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Metabolic Energy Sensing by Mammalian CLC Anion/Proton Exchangers
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Abstract
Mammalian CLC anion/proton exchangers control the pH and [Cl
-
] of the endolysosomal system, one of the major cellular nutrient uptake pathways. We explored the regulation of the vesicular transporters ClC-3, ClC-4, and ClC-5 by the adenylic system components ATP, ADP, and AMP. Using heterologous expression and whole-cell electrophysiology, we demonstrated that cytosolic ATP and ADP but not AMP and Mg
2+
-free ADP enhance CLC ion transport via binding to the protein C-terminal CBS domains. Biophysical investigations revealed that the effects depend on the delivery of intracellular protons into the CLC transport machinery and result from modified voltage-dependence and altered probability that CLC proteins undergo silent non-transporting cycles. Our findings demonstrate that the CLC CBS domains are able to serve as energy sensors by detecting changes in the cytosolic ATP/ADP/AMP equilibrium. The adenine nucleotide regulation of vesicular Cl
-
/H
+
exchange creates a link between the activity of the endolysosomal system and the cellular metabolic state.
Title: Metabolic Energy Sensing by Mammalian CLC Anion/Proton Exchangers
Description:
Abstract
Mammalian CLC anion/proton exchangers control the pH and [Cl
-
] of the endolysosomal system, one of the major cellular nutrient uptake pathways.
We explored the regulation of the vesicular transporters ClC-3, ClC-4, and ClC-5 by the adenylic system components ATP, ADP, and AMP.
Using heterologous expression and whole-cell electrophysiology, we demonstrated that cytosolic ATP and ADP but not AMP and Mg
2+
-free ADP enhance CLC ion transport via binding to the protein C-terminal CBS domains.
Biophysical investigations revealed that the effects depend on the delivery of intracellular protons into the CLC transport machinery and result from modified voltage-dependence and altered probability that CLC proteins undergo silent non-transporting cycles.
Our findings demonstrate that the CLC CBS domains are able to serve as energy sensors by detecting changes in the cytosolic ATP/ADP/AMP equilibrium.
The adenine nucleotide regulation of vesicular Cl
-
/H
+
exchange creates a link between the activity of the endolysosomal system and the cellular metabolic state.
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Metabolic energy sensing by mammalian CLC anion/proton exchangers
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Abstract
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