Romain Meddeb scite author profile

Mitochondria are considered as the power‐generating units of the cell due to their key role in energy metabolism and cell signaling. However, mitochondrial components could be found in the extracellular space, as fragments or encapsulated in vesicles. In addition, this intact organelle has been recently reported to be released by platelets exclusively in specific conditions. Here, we demonstrate for the first time, that blood preparation with resting platelets, contains whole functional mitochondria in normal physiological state. Likewise, we show, that normal and tumor cultured cells are able to secrete their mitochondria. Using serial centrifugation or filtration followed by polymerase chain reaction‐based methods, and Whole Genome Sequencing, we detect extracellular full‐length mitochondrial DNA in particles over 0.22 µm holding specific mitochondrial membrane proteins. We identify these particles as intact cell‐free mitochondria using fluorescence‐activated cell sorting analysis, fluorescence microscopy, and transmission electron microscopy. Oxygen consumption analysis revealed that these mitochondria are respiratory competent. In view of previously described mitochondrial potential in intercellular transfer, this discovery could greatly widen the scope of cell‐cell communication biology. Further steps should be developed to investigate the potential role of mitochondria as a signaling organelle outside the cell and to determine whether these circulating units could be relevant for early detection and prognosis of various diseases.

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Guidelines for the Preanalytical Conditions for Analyzing Circulating Cell-Free DNA

Meddeb

2019

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Circulating cell-free DNA (cfDNA) isolated from blood has been identified as a potential biomarker in numerous fields, and has been the object of intensive research over the past decade, although its original discovery dates back 60 years. While it is already used routinely in commercial and clinical practice in oncology and prenatal testing, other potential applications have emerged, including for diabetes, cardiovascular diseases, organ transplantation, autoimmune diseases, sepsis, trauma, and sport management. As with the discovery and development of any biomarker, preanalytical requirements and documentation are as important as analytical requirements. Except for the case of noninvasive prenatal testing and prenatal diagnosis, the implementation of cfDNA in a clinical setting remains limited because of the lack of standardization of cfDNA analysis. In particular, only a few attempts have been made to collect and pool scientific data on the relevant preanalytical factors, and no standard operating procedure has yet been set. For this report, we have performed a thorough and systematic search via MEDLINE® for relevant preanalytical variables and patient factors. These form the basis of the guidelines we propose for analyzing nuclear cfDNA.

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Romain Meddeb

Blood contains circulating cell‐free respiratory competent mitochondria

Guidelines for the Preanalytical Conditions for Analyzing Circulating Cell-Free DNA

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