NMR paper Futile cycling of lactate through the plasma membrane of C6 glioma cells as detected

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[NMR paper] Futile cycling of lactate through the plasma membrane of C6 glioma cells as detected

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11-24-2010, 11:14 PM

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Futile cycling of lactate through the plasma membrane of C6 glioma cells as detected

Futile cycling of lactate through the plasma membrane of C6 glioma cells as detected by (13C, 2H) NMR.

Related Articles Futile cycling of lactate through the plasma membrane of C6 glioma cells as detected by (13C, 2H) NMR.

J Neurosci Res. 2005 Jan 1-15;79(1-2):119-27

Authors: Rodrigues TB, Gray HL, Benito M, Garrido S, Sierra A, Geraldes CF, Ballesteros P, Cerdán S

We report a novel ((13)C, (2)H) nuclear magnetic resonance (NMR) procedure to investigate lactate recycling through the monocarboxylate transporter of the plasma membrane of cells in culture. C6 glioma cells were incubated with [3-(13)C]lactate in Krebs-Henseleit Buffer containing 50% (2)H(2)O (vol/vol) for up to 30 hr. (13)C NMR analysis of aliquots progressively taken from the medium, showed: (1) a linearly decreasing singlet at approximately 20.85 parts per million (ppm; -0.119 micromol/mg protein/hr) derived from the methyl carbon of [3-(13)C]lactate; and (2) an exponentially increasing shifted singlet at approximately 20.74 ppm (0.227 micromol/ mg protein/hr) from the methyl carbon of [3-(13)C, 2-(2)H]lactate. The shifted singlet appears because during its transit through the cytosol, [3-(13)C]lactate generates [3-(13)C, 2-(2)H]lactate in the lactate dehydrogenase (LDH) equilibrium, which may return to the incubation medium through the reversible monocarboxylate carrier. The methyl group of [3-(13)C, 2-(2)H]lactate is shifted -0.11 ppm with respect to that of [3-(13)C]lactate, making it possible to distinguish between both molecules by (13)C NMR. During incubations with 2.5 mM [1-(13)C]glucose and 3.98 mM [U-(13)C(3)]lactate or with 2.5 mM [1-(13)C]glucose and 3.93 mM [2-(13)C]pyruvate, C2-deuterated lactate was produced only from [1-(13)C]glucose or [U-(13)C(3)]lactate, revealing that this deuteration process is redox sensitive. When [1-(13)C]glucose and [U-(13)C(3)]lactate were used as substrates, no significant [3-(13)C]lactate production from [1-(13)C]glucose was detected, suggesting that glycolytic lactate production may be stopped under the high lactate concentrations prevailing under mild hypoxic or ischemic episodes or during cerebral activation.

PMID: 15562438 [PubMed - indexed for MEDLINE]

Source: PubMed

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