NXR) at the MBL, a center that maintains breeding stocks of frogs and provides training on advanced imaging and experimental technologies. According to Llobet, the specialized resources offered by the NXR make this research project possible. He is one of six MBL Research Awardees in 2014 to be using the animals and research services of the NXR, which is one of 28 National Institutes of Health-funded Animal Resource Centers nationwide and a cornerstone facility of the MBL’s Bell Center for Regenerative Biology and Tissue Engineering.