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Bioenergetics and the Oxidative Burst: Protocols for the Isolation and Evaluation of Human Leukocytes and Platelets

作者: Philip A. Kramer*1, Balu K. Chacko*1, Saranya Ravi1, Michelle S. Johnson1, Tanecia Mitchell1, Victor M. Darley-Usmar*1 1UAB Mitochondrial Medicine Laboratory, Center for Free Radical Biology, Department of Pathology,University of Alabama at Birmingham
简介:

Overview

This article describes a method for isolating and measuring mitochondrial function and oxidative burst in human blood leukocytes and platelets. These measurements can serve as indicators of an individual's bioenergetic health and may help monitor various pathological processes.

Key Study Components

Area of Science

  • Neuroscience
  • Cell Biology
  • Bioenergetics

Background

  • Blood leukocytes and platelets are potential markers for bioenergetic health.
  • Monitoring mitochondrial function can provide insights into disease states.
  • Oxidative burst responses are critical for understanding immune function.
  • The method allows for real-time assessment of cellular metabolism.

Purpose of Study

  • To isolate different leukocyte populations from blood.
  • To measure mitochondrial function in these cells.
  • To assess the oxidative burst in monocytes and neutrophils.

Methods Used

  • Collection of buffy coat and platelet-rich plasma from blood samples.
  • Separation of white blood cells using density gradient centrifugation.
  • Isolation of monocytes, lymphocytes, and neutrophils using magnetic separation.
  • Measurement of mitochondrial function and oxidative burst using XF technology.

Main Results

  • Successful isolation of pure leukocyte populations from small blood samples.
  • Reproducible measurements of mitochondrial function across cell types.
  • Demonstrated oxidative burst responses in monocytes and neutrophils.
  • Potential applications in monitoring metabolic health and disease.

Conclusions

  • The described method provides a reliable approach to assess bioenergetic health.
  • It can reflect the impact of lifestyle and pathological stress on cellular metabolism.
  • This technique may aid in understanding various diseases in real-time.

Frequently Asked Questions

What types of cells can be isolated using this method?
The method allows for the isolation of monocytes, lymphocytes, neutrophils, and platelets from blood samples.
How does the method measure mitochondrial function?
Mitochondrial function is measured using XF technology, which assesses oxygen consumption rates in isolated cells.
What is the significance of measuring oxidative burst?
Measuring oxidative burst helps understand the immune response and the functionality of leukocytes.
Can this method be applied to small blood samples?
Yes, the method is designed to work with small blood samples, making it practical for clinical applications.
What are the potential applications of this research?
This research can help monitor metabolic health, disease states, and the effects of treatments in patients.

Blood leukocytes and platelets can be used as a marker of overall bioenergetic health of an individual and so have the potential to monitor pathological processes and the impact of treatments. Here we describe a method to isolate and measure mitochondrial function and the oxidative burst in these cells.

标签: Bioenergetics,    Oxidative Burst,    Leukocytes,    Platelets,    Mitochondrial Dysfunction,    Atherosclerosis,    Diabetes,    Septic Shock,    Neurodegenerative Diseases,    Hyperglycemia,    Inflammation,    Magnetic Bead Isolation,    Cell Adhesion,    Microplate Respirometry,    Extracellular Flux Analyzer,    Monocytes,    Lymphocytes,    Neutrophils,    Reactive Oxygen Species,   
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