5. Regulation of input excitability in human and mouse parvalbumin interneurons by Kir potassium channels

Furdan S, Douida A, Bakos E, Tiszlavicz Á, Molnár G, Tamás G, Welter D, Landry J, Kovács BH, Erdélyi M, Bende B, Hutoczki G, Barzó P, Benes V, Szegedi V, Szűcs A, Lamsa K.
Journal/Proc./Book: bioRxiv
Year: 2025
Thematic Pillar: Metabolic and Cardiovascular Diseases

4. Specialized axon initial segment enables low firing threshold and rapid action potential output in fast-spiking interneurons of the human neocortex

Emoke Bakos, Ádám Tiszlavicz, Viktor Szegedi, Abdennour Douida, Szabina Furdan, Daphne K Welter, Jonathan M Landry, Balazs Bende, Gabor Hutoczki, Pal Barzo, Gabor Tamas, Vladimir Benes, Attila Szucs, Karri Lamsa.
Journal/Proc./Book: Accepted in PLOSBiology
Year: 2025
Thematic Pillar: Metabolic and Cardiovascular Diseases

3. Aging-associated weakening of the action potential in fast-spiking interneurons in the human neocortex

Szegedi V, Tiszlavicz Á, Furdan S, Douida A, Bakos E, Barzo P, Tamas G, Szucs A, Lamsa K.
Journal/Proc./Book: Journal of Biotechnology
Year: 2024
Thematic Pillar: Metabolic and Cardiovascular Diseases

2. Editorial: Insights in synaptic neuroscience 2022

Lamsa KP, Kirkwood A, Sjöström PJ
Journal/Proc./Book: Front Synaptic Neurosci.
Year: 2024
Thematic Pillar: Metabolic and Cardiovascular Diseases

1. HCN channels at the cell soma ensure the rapid electrical reactivity of fast-spiking interneurons in human neocortex.

Szegedi V, Bakos E, Furdan S, Kovács BH, Varga D, Erdélyi M, Barzó P, Szücs A, Tamás G, Lamsa K.
Journal/Proc./Book: PlOS Biology
Year: 2023
Thematic Pillar: Metabolic and Cardiovascular Diseases