Treating patients with acute respiratory failure is a constant challenge in intensive care medicine. In most cases, the underlying cause is lung inflammation triggered by a bacterial infection or – more rarely, despite being frequently observed at present due to the corona pandemic – a viral infection. During the inflammation, cells of the immune system – the white blood cells – migrate to the lungs and fight the pathogens. At the same time, however, they also cause “collateral damage” in the lung tissue. If the inflammatory reaction is not resolved in time, this can result in chronic inflammation with permanent impairment of lung function. Together with colleagues from London, Madrid and Munich, a research team at the University of Münster headed by Prof Jan Rossaint and Prof Alexander Zarbock, two specialists in anaesthesiology and intensive care medicine, has gained new insight into the cellular processes involved in bacterial lung inflammation. In a study on mice, the researchers found that the interaction between platelets and certain white blood cells – the regulatory T cells – play a significant role in resolving the inflammation. The study has been published in the Journal of Experimental Medicine.
Sounds interesting, special the part: However, we lack other therapeutic options which can be used to target the causes and regulate the course of the inflammation.” These latest investigations have provided a basis for such therapy concepts. In further steps, the researchers will examine whether the inflammatory mechanisms they observed in mice also occur in humans and look for starting points to test specific therapies.
I was interested in the talk on inflammation during the recent bronchiectasis conference. It seems as if this is an area which merits much research and soon. Thanks for posting.
Scientists at the University of Münster provide new insights into interactions between platelets and white blood cells in mice / Study published in the Journal of Experimental Medicine
Treating patients with acute respiratory failure is a constant challenge in intensive care medicine. In most cases, the underlying cause is lung inflammation triggered by a bacterial infection or – more rarely, despite being frequently observed at present due to the corona pandemic – a viral infection. During the inflammation, cells of the immune system – the white blood cells – migrate to the lungs and fight the pathogens. At the same time, however, they also cause “collateral damage” in the lung tissue. If the inflammatory reaction is not resolved in time, this can result in chronic inflammation with permanent impairment of lung function. Together with colleagues from London, Madrid and Munich, a research team at the University of Münster headed by Prof Jan Rossaint and Prof Alexander Zarbock, two specialists in anaesthesiology and intensive care medicine, has gained new insight into the cellular processes involved in bacterial lung inflammation. In a study on mice, the researchers found that the interaction between platelets and certain white blood cells – the regulatory T cells – play a significant role in resolving the inflammation. The study has been published in the Journal of Experimental Medicine.
It was already known that, at the beginning of an inflammatory reaction in the lungs, as is the case with other organs, platelets work together with neutrophil granulocytes – a subgroup of white blood cells that specialize in fighting off pathogens. However, for the first time, the team of scientists has now shown that, as the inflammation progresses, platelets bind to regulatory T cells and that this binding is needed for the migration of the T cells, together with the platelets, to the site of inflammation in the lungs. Upon their arrival, they work together secreting anti-inflammatory messenger substances which “reprogramme” the macrophages in the lungs. These white blood cells, also known as scavenger cells, then stop directing neutrophil granulocytes to the site of inflammation, instead eliminating the neutrophil granulocytes that are no longer needed. This helps the inflammation subside and prevents further tissue damage.
“When treating patients with acute lung failure, we have various measures we can take to support lung function and focus on combating the causative pathogens with antibiotics, for example,” explains Jan Rossaint. “However, we lack other therapeutic options which can be used to target the causes and regulate the course of the inflammation.” These latest investigations have provided a basis for such therapy concepts. In further steps, the researchers will examine whether the inflammatory mechanisms they observed in mice also occur in humans and look for starting points to test specific therapies.
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