Okinawa [Japan], December 19 (ANI): In a study on mice, scientists have pinpointed specific areas of the brain that individually promote patience through the action of serotonin.
The study was conducted by the Neural Computation Unit at the Okinawa Institute of Science and Technology Graduate University (OIST), the authors, Dr Katsuhiko Miyazaki and DrKayoko Miyazaki, and its findings were published in the journal Science Advances.
"Serotonin is one of the most famous neuromodulators of behavior, helping to regulate mood, sleep-wake cycles, and appetite," said Dr. Katsuhiko Miyazaki. "Our research shows that the release of this chemical messenger also plays a crucial role in promoting patience, increasing the time that mice are willing to wait for a food reward."
Their most recent work draws heavily on previous research, where the unit used a powerful technique called optogenetics - using light to stimulate specific neurons in the brain - to establish a causal link between serotonin and patience.
The scientists bred genetically engineered mice that had serotonin-releasing neurons that expressed a light-sensitive protein. This meant that the researchers could stimulate these neurons to release serotonin at precise times by shining light, using an optical fiber implanted in the brain.
The researchers found that stimulating these neurons while the mice were waiting for food increased their waiting time, with the maximum effect seen when the probability of receiving a reward was high but when the timing of the reward was uncertain.
"In other words, for the serotonin to promote patience, the mice had to be confident that a reward would come but uncertain about when it would arrive," said Dr. Miyazaki.
In the previous study, the scientists focused on an area of the brain called the dorsal raphe nucleus - the central hub of serotonin-releasing neurons.
Neurons from the dorsal raphe nucleus reach out into other areas of the forebrain and in their most recent study, the scientists explored specifically which of these other brain areas contributed to regulating patience.
The team focused on three brain areas that had been shown to increase impulsive behaviors when they were damaged - a deep brain structure called the nucleus accumbens, and two parts of the frontal lobe called the orbitofrontal cortex and the medial prefrontal cortex.
"Impulse behaviors are intrinsically linked to patience - the more impulsive an individual is, the less patient - so these brain areas were prime candidates," explained Dr. Miyazaki.
In the study, the scientists implanted optical fibers into the dorsal raphe nucleus and also one of either the nucleus accumbens, the orbitofrontal cortex, or the medial prefrontal cortex.
The researchers trained mice to perform a waiting task where the mice held with their nose inside a hole, called a "nose poke" until a food pellet was delivered. The scientists rewarded the mice in 75 percent of trials.
In some test conditions, the timing of the reward was fixed at six or ten seconds after the mice started the nose poke and in other test conditions, the timing of the reward varied.
In the remaining 25 per cent of trials, called the omission trials, the scientists did not provide a food reward to the mice. They measured how long the mice continued performing the nose poke during omission trials - in other words, how patient they were - when serotonin-releasing neurons were and were not stimulated.
When the researchers stimulated serotonin-releasing neural fibers that reached into the nucleus accumbens, they found no increase in waiting time, suggesting that serotonin in this area of the brain has no role in regulating patience.
But when the scientists stimulated serotonin release in the orbitofrontal cortex and the medial prefrontal cortex while the mice were holding the nose poke, they found the mice waited longer, with a few crucial differences.
In the orbitofrontal cortex, the release of serotonin promoted patience as effectively as serotonin activation in the dorsal raphe nucleus; both when reward timing was fixed and when reward timing was uncertain, with stronger effects in the latter.
But in the medial prefrontal cortex, the scientists only saw an increase in patience when the timing of the reward was varied, with no effect observed when the timing was fixed.
"The differences seen in how each area of the brain responded to serotonin suggests that each brain area contributes to the overall waiting behavior of the mice in separate ways," said Dr. Miyazaki. (ANI)