Sjoevall 2010 Crit Care
|Sjoevall F, Morota S, Hansson Magnus J, Friberg H, Gnaiger E, Elmer E (2010) Temporal increase of platelet mitochondrial respiration is negatively associated with clinical outcome in patients with sepsis. Crit Care 14:R214.|
Abstract: Introduction Mitochondrial dysfunction has been suggested as a contributing factor to the pathogenesis of sepsis-induced multiple organ failure. Also, restoration of mitochondrial function, known as mitochondrial biogenesis, has been implicated as a key factor for the recovery of organ function in patients with sepsis. Here we investigated temporal changes in platelet mitochondrial respiratory function in patients with sepsis during the first week after disease onset.
Methods Platelets were isolated from blood samples taken from 18 patients with severe sepsis or septic shock within 48 hours of their admission to the intensive care unit. Subsequent samples were taken on day 3 to 4 and day 6 to 7. Eighteen healthy blood donors served as controls. Platelet mitochondrial function was analyzed by high-resolution respirometry. Endogenous respiration of viable, intact platelets suspended in their own plasma or PBS glucose was determined. Further, in order to investigate the role of different dehydrogenases and respiratory complexes as well as to evaluate maximal respiratory activity of the mitochondria, platelets were permeabilized and stimulated with complex-specific substrates and inhibitors.
Results Platelets suspended in their own septic plasma exhibited increased basal non-phosphorylating respiration (state 4) compared to controls and to platelets suspended in PBS glucose. In parallel, there was a substantial increase in respiratory capacity of the Electron transfer-pathway from day 1 to 2 to day 6 to 7 as well as compared to controls in both intact and permeabilized platelets oxidizing Complex I and/or II-linked substrates. No inhibition of respiratory complexes was detected in septic patients compared to controls. Non-survivors, at 90 days, had a more elevated respiratory capacity at day 6 to 7 as compared to survivors. Cytochrome c increased over the time interval studied but no change in mitochondrial DNA was detected.
Conclusions The results indicate the presence of a soluble plasma factor in the initial stage of sepsis inducing uncoupling of platelet mitochondria without inhibition of the Electron transfer-pathway. The mitochondrial uncoupling was paralleled by a gradual and substantial increase in respiratory capacity. This may reflect a compensatory response to severe sepsis or septic shock, that was most pronounced in non-survivors, likely correlating to the severity of the septic insult. • Keywords: Sepsis
- 50 articles in PubMed (2021-12-27) https://pubmed.ncbi.nlm.nih.gov/21106065/
Labels: MiParea: Respiration, mt-Biogenesis;mt-density, mt-Medicine, Patients Pathology: Sepsis
Organism: Human Tissue;cell: Blood cells, Platelet Preparation: Permeabilized cells, Intact cells Enzyme: Marker enzyme
Coupling state: LEAK, ROUTINE, OXPHOS, ET Pathway: N, S, NS, ROX HRR: Oxygraph-2k, TIP2k
JP, SE, MitoEAGLE blood cells data, MitoFit 2021 PLT