The regulation of neuronal excitability and the maintenance of an appropriate balance between excitation and inhibition are central to brain function. Inhibitory synaptic transmission, predominantly ...

Endophilin A1 at postsynaptic sites promotes inhibitory postsynaptic organization through interaction with gephyrin to maintain E/I balance, which is essential for the suppression of epilepsy ...

The synaptotagmin protein family has been studied by neuroscientists for decades. However, most isoforms lack well-defined functions. Now, researchers have identified a crucial, presynaptic role for ...

How do we think, feel, remember, or move? These processes involve synaptic transmission, in which chemical signals are transmitted between nerve cells using molecular containers called vesicles. Now, ...

Synaptic transmission tenets challenged Two distinct pools of synaptic vesicles appear to be involved in the spontaneous release of neurotransmitters and in neurotransmission triggered by a stimulus, ...

I’m fascinated by how neurons communicate with each other and my long-term career goal is to understand how synapses in sensory systems, particularly visual system, achieve and maintain fast and ...

Cognitive decline associated with aging is caused by the loss of cholinergic nerve supply to the hippocampus of our brain. Since the hippocampus is the center of learning and memory, a reduction in ...

The studies established the lead asset to be well tolerated in healthy volunteers at all doses with a good safety profile SYT ...

Astrocytic GABA transporter 3 is essential for preserving the integrity of neuronal population dynamics in accurately encoding and representing sensory information.

Unlike most cell types, which continuously divide, neurons have to last for the life of the organism. How do they do that? One way neurons stay healthy is by repairing their DNA as they transcribe it.