BAD-Dependent Regulation of Fuel Metabolism and KATP Channel Activity Confers Resistance to Epileptic Seizures

Neuronal excitation can be substantially modulated by alterations in metabolism, as evident from the anticonvulsant effect of diets that reduce glucose utilization and promote ketone body metabolism. We provide genetic evidence that BAD, a protein with dual functions in apoptosis and glucose metabol...

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Published in	Neuron (Cambridge, Mass.) Vol. 74; no. 4; pp. 719 - 730
Main Authors	Giménez-Cassina, Alfredo, Martínez-François, Juan Ramón, Fisher, Jill K., Szlyk, Benjamin, Polak, Klaudia, Wiwczar, Jessica, Tanner, Geoffrey R., Lutas, Andrew, Yellen, Gary, Danial, Nika N.
Format	Journal Article
Language	English
Published	Cambridge Elsevier Inc 24.05.2012 Elsevier Limited
Subjects	Anticonvulsants Apoptosis Brain Carbon Channel gating Diets Epilepsy Experiments Fuels Gene expression Glucose Glucose metabolism Ketone bodies Metabolism Metabolites Neurons Phosphorylation Potassium Protein turnover Seizures Statistical analysis
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Abstract	Neuronal excitation can be substantially modulated by alterations in metabolism, as evident from the anticonvulsant effect of diets that reduce glucose utilization and promote ketone body metabolism. We provide genetic evidence that BAD, a protein with dual functions in apoptosis and glucose metabolism, imparts reciprocal effects on metabolism of glucose and ketone bodies in brain cells. These effects involve phosphoregulation of BAD and are independent of its apoptotic function. BAD modifications that reduce glucose metabolism produce a marked increase in the activity of metabolically sensitive KATP channels in neurons, as well as resistance to behavioral and electrographic seizures in vivo. Seizure resistance is reversed by genetic ablation of the KATP channel, implicating the BAD-KATP axis in metabolic control of neuronal excitation and seizure responses. ► Genetic alteration of BAD blunts epileptic seizures without affecting cognition ► BAD modulates seizure sensitivity through metabolic and not apoptotic signaling ► BAD has reciprocal effects on oxidation of glucose and ketone bodies by brain cells ► KATP channels mediate the anticonvulsant effect of BAD alteration Gimenez-Cassina et al. show that alteration of fuel metabolism by genetic modification of BAD can blunt epileptic seizures in mice. These genetic modifications also enhance the activity of metabolically sensitive KATP channels, which in turn are required for BAD's anticonvulsant effect.
AbstractList	Neuronal excitation can be substantially modulated by alterations in metabolism, as evident from the anticonvulsant effect of diets that reduce glucose utilization and promote ketone body metabolism. We provide genetic evidence that BAD, a protein with dual functions in apoptosis and glucose metabolism, imparts reciprocal effects on metabolism of glucose and ketone bodies in brain cells. These effects involve phosphoregulation of BAD and are independent of its apoptotic function. BAD modifications that reduce glucose metabolism produce a marked increase in the activity of metabolically sensitive KATP channels in neurons, as well as resistance to behavioral and electrographic seizures in vivo. Seizure resistance is reversed by genetic ablation of the KATP channel, implicating the BAD-KATP axis in metabolic control of neuronal excitation and seizure responses. Neuronal excitation can be substantially modulated by alterations in metabolism, as evident from the anticonvulsant effect of diets that reduce glucose utilization and promote ketone body metabolism. We provide genetic evidence that BAD, a protein with dual functions in apoptosis and glucose metabolism, imparts reciprocal effects on metabolism of glucose and ketone bodies in brain cells. These effects involve phosphoregulation of BAD and are independent of its apoptotic function. BAD modifications that reduce glucose metabolism produce a marked increase in the activity of metabolically sensitive KATPchannels in neurons, as well as resistance to behavioral and electrographic seizures in vivo. Seizure resistance is reversed by genetic ablation of the KATPchannel, implicating the BAD-KATPaxis in metabolic control of neuronal excitation and seizure responses. Neuronal excitation can be substantially modulated by alterations in metabolism, as evident from the anticonvulsant effect of diets that reduce glucose utilization and promote ketone body metabolism. We provide genetic evidence that BAD, a protein with dual functions in apoptosis and glucose metabolism, imparts reciprocal effects on metabolism of glucose and ketone bodies in brain cells. These effects involve phospho-regulation of BAD and are independent of its apoptotic function. BAD modifications that reduce glucose metabolism produce a marked increase in the activity of metabolically sensitive K ATP channels in neurons, as well as resistance to behavioral and electrographic seizures in vivo . Seizure resistance is reversed by genetic ablation of the K ATP channel, implicating the BAD-K ATP axis in metabolic control of neuronal excitation and seizure responses. Neuronal excitation can be substantially modulated by alterations in metabolism, as evident from the anticonvulsant effect of diets that reduce glucose utilization and promote ketone body metabolism. We provide genetic evidence that BAD, a protein with dual functions in apoptosis and glucose metabolism, imparts reciprocal effects on metabolism of glucose and ketone bodies in brain cells. These effects involve phosphoregulation of BAD and are independent of its apoptotic function. BAD modifications that reduce glucose metabolism produce a marked increase in the activity of metabolically sensitive KATP channels in neurons, as well as resistance to behavioral and electrographic seizures in vivo. Seizure resistance is reversed by genetic ablation of the KATP channel, implicating the BAD-KATP axis in metabolic control of neuronal excitation and seizure responses. ► Genetic alteration of BAD blunts epileptic seizures without affecting cognition ► BAD modulates seizure sensitivity through metabolic and not apoptotic signaling ► BAD has reciprocal effects on oxidation of glucose and ketone bodies by brain cells ► KATP channels mediate the anticonvulsant effect of BAD alteration Gimenez-Cassina et al. show that alteration of fuel metabolism by genetic modification of BAD can blunt epileptic seizures in mice. These genetic modifications also enhance the activity of metabolically sensitive KATP channels, which in turn are required for BAD's anticonvulsant effect.
Author	Martínez-François, Juan Ramón Lutas, Andrew Polak, Klaudia Danial, Nika N. Tanner, Geoffrey R. Wiwczar, Jessica Szlyk, Benjamin Giménez-Cassina, Alfredo Fisher, Jill K. Yellen, Gary
AuthorAffiliation	3 Department of Neurobiology, Harvard Medical School, Boston, MA, 02115, USA 1 Department of Cancer Biology, Dana-Farber Cancer Institute, Boston MA 02215, USA 2 Department of Cell Biology, Harvard Medical School, Boston, MA, 02115, USA
AuthorAffiliation_xml	– name: 2 Department of Cell Biology, Harvard Medical School, Boston, MA, 02115, USA – name: 3 Department of Neurobiology, Harvard Medical School, Boston, MA, 02115, USA – name: 1 Department of Cancer Biology, Dana-Farber Cancer Institute, Boston MA 02215, USA
Author_xml	– sequence: 1 givenname: Alfredo surname: Giménez-Cassina fullname: Giménez-Cassina, Alfredo organization: Department of Cancer Biology, Dana-Farber Cancer Institute, Boston, MA 02215, USA – sequence: 2 givenname: Juan Ramón surname: Martínez-François fullname: Martínez-François, Juan Ramón organization: Department of Neurobiology, Harvard Medical School, Boston, MA 02115, USA – sequence: 3 givenname: Jill K. surname: Fisher fullname: Fisher, Jill K. organization: Department of Cancer Biology, Dana-Farber Cancer Institute, Boston, MA 02215, USA – sequence: 4 givenname: Benjamin surname: Szlyk fullname: Szlyk, Benjamin organization: Department of Cancer Biology, Dana-Farber Cancer Institute, Boston, MA 02215, USA – sequence: 5 givenname: Klaudia surname: Polak fullname: Polak, Klaudia organization: Department of Cancer Biology, Dana-Farber Cancer Institute, Boston, MA 02215, USA – sequence: 6 givenname: Jessica surname: Wiwczar fullname: Wiwczar, Jessica organization: Department of Cancer Biology, Dana-Farber Cancer Institute, Boston, MA 02215, USA – sequence: 7 givenname: Geoffrey R. surname: Tanner fullname: Tanner, Geoffrey R. organization: Department of Neurobiology, Harvard Medical School, Boston, MA 02115, USA – sequence: 8 givenname: Andrew surname: Lutas fullname: Lutas, Andrew organization: Department of Neurobiology, Harvard Medical School, Boston, MA 02115, USA – sequence: 9 givenname: Gary surname: Yellen fullname: Yellen, Gary email: gary_yellen@hms.harvard.edu organization: Department of Neurobiology, Harvard Medical School, Boston, MA 02115, USA – sequence: 10 givenname: Nika N. surname: Danial fullname: Danial, Nika N. email: nika_danial@dfci.harvard.edu organization: Department of Cancer Biology, Dana-Farber Cancer Institute, Boston, MA 02215, USA
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SubjectTerms	Anticonvulsants Apoptosis Brain Carbon Channel gating Diets Epilepsy Experiments Fuels Gene expression Glucose Glucose metabolism Ketone bodies Metabolism Metabolites Neurons Phosphorylation Potassium Protein turnover Seizures Statistical analysis
Title	BAD-Dependent Regulation of Fuel Metabolism and KATP Channel Activity Confers Resistance to Epileptic Seizures
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