Mitochondrial Respiratory Function in Human Platelets: Influence of Sample Preparation, Assay Buffer and Instrumental Platform

Abstract

In humans, circulating blood cells such as platelets are being increasingly used as a readily available and minimally invasive biospecimen to determine mitochondrial respiratory function. Here, we set out to determine the influence of sample preparation, assay buffer composition, and instrumental platform, on the respiratory function of platelets isolated from human blood.Approximately 50 mL of whole blood was collected from healthy adults (n=16) following an overnight (>12 hr.) fast. Platelets were immediately isolated from whole blood by centrifugation. Respiratory function was assayed in intact and permeabilized platelets using an Oxygraph-2K (O2K) high-resolution respirometer (Oroboros Instruments). Respiratory function was assayed in intact platelets suspended in either culture (RPMI) or respiration (MIR05) media (both supplemented with 5 mM glucose, 1 mM pyruvate and 2 mM glutamine), or the participants own plasma. Respiratory function was also assayed in digitonin-permeabilized platelets suspended in both RPMI and MIR05. In addition, respiratory function was determined in intact platelets using a Seahorse Extra-Cellular Flux analyzer (XFe) in RPMI buffer containing 5 mM glucose, 1 mM pyruvate and 2 mM glutamine.In intact platelets assayed in suspension using an O2K, routine and ATP-linked respiration were 35 and 34% greater in cells assayed in RPMI compared to MIR05, respectively (P<0.001). However, coupling control in response to oligomycin was comparable in cells assayed in RPMI and MIR05 (92±4 vs. 94±4%). Compared to cells assayed in RPMI (0.19±0.01 pmol/s/100 million cells) or MIR05 (0.14±0.02 pmol/s/100 million cells), ATP-linked respiration was greater in intact cells assayed in their own plasma (0.24±0.02 pmol/s/100 million cells, both P<0.001). In digitonin-permeabilized platelets, ATP-linked respiration was greater when assayed in MIR05 compared to RPMI (0.36±0.08 vs. 0.30±0.07 pmol/s/100 million cells, P<0.05). Across instrumental platforms, routine and leak respiration were lower in intact platelets assayed on an O2K vs. XFe (P<0.05), whereas ATP-linked respiration was greater in cells assayed on an O2K. (P<0.001), due to a diminished coupling response to oligomycin in cells assayed in the XFe (P<0.001). Platelet respiratory function is influenced by sample preparation, assay buffer and protocol, and the instrumental platform used. Consideration of these factors is necessary when using platelet respiratory function as a readout of cellular energetics. Supported by USDA-ARS Project 6026-51000-012-06S, NIH 5P20GM109096-07 and 5R35GM142744-02. This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.