Cell types rich in mitochondria, including neurons, display a high energy demand and a need for calcium buffering. The importance of mitochondria for proper neuronal function is stressed by the occurrence of neurological defects in patients suffering from a great variety of diseases caused by mutations in mitochondrial genes. Genetic and pharmacological evidence also reveal a role of these organelles in various aspects of neuronal physiology and in the pathogenesis of neurodegenerative disorders. Yet the mechanisms by which mitochondria can affect neurotransmission largely remain to be elucidated. In this review we focus on experimental data that suggest a critical function of synaptic mitochondria in the function and organization of synapt...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Cell types rich in mitochondria, including neurons, display a high energy demand and a need for calc...
Cell types rich in mitochondria, including neurons, display a high energy demand and a need for calc...
Synapses are packed with mitochondria, complex organelles with roles in energy metabolism, cell sign...
Mitochondrial electron transport generates the ATP that is essential for the excitability and surviv...
Synaptic mitochondria are thought to be critical in supporting neuronal energy requirements at the s...
Synaptic mitochondria are thought to be critical in supporting neuronal energy requirements at the s...
Mitochondria are the primary generators of ATP and are important regulators of intracellular calcium...
Mitochondria are the primary generators of ATP and are important regulators of intracellular calcium...
Mitochondria play many important biological roles, including ATP production, lipid biogenesis, ROS r...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Cell types rich in mitochondria, including neurons, display a high energy demand and a need for calc...
Cell types rich in mitochondria, including neurons, display a high energy demand and a need for calc...
Synapses are packed with mitochondria, complex organelles with roles in energy metabolism, cell sign...
Mitochondrial electron transport generates the ATP that is essential for the excitability and surviv...
Synaptic mitochondria are thought to be critical in supporting neuronal energy requirements at the s...
Synaptic mitochondria are thought to be critical in supporting neuronal energy requirements at the s...
Mitochondria are the primary generators of ATP and are important regulators of intracellular calcium...
Mitochondria are the primary generators of ATP and are important regulators of intracellular calcium...
Mitochondria play many important biological roles, including ATP production, lipid biogenesis, ROS r...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...
Synaptic plasticity in the adult brain is believed to represent the cellular mechanisms of learning ...