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Study demonstrates neurotransmitter communication in immune cells directly for the first time
United Kingdom🔬 Scienceil y a 13 h

Study demonstrates neurotransmitter communication in immune cells directly for the first time

Researchers from the University of Münster and Ruhr University Bochum have discovered that neutrophils, a type of white blood cell, use catecholamines—such as dopamine and adrenaline—to communicate in real time, similar to how nerve cells function. Using fluorescent carbon nanotube sensors, they observed that neutrophils absorb, store, and release these neurotransmitters in response to inflammation. This finding reveals a previously unknown connection between the immune system and the nervous system, showing that catecholamines regulate both immune responses and blood clotting. The study suggests that this mechanism is active in humans, based on experiments involving healthy volunteers. The research was published in the journal Advanced Science.

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Phys.org logoPhys.orgIndépendantCentreFactualité 95Objectivité 98il y a 13 h
Study demonstrates neurotransmitter communication in immune cells directly for the first time

Researchers from the University of Münster and Ruhr University Bochum have discovered that neutrophils, a type of white blood cell, use catecholamines—such as dopamine and adrenaline—to communicate in real time, similar to how nerve cells function. Using fluorescent carbon nanotube sensors, they observed that neutrophils absorb, store, and release these neurotransmitters in response to inflammation. This finding reveals a previously unknown connection between the immune system and the nervous system, showing that catecholamines regulate both immune responses and blood clotting. The study suggests that this mechanism is active in humans, based on experiments involving healthy volunteers. The research was published in the journal Advanced Science.

Lecture du biais (Centre): The article discusses a scientific discovery related to immune cell behavior and does not involve political figures, policies, or contentious issues. It focuses purely on biological mechanisms and research findings.

Pourquoi ces scores (Factualité 95 · Objectivité 98): The article presents the study accurately, citing the institutions involved, the researchers, and the methodology used (fluorescent carbon nanotube sensors). It avoids overstatement and sticks closely to the described findings. The tone remains neutral and informative.

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