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Muscarinic acetylcholine receptor M1 Guanine nucleotide- binding protein G(q) subunit alpha Voltage- dependent N-type calcium channel subunit alpha-1B Voltage- dependent calcium channel subunit alpha-2/delta-2 Voltage- dependent L-type calcium channel subunit beta-4 Voltage- dependent L-type calcium channel subunit beta-1 Vesicular acetylcholine transporter High affinity choline transporter 1 Choline O- acetyltransferase Acetylcholinesterase Ca+ Acetylcholine Acetylcholine NGX267 Ca+ Acetylcholine Choline Choline NGX267 NGX267 Acetyl-CoA Choline CoA H2O Acetic acid Magnesium Presynaptic neuron Postsynaptic neuron An action potential arrives at the nerve terminal and stimulates the opening of the calcium channel, causing an influx of calcium ions Acetylcholine is synthesized and stored in synaptic vesicles at the nerve terminal Calcium ions stimulates the release of neurotransmitter acetylcholine into the synaptic cleft via exocytosis Acetylcholine in the synaptic cleft activates muscarinic receptors on the post-synaptic membrane Acetylcholine is broken down by acetylcholinesterase into choline and acetyl-coa Choline is taken back up into the nerve terminal and recycled to create more acetylcholine M1 receptor activation stimulates the Gq signaling cascade. the downstream effects are responsible for improving learning and memory ↓ Amyloid-beta production ↓ Tau phosphorylation ↑ Neuronal survival ↑ Cerebral blood flow NGX267 has been shown to stimulate M1 receptors in a fashion analogous to acetylcholine, a neurotransmitter essential for memory and cognitive function Synaptic Vesicle Cytosol NGX267 is administered as an oral capsule
CHRM1 GNAQ CACNA1B CACNA2D2 CACNB4 CACNB1 SLC18A3 SLC5A7 CHAT ACHE Calcium Acetylcholine Acetylcholine NGX267 Calcium Acetylcholine Choline Choline NGX267 NGX267 Acetyl-CoA Choline Coenzyme A Water Acetic acid
CHRM1 GNAQ CACNA1B CACNA2D2 CACNB4 CACNB1 SLC18A3 SLC5A7 CHAT ACHE Ca+ ACh ACh NGX267 Ca+ ACh Choline Choline NGX267 NGX267 Ac-CoA Choline CoA H2O Acoh Mg2+ Presynaptic neuron Postsynaptic neuron An action potential arrives at the nerve terminal and stimulates the opening of the calcium channel, causing an influx of calcium ions Acetylcholine is synthesized and stored in synaptic vesicles at the nerve terminal Calcium ions stimulates the release of neurotransmitter acetylcholine into the synaptic cleft via exocytosis Acetylcholine in the synaptic cleft activates muscarinic receptors on the post-synaptic membrane Acetylcholine is broken down by acetylcholinesterase into choline and acetyl-coa Choline is taken back up into the nerve terminal and recycled to create more acetylcholine M1 receptor activation stimulates the Gq signaling cascade. the downstream effects are responsible for improving learning and memory ↓ Amyloid-beta production ↓ Tau phosphorylation ↑ Neuronal survival ↑ Cerebral blood flow NGX267 has been shown to stimulate M1 receptors in a fashion analogous to acetylcholine, a neurotransmitter essential for memory and cognitive function Synaptic Vesicle Cytosol NGX267 is administered as an oral capsule
CHRM1 GNAQ CACNA1B CACNA2D2 CACNB4 CACNB1 SLC18A3 SLC5A7 CHAT ACHE Ca2+ ACh ACh NGX267 Ca2+ ACh Choline Choline NGX267 NGX267 Ac-CoA Choline CoA H2O Acoh