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PUBLIC RELEASE DATE:
26-Mar-2014

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Contact: Katrin Bühler
katrin.buehler@unibas.ch
41-612-670-974
University of Basel

Lack of coronin 1 protein causes learning deficits and aggressive behavior

This news release is available in German.

IMAGE: The absence of coronin 1 in neurons results in severe neurobehavioral defects. Coronin 1 (green) in neurons within the amygdala of the brain. Red: neurofilament as neuronal marker; Blue: nuclear...

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Organisms must be able to sense signals from the outside and translate these into biochemical cues in order to adequately respond to their environment. This capability is also required to process information that reaches the brain. Within the brain, stimulation of neurons activates genes that are required, for example for learning and memory. In collaboration with an international and interdisciplinary team the research group led by Prof. Jean Pieters from the Biozentrum, University of Basel, has now uncovered the role of an evolutionarily conserved protein, called coronin 1, in providing a link between the extracellular stimulus and neuronal activation that ultimately results in efficient learning and memory in both mice and men.

From the immune system to the brain

In earlier work, Pieters' team discovered the protein coronin 1 as being essential for the proper transduction of signals in immune cells. In mice lacking coronin 1 the researchers further investigated the molecular mechanism. Surprisingly, these mice showed aberrant behavior. In particular, mice lacking coronin 1 appeared to be far more aggressive and display extreme grooming activity, an indication of reduced sociability. An in-depth analysis in collaboration with scientists from the Friedrich Miescher Institute in Basel and the University of Bordeaux unveiled profound learning and behavioral problems and severe defects in the ability to activate neurons in the absence of coronin 1.

Activation of a signaling cascade

But how does coronin 1 ensure proper neurobehavioral functioning? Normally, stimulation of the cell surface results in an activation of an intracellular cascade of reactions and ultimately stimulates the production of the signaling molecule cAMP which then activates a number of processes, including the transcription of gene involved in neurobehavior. "We found that in the absence of coronin 1, cell surface stimulation leads to a defective cAMP production", explains Pieters. "This in turn affects the signal transduction which is finally responsible for the deficits in learning and memory formation."

Of mice and men

Furthermore, the researchers analyzed the clinical history of a patient lacking coronin 1 due to a mutation: it turned out that this patient showed learning defects and aggressive behavior. With this study, Pieters and his project collaborators not only define a crucial role for coronin 1 in cognition and behavior, but also unravel a coronin 1-dependent signaling pathway that may be explored both for potential risk factors as well as future interventions to modulate neurobehavioral dysfunction.

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