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Glucose
metabolism in human gliomas: correspondence of in situ and in vitro metabolic
rates and altered energy metabolism
Galarraga J, Loreck DJ, Graham JF, DeLaPaz RL, Smith BH, Hallgren D, Cummins
CJ
Surgical Neurology Branch, National Institute of Neurological and
Communicative Disorders and Stroke, Bethesda, Maryland 20205
The rates of disappearance of glucose from the medium of 13 human glioma-derived
cell lines and one cultured of normal human cortical astrocytes were determined
by fluorometric techniques.
High-grade glioma-derived cultures showed a range of glucose consumption between
1 and 5 nmol/min/mg protein.
Normal astrocyte cultures and cultures derived from grades I-III gliomas had a
glucose consumption rate of 2-3 nmol/min/mg protein.
Seven high-grade glioma lines were derived from surgical samples taken from
patients who had been scanned by 18F-2-deoxy-d-glucose positron computed
tomography.
The rate of glucose consumption in these high-grade glioma-derived lines was
close to the maximum local cerebral metabolic rate for glucose (LCMRglc)
measured in situ in the tumors from which the cultures were derived.
In cultured glioma-derived lines, approximately one-half of the glucose consumed
was recovered as lactate and pyruvate, suggesting a reliance of glioma cells on
aerobic glycolysis.
ATP and phosphocreatine (PCr) levels were variable in the glioma-derived lines,
and ATP was lower in the glioma-derived lines than in the normal
astrocytes.
Levels and regulation of glycogen differed significantly among the various
glioma-derived cell lines.
Glycogen content did not diminish as glucose was consumed, suggesting that
glycogen utilization is not tightly regulated by the glucose metabolic
rate.
These results suggest that human glioma-derived cell cultures
(1) adequately reflect the metabolic capacity of gliomas in situ and
(2) are significantly altered in several aspects of their glycolytic metabolism.
PMID: 3508247 [PubMed - indexed for MEDLINE]
Source:
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=3508247&dopt=Abstract
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