A research team coordinated by the University of Trento studied the role of the habenula, a mass of brain cells, in disorders like autism, schizophrenia, depression. The results of their work, published in "Development", will help find out more about serious brain disorders that can only be treated in ways that take a toll on the quality of life of people.
The habenula is a small region at the centre of the brain, but is crucial for people's lives. It is made up of a group of nerve cells that control the "neurotransmitters" of the brain, that is to say substances like dopamine, noradrenaline and serotonin. The release of these substances is fundamental to respond to stimuli, for example to perceive pain or fear and to regulate mood-related behaviours, and is implicated in conditions like schizophrenia, autism, depression.
Scientists have known the habenula for a long time, but little is known about its implications in nervous system conditions. And that is precisely what a genetic study coordinated by the University of Trento, whose results were published in "Development", a scientific journal of developmental biology, set out to explore.
The research work was mainly performed by the Laboratory of translational medicine with support from the Laboratory of molecular and cellular ophthalmology led by Lucia Poggi at Cibio, the Department of Cellular, computational and integrative biology of the University of Trento, in collaboration with the universities of Heidelberg (Matthias Carl was working there before moving to Trento) and Padova.
Matthias Carl, coordinator of the study, explained: “The brain is enormously complex and billions of neurons are generated in a perfect symphony with precise connections among them. When something goes wrong in this process there can be devastating consequences to our daily life and behaviour, which can cause for instance diseases like schizophrenia, autism or depression. The habenula, which is present in all vertebrate animals from fish to humans, is an important brain structure associated to these conditions. It functions like a post-office as it releases the "neurotransmitters", the chemical substances, that direct the symphony”.
The research team identified a molecule that is essential for the correct composition of habenula neurons and their connectivity in the brain. This molecule (Wnt inhibitory factor 1, Wif1), which is a well-known tumour suppressor, plays a key role also in this symphony of neurons and their proper functioning, and may be implicated in autism. This knowledge, linking the molecule, brain structure and a number of neurological disorders, opens new directions for research into brain disorders, hopefully to find out more about serious conditions that can only be treated in ways that take a toll on the quality of life of people.
About the article
The article "Temporal control of Wnt signaling is required for habenular neuron diversity and brain asymmetry" was published today in "Development", a peer-reviewed scientific journal of developmental biology.
The authors are Luca Guglielmi (Heidelberg University, Medical Faculty Mannheim); Enrico Moro and Francesco Argenton (University of Padova, Department of Biomedical Sciences); Anja Bühler, Lucia Poggi and Matthias Carl (University of Trento, Cibio – Department of Cellular, computational and integrative biology).