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Calcium Signaling in Neurons and Glial Cells: Role of Cav1 channels
Calcium (Ca 2+) is an essential component in intracellular signaling of brain cells, and its control mechanisms are of great interest in biological systems. Ca 2+ can signal differently in neurons and glial cells using the same intracellular pathways or cell membrane structural components. These types of machinery are responsible for entry, permanence, and removal of Ca 2+ from the cellular environment.
Nuclear calcium signaling in the regulation of brain function
This study identified calcium as the principal second messenger in the control of neuronal activity-dependent gene expression in hippocampal neurons and defined two distinct signaling pathways.
Calcium Dysregulation and Homeostasis of Neural in the Brain
The intracellular free calcium concentration subserves complex signaling roles in the brain. cations (Ca 2+) regulate neuronal plasticity underlying learning and memory and neuronal survival. Homo- and heterocellular control of Ca 2+ homeostasis supports brain physiology, maintaining neural integrity. Ca 2+ fluxes across the plasma membrane and between intracellular organelles and the cytosol are crucial for these processes.
Calcium Signaling in Neurons and Glial Cells: Role of Cav1 Channels
Calcium (Ca 2+) is an essential component in intracellular signaling of brain cells, and its control mechanisms are of great interest in biological systems.Ca 2+ can signal differently in neurons and glial cells using the same intracellular pathways or cell membrane structural components. These types of machinery are responsible for the entry, permanence, and removal of Ca 2+ from the cellular environment.
Nuclear Calcium signaling in the Regulation of Brain Function
This study identified calcium as the principal second messenger in the control of neuronal activity-dependent gene expression in hippocampal neurons and defined two distinct signaling pathways. Understanding these pathways is crucial for comprehending how neurons communicate and adapt over time.
Calcium Dysregulation and Homeostasis of Neural Cells in the Brain
the intracellular free calcium concentration subserves complex signaling roles in the brain.Cations (Ca 2+) regulate neuronal plasticity underlying learning and memory and neuronal survival. Homo- and heterocellular control of Ca 2+ homeostasis supports brain physiology, maintaining neural integrity.Ca 2+ fluxes across the plasma membrane and between intracellular organelles and the cytosol are crucial for these processes. Any dysregulation in these fluxes can lead to neurological disorders and cognitive impairments.
