Sunday, May 14, 2017

Blood from lungs! Interview with Emma Lefrançais on platelet production in lungs!

Blood nourishes every part of our body. It is generated every day to carry oxygen and food towards, and garbage away from every cell. Our lungs breathe in the oxygen that goes to the blood and remove carbon dioxide from it. Do lungs passively interact with circulating blood, or can they even generate new blood cells and spread them through the body?

Emma and colleagues wanted to test lungs as an active area of blood production. For this, they live imaged the blood cells within the lungs of mice. This amazing feat showed them platelets being born inside of the lung. And this pool of platelets were not a minority, but a significant part of blood count. Not only did they find platelet birth, but they also found blood stem cells living in the lung. These cells could, under certain conditions, help recover many types of blood cells! To know more about this exciting and profound discovery, please listen to Emma.


For more information, please refer to:
The lung is a site of platelet biogenesis and a reservoir for haematopoietic progenitors
Lefrançais et al., Nature, 2017


How deep breaths help with relaxation -- Interview by Kevin Yackle!

The one advice for relaxation is to take deep breaths. Yoga practitioners and doctors alike give this age-old advice. But how does our body connect breathing with calmness? Or is this a placebo effect??

Kevin and colleagues wanted to understand the biological connection between breathing and relaxation. For this, they targeted a specific region in the brain that is involved in controlling breathing. They killed a small region within this special area. Surprisingly, and fortunately, the animal's breathing did not stop. But it was slower, and was connected to the animal being calm under normal conditions! This showed a link between deep, slow breaths and a relaxed state of mind. To know more, please listen to Kevin.



For more information, please refer:
Breathing control center neurons that promote arousal in mice
Yackle et al., Science, 2017