TY - JOUR
T1 - STXBP1 Syndrome Is Characterized by Inhibition-Dominated Dynamics of Resting-State EEG
AU - Houtman, Simon J.
AU - Lammertse, Hanna C. A.
AU - van Berkel, Annemiek A.
AU - Balagura, Ganna
AU - Gardella, Elena
AU - Ramautar, Jennifer R.
AU - Reale, Chiara
AU - Møller, Rikke S.
AU - Zara, Federico
AU - Striano, Pasquale
AU - Misra-Isrie, Mala
AU - van Haelst, Mieke M.
AU - Engelen, Marc
AU - van Zuijen, Titia L.
AU - Mansvelder, Huibert D.
AU - Verhage, Matthijs
AU - Bruining, Hilgo
AU - Linkenkaer-Hansen, Klaus
N1 - Funding Information: EG, MV, and RM received a grant from the Lundbeck Foundation on “Neurodevelopmental disorders: from synaptic mutation to disease” (grant no. R277-2018-802). MV was supported by a European Research Council Advanced Grant (322966), COSYN (Comorbidity and Synapse Biology in Clinical Overlapping Psychiatric Disorders; Horizon 2020 Program of the European Union under RIA grant agreement 667301 to MV), the NWO Gravitation program grant BRAINSCAPES (NWO 024.004.012) and an MDBR 2019 Pilot Grant from the Orphan Disease Center (MDBR-20-136-STXBP1). HB, KL-H, and MV were supported by the Netherlands Organization for Scientific Research (NWO) Dutch National Research Agenda, NWA-ORC Call (NWA.1160.18.200). Publisher Copyright: Copyright © 2021 Houtman, Lammertse, van Berkel, Balagura, Gardella, Ramautar, Reale, Møller, Zara, Striano, Misra-Isrie, van Haelst, Engelen, van Zuijen, Mansvelder, Verhage, Bruining and Linkenkaer-Hansen.
PY - 2021/12/23
Y1 - 2021/12/23
N2 - STXBP1 syndrome is a rare neurodevelopmental disorder caused by heterozygous variants in the STXBP1 gene and is characterized by psychomotor delay, early-onset developmental delay, and epileptic encephalopathy. Pathogenic STXBP1 variants are thought to alter excitation-inhibition (E/I) balance at the synaptic level, which could impact neuronal network dynamics; however, this has not been investigated yet. Here, we present the first EEG study of patients with STXBP1 syndrome to quantify the impact of the synaptic E/I dysregulation on ongoing brain activity. We used high-frequency-resolution analyses of classical and recently developed methods known to be sensitive to E/I balance. EEG was recorded during eyes-open rest in children with STXBP1 syndrome (n = 14) and age-matched typically developing children (n = 50). Brain-wide abnormalities were observed in each of the four resting-state measures assessed here: (i) slowing of activity and increased low-frequency power in the range 1.75–4.63 Hz, (ii) increased long-range temporal correlations in the 11–18 Hz range, (iii) a decrease of our recently introduced measure of functional E/I ratio in a similar frequency range (12–24 Hz), and (iv) a larger exponent of the 1/f-like aperiodic component of the power spectrum. Overall, these findings indicate that large-scale brain activity in STXBP1 syndrome exhibits inhibition-dominated dynamics, which may be compensatory to counteract local circuitry imbalances expected to shift E/I balance toward excitation, as observed in preclinical models. We argue that quantitative EEG investigations in STXBP1 and other neurodevelopmental disorders are a crucial step to understand large-scale functional consequences of synaptic E/I perturbations.
AB - STXBP1 syndrome is a rare neurodevelopmental disorder caused by heterozygous variants in the STXBP1 gene and is characterized by psychomotor delay, early-onset developmental delay, and epileptic encephalopathy. Pathogenic STXBP1 variants are thought to alter excitation-inhibition (E/I) balance at the synaptic level, which could impact neuronal network dynamics; however, this has not been investigated yet. Here, we present the first EEG study of patients with STXBP1 syndrome to quantify the impact of the synaptic E/I dysregulation on ongoing brain activity. We used high-frequency-resolution analyses of classical and recently developed methods known to be sensitive to E/I balance. EEG was recorded during eyes-open rest in children with STXBP1 syndrome (n = 14) and age-matched typically developing children (n = 50). Brain-wide abnormalities were observed in each of the four resting-state measures assessed here: (i) slowing of activity and increased low-frequency power in the range 1.75–4.63 Hz, (ii) increased long-range temporal correlations in the 11–18 Hz range, (iii) a decrease of our recently introduced measure of functional E/I ratio in a similar frequency range (12–24 Hz), and (iv) a larger exponent of the 1/f-like aperiodic component of the power spectrum. Overall, these findings indicate that large-scale brain activity in STXBP1 syndrome exhibits inhibition-dominated dynamics, which may be compensatory to counteract local circuitry imbalances expected to shift E/I balance toward excitation, as observed in preclinical models. We argue that quantitative EEG investigations in STXBP1 and other neurodevelopmental disorders are a crucial step to understand large-scale functional consequences of synaptic E/I perturbations.
KW - EEG
KW - MUNC18-1
KW - SNAREopathies
KW - aperiodic exponent
KW - excitation-inhibition balance
KW - fE/I
UR - http://www.scopus.com/inward/record.url?scp=85122368390&partnerID=8YFLogxK
U2 - https://doi.org/10.3389/fphys.2021.775172
DO - https://doi.org/10.3389/fphys.2021.775172
M3 - Article
C2 - 35002760
SN - 1664-042X
VL - 12
SP - 1
EP - 17
JO - Frontiers in Physiology
JF - Frontiers in Physiology
IS - December
M1 - 775172
ER -