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Disease
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Target Concepts:
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Query: EC:1.9.3.1 (
cytochrome oxidase
)
8,822
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We sought to test the hypothesis that monocarboxylate transporter isoform 1 (MCT1) is the inner mitochondrial membrane lactate/pyruvate transporter, and, as such, contributes to functioning of the intracellular lactate shuttle. However, presence of a mammalian mitochondrially localized MCT1 (mMCT1) has been contested. We sought to confirm by Western blotting the mitochondrial localization of MCT1 in rat cardiac, soleus, and extensor digitorum longus muscles utilizing three different cell fractionation methods and three different antibodies. We performed Western blotting using antibodies to cell membrane glucose transporter isoform GLUT1, inner mitochondrial constituent
cytochrome oxidase
, the monocarboxylate transporter protein chaperone
CD147
, as well as custom and commercially available MCT1 antibodies. Western blots demonstrated similar results with each MCT1 antibody and two of three methods of fractionation. MCT1 was found in the mitochondria, as well as in the sarcolemmal membrane and whole muscle homogenates. Probing with GLUT1 and
CD147
demonstrated that mitochondrial fractions were not contaminated with sarcolemmal remnants. Probing with
cytochrome oxidase
showed mitochondrial localization of MCT1. Comparison of these results to the findings of others indicates that the most likely source of discrepancy is the cell fractionation procedure utilized.
...
PMID:MCT1 confirmed in rat striated muscle mitochondria. 1512 43
Results of previous studies suggested a role of mitochondria in intracellular and cell-cell lactate shuttles. Therefore, by using a rat-derived L6 skeletal muscle cell line and confocal laser-scanning microscopy (CLSM), we examined the cellular locations of mitochondria, lactate dehydrogenase (LDH), the lactate-pyruvate transporter MCT1, and
CD147
, a purported chaperone protein for MCT1. CLSM showed that LDH, MCT1, and
CD147
are colocalized with the mitochondrial reticulum. Western blots showed that
cytochrome oxidase
(
COX
), NADH dehydrogenase, LDH, MCT1, and
CD147
are abundant in mitochondrial fractions of L6 cells. Interactions among
COX
, MCT1, and
CD147
in mitochondria were confirmed by immunoblotting after immunoprecipitation. These findings support the presence of a mitochondrial lactate oxidation complex associated with the
COX
end of the electron transport chain that might explain the oxidative catabolism of lactate and, hence, mechanism of the intracellular lactate shuttle.
...
PMID:Colocalization of MCT1, CD147, and LDH in mitochondrial inner membrane of L6 muscle cells: evidence of a mitochondrial lactate oxidation complex. 1643 51
The intracellular lactate shuttle (ILS) hypothesis holds that lactate produced as the result of glycolysis and glycogenolysis in the cytosol is balanced by oxidative removal in mitochondria of the same cell. Also, the ILS is a necessary component of the previously described cell-cell lactate shuttle (CCLS), because lactate supplied from the interstitium and vasculature can be taken up and used in highly oxidative cells (red skeletal and cardiac myocytes, hepatocytes, and neurons). This ILS emphasizes the role of mitochondrial redox in creating the proton and lactate anion concentration gradients necessary for the oxidative disposal of lactate in the mitochondrial reticulum during exercise and other conditions. The hypothesis was initially supported by direct measurement of lactate oxidation in isolated mitochondria as well as findings of the existence of mitochondrial monocarboxylate transporters (mMCT) and lactate dehydrogenase (mLDH). Subsequently, the presence of a mitochondrial lactate oxidation complex (composed of mMCT1,
CD147
(
basigin
), mLDH, and
cytochrome oxidase
(
COX
)) was discovered, which lends support to the presence of the ILS. Most recently, efforts have been made to evaluate the role of lactate as a cell-signaling molecule (i.e., a "lactormone") that is involved in the adaptive response to exercise. Lactate is capable of upregulating MCT1 and
COX
gene and protein expression. Current findings allow us to understand how lactate production during exercise represents a physiological signal for the activation of a vast transcription network affecting MCT1 protein expression and mitochondrial biogenesis, thereby explaining how training increases the capacity for lactate clearance via oxidation.
...
PMID:Mitochondrial lactate oxidation complex and an adaptive role for lactate production. 1837 11
