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In Vivo Metabolic Profiling of CLL (Chronic Lymphocytic Leukemia)
Sponsor: University of Wisconsin, Madison
Summary
Metabolic reprogramming has been identified as a hallmark of cancer. Almost a century after Otto Warburg initially discovered increased glycolytic activity in tumor tissue ("Warburg effect"), therapeutic targeting of cancer metabolism has become a field of intense research effort in cancer biology. A growing appreciation of metabolic heterogeneity and complexity is currently reshaping investigators "simplistic" understanding of metabolic reprogramming in cancer. Discovering metabolic vulnerabilities as new treatment targets for cancer requires systematic dissection of metabolic dependencies, fuel preferences, and underlying mechanisms in the specific physiological context. However, today's data on cancer cell metabolic signatures and heterogeneity in their physiological habitat of the human organism is sparse to non-existent representing a critical knowledge gap in designing effective metabolic therapies. Here, the investigators propose a "top-down" approach studying cancer cell metabolism in patients followed by mechanistic in-depth studies in cell culture and animal models to define metabolic vulnerabilities. Investigators will develop a metabolic tracing method to quantitatively characterize metabolic signatures and fuel preferences of leukemic lymphocytes in patients with chronic lymphocytic leukemia (CLL). Isotopic metabolic tracers are nutrients that are chemically identical to the native nutrient. Incorporated stable, non-radioactive isotopes allow investigators to follow their metabolic fate by monitoring conversion of tracer nutrients into downstream metabolites using cutting-edge metabolomics analysis. Using this method, investigators propose to test the hypothesis that leukemic lymphocytes show tissue-specific metabolic preferences that differ from non-leukemic lymphocytes and that ex vivo in-plasma labeling represents a useful model for assaying metabolic activity in leukemic cells in a patient-specific manner.
Official title: Metabolic Profiling of Leukemic Cells Through Isotope Tracing in Patients With CLL
Key Details
Gender
All
Age Range
18 Years - Any
Study Type
OBSERVATIONAL
Enrollment
16
Start Date
2022-06-13
Completion Date
2026-10
Last Updated
2025-11-26
Healthy Volunteers
Yes
Conditions
Interventions
[U-13C]glucose
\[U-13C\]glucose will be administered as a bolus of 8 g (grams) over 10 minutes followed by 8 g/hour continuous infusion over 2 hours . This infusion rate will allow glucose tracer to reach sufficient enrichment without causing significant metabolic perturbation such as hyperglycemia.
[13C5]glutamine
6mg/kg of body weight of \[13C5\]glutamine will be administered as a bolus over 10 minutes (± 1 minute) followed by 6mg/kg/hr body weight continuous infusion for 2 hours through a peripheral IV catheter/line. This infusion rate will allow glutamine tracer to reach sufficient enrichment without causing significant metabolic perturbation such as hyperglycemia.
Locations (1)
University of Wisconsin
Madison, Wisconsin, United States