Login

Elliot H. Lee

ORCID: 0000-0003-0030-4656
Publications
Citations
Views
---
Saved
---
About
Contact & Profiles
A5007405393
Research Areas
  • Neuroscience and Neuropharmacology Research
  • Neuroscience and Neural Engineering
  • Ion channel regulation and function
  • Memory and Neural Mechanisms
  • Neural dynamics and brain function
  • Photoreceptor and optogenetics research
  • Anesthesia and Neurotoxicity Research
  • Molecular Communication and Nanonetworks

Korean Association Of Science and Technology Studies
 2022-2024

Korea Institute of Science and Technology
 2022-2024

Korea Institute of Brain Science
 2022-2024

Boramae Medical Center
 2022-2023

Seoul National University
 2023

Korea Research Institute of Chemical Technology
 2022

Yonsei University
 2020

 Astrocytes Control Sensory Acuity via Tonic Inhibition in the Thalamus
OPENALEX - Publications 
Hankyul Kwak Wuhyun Koh Sangwoo Kim Kiyeong Song Jeong-Im Shin and 24 more Jung Moo Lee Elliot H. Lee Jin Young Bae Go Eun Ha Ju-Eun Oh Yongmin Mason Park Sunpil Kim Jiesi Feng Seung Eun Lee Ji Won Choi Ki Hun Kim Yoo Sung Kim Junsung Woo Dongsu Lee Taehwang Son Soon Woo Kwon Ki Duk Park Bo‐Eun Yoon Jaeick Lee Yulong Li Hyunbeom Lee Yong Chul Bae C. Justin Lee Eunji Cheong

10.1016/j.neuron.2020.08.013 article EN publisher-specific-oa Neuron 2020-09-08
 Long-term Intracellular Recording of Optogenetically-induced Electrical Activities using Vertical Nanowire Multi Electrode Array
OPENALEX - Publications 
Ji-Soo Yoo Hankyul Kwak Juyoung Kwon Go Eun Ha Elliot H. Lee and 9 more Seungwoo Song Jukwan Na Hyo‐Jung Lee Jae-Jun Lee Areum Hwangbo Eunkyung Cha Youngcheol Chae Eunji Cheong Heon-Jin Choi

Abstract Continuous recording of intracellular activities in single cells is required for deciphering rare, dynamic and heterogeneous cell responses, which are missed by population or brief single-cell recording. Even if the field constantly proceeding, several technical challenges still remained to conquer this important approach. Here, we demonstrate long-term combining a vertical nanowire multi electrode array (VNMEA) with optogenetic stimulation minimally disrupt survival functions...

10.1038/s41598-020-61325-3 article EN cc-by Scientific Reports 2020-03-09
 The role of astrocytic γ-aminobutyric acid in the action of inhalational anesthetics
OPENALEX - Publications 
Dongwook Won Elliot H. Lee Jee‐Eun Chang Min‐Ho Nam Ki Duk Park and 2 more Soo Jin Oh Jin‐Young Hwang

10.1016/j.ejphar.2024.176494 article EN European Journal of Pharmacology 2024-03-12
 Novel potent blockers for TWIK-1/TREK-1 heterodimers as potential antidepressants
OPENALEX - Publications 
Elliot H. Lee Jung-eun Park Lizaveta Gotina Young‐Eun Han Ambily Nath Indu Viswanath and 12 more Seonguk Yoo Bongjin Moon Jin‐Young Hwang Woo Kyu Park Yoonjeong Cho Chiman Song Sun‐Joon Min Eun Mi Hwang Hyunbeom Lee Ae Nim Pae Eun Joo Roh Soo‐Jin Oh

TREK-1 (TWIK-related potassium channel-1) is a subunit of the two-pore domain (K2p) channel and widely expressed in brain. knockout mice were shown to have antidepressant-like effects, providing evidence for channel's potential as therapeutic target. However, currently there no good pharmacological inhibitor specifically targeting containing K2p channels that also displays similar effects. Here, we sought find selective potent inhibitors related dimers both vitro vivo. We synthesized...

10.1016/j.biopha.2023.115139 article EN cc-by-nc-nd Biomedicine & Pharmacotherapy 2023-07-15
 Novel potent blockers for TWIK-1/TREK-1 heterodimers as potential antidepressants
OPENALEX - Publications 
Elliot H. Lee Jung-eun Park Young‐Eun Han Ambily Nath Indu Viswanath Lizaveta Gotina and 12 more Yoonjeong Cho Bongjin Moon Jin‐Young Hwang Woo Kyu Park Seonguk Yoo Chiman Song Sun‐Joon Min Eun Mi Hwang Hyunbeom Lee Ae Nim Pae Eun Joo Roh Soo‐Jin Oh

Background and Purpose: TREK-1 (TWIK-related potassium channel-1) is a subunit of the two-pore domain (K2p) channel widely expressed in brain. knockout mice were shown to have antidepressant-like effects, providing evidence for channel’s potential as therapeutic target. However, currently there no good pharmacological inhibitor specifically targeting containing K2p channels that also displays similar effects. Experimental Approach: We sought find selective potent inhibitors related dimers...

10.22541/au.165831305.52906029/v1 preprint EN Authorea (Authorea) 2022-07-20
Coming Soon ...