Pathogenic UNC13A variants cause a neurodevelopmental syndrome by impairing synaptic function

Reza Asadollahi; Aisha Ahmad; Paranchai Boonsawat; Jasmine Shahanoor Hinzen; Mareike Lohse; Boris Bouazza-Arostegui; Siqi Sun; Tillmann Utesch; Jonas D. Sommer; Dragana Ilic; Murugesh Padmanarayana; Kati Fischermanns; Mrinalini Ranjan; Moritz Boll; Chandran Ka; Amélie Piton; Francesca Mattioli; Bertrand Isidor; Katrin Õunap; Karit Reinson; Monica H. Wojcik; Christian R. Marshall; Saadet Mercimek-Andrews; Naomichi Matsumoto; Noriko Miyake; Bruno de Oliveira Stephan; Rachel Sayuri Honjo; Debora R. Bertola; Chong Ae Kim; Roman Yusupov; Heather C. Mefford; John Christodoulou; Joy Lee; Oliver Heath; Natasha J. Brown; Naomi Baker; Zornitza Stark; Martin Delatycki; Nicole J. Lake; Shimriet Zeidler; Linda Zuurbier; Saskia M. Maas; Chris C. de Kruiff; Farrah Rajabi; Lance H. Rodan; Stephanie A. Coury; Konrad Platzer; Henry Oppermann; Rami Abou Jamra; Skadi Beblo; Et al.; Servi Stevens

doi:10.1038/s41588-025-02361-5

Pathogenic UNC13A variants cause a neurodevelopmental syndrome by impairing synaptic function

Reza Asadollahi
, Aisha Ahmad
, Paranchai Boonsawat
, Jasmine Shahanoor Hinzen
, Mareike Lohse
, Boris Bouazza-Arostegui
, Siqi Sun
, Tillmann Utesch
, Jonas D. Sommer
, Dragana Ilic
, Murugesh Padmanarayana
, Kati Fischermanns
, Mrinalini Ranjan
, Moritz Boll
, Chandran Ka
, Amélie Piton
, Francesca Mattioli
, Bertrand Isidor
, Katrin Õunap
, Karit Reinson

Monica H. Wojcik, Christian R. Marshall, Saadet Mercimek-Andrews, Naomichi Matsumoto, Noriko Miyake, Bruno de Oliveira Stephan, Rachel Sayuri Honjo, Debora R. Bertola, Chong Ae Kim, Roman Yusupov, Heather C. Mefford, John Christodoulou, Joy Lee, Oliver Heath, Natasha J. Brown, Naomi Baker, Zornitza Stark, Martin Delatycki, Nicole J. Lake, Shimriet Zeidler, Linda Zuurbier, Saskia M. Maas, Chris C. de Kruiff, Farrah Rajabi, Lance H. Rodan, Stephanie A. Coury, Konrad Platzer, Henry Oppermann, Rami Abou Jamra, Skadi Beblo, Et al., Servi Stevens

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The UNC13A gene encodes a presynaptic protein that is crucial for setting the strength and dynamics of information transfer between neurons. Here we describe a neurodevelopmental syndrome caused by germline coding or splice-site variants in UNC13A. The syndrome presents with variable degrees of developmental delay and intellectual disability, seizures of different types, tremor and dyskinetic movements and, in some cases, death in early childhood. Using assays with expression of UNC13A variants in mouse hippocampal neurons and in Caenorhabditis elegans, we identify three mechanisms of pathogenicity, including reduction in synaptic strength caused by reduced UNC13A protein expression, increased neurotransmission caused by UNC13A gain-of-function and impaired regulation of neurotransmission by second messenger signalling. Based on a strong genotype-phenotype-functional correlation, we classify three UNC13A syndrome subtypes (types A-C). We conclude that the precise regulation of neurotransmitter release by UNC13A is critical for human nervous system function.

Original language	English
Pages (from-to)	2691-2704
Number of pages	14
Journal	Nature Genetics
Volume	57
Issue number	11
DOIs	https://doi.org/10.1038/s41588-025-02361-5
Publication status	Published - 1 Nov 2025

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Asadollahi, R., Ahmad, A., Boonsawat, P., Shahanoor Hinzen, J., Lohse, M., Bouazza-Arostegui, B., Sun, S., Utesch, T., Sommer, J. D., Ilic, D., Padmanarayana, M., Fischermanns, K., Ranjan, M., Boll, M., Ka, C., Piton, A., Mattioli, F., Isidor, B., Õunap, K., ... Stevens, S. (2025). Pathogenic UNC13A variants cause a neurodevelopmental syndrome by impairing synaptic function. Nature Genetics, 57(11), 2691-2704. https://doi.org/10.1038/s41588-025-02361-5

@article{d91d58b2f34746e39f7e1ae165fef791,

title = "Pathogenic UNC13A variants cause a neurodevelopmental syndrome by impairing synaptic function",

abstract = "The UNC13A gene encodes a presynaptic protein that is crucial for setting the strength and dynamics of information transfer between neurons. Here we describe a neurodevelopmental syndrome caused by germline coding or splice-site variants in UNC13A. The syndrome presents with variable degrees of developmental delay and intellectual disability, seizures of different types, tremor and dyskinetic movements and, in some cases, death in early childhood. Using assays with expression of UNC13A variants in mouse hippocampal neurons and in Caenorhabditis elegans, we identify three mechanisms of pathogenicity, including reduction in synaptic strength caused by reduced UNC13A protein expression, increased neurotransmission caused by UNC13A gain-of-function and impaired regulation of neurotransmission by second messenger signalling. Based on a strong genotype-phenotype-functional correlation, we classify three UNC13A syndrome subtypes (types A-C). We conclude that the precise regulation of neurotransmitter release by UNC13A is critical for human nervous system function.",

author = "Reza Asadollahi and Aisha Ahmad and Paranchai Boonsawat and \{Shahanoor Hinzen\}, Jasmine and Mareike Lohse and Boris Bouazza-Arostegui and Siqi Sun and Tillmann Utesch and Sommer, \{Jonas D.\} and Dragana Ilic and Murugesh Padmanarayana and Kati Fischermanns and Mrinalini Ranjan and Moritz Boll and Chandran Ka and Am{\'e}lie Piton and Francesca Mattioli and Bertrand Isidor and Katrin {\~O}unap and Karit Reinson and Wojcik, \{Monica H.\} and Marshall, \{Christian R.\} and Saadet Mercimek-Andrews and Naomichi Matsumoto and Noriko Miyake and Stephan, \{Bruno de Oliveira\} and Honjo, \{Rachel Sayuri\} and Bertola, \{Debora R.\} and Kim, \{Chong Ae\} and Roman Yusupov and Mefford, \{Heather C.\} and John Christodoulou and Joy Lee and Oliver Heath and Brown, \{Natasha J.\} and Naomi Baker and Zornitza Stark and Martin Delatycki and Lake, \{Nicole J.\} and Shimriet Zeidler and Linda Zuurbier and Maas, \{Saskia M.\} and \{de Kruiff\}, \{Chris C.\} and Farrah Rajabi and Rodan, \{Lance H.\} and Coury, \{Stephanie A.\} and Konrad Platzer and Henry Oppermann and \{Abou Jamra\}, Rami and Skadi Beblo and \{Et al.\} and Servi Stevens",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s).",

year = "2025",

month = nov,

day = "1",

doi = "10.1038/s41588-025-02361-5",

language = "English",

volume = "57",

pages = "2691--2704",

journal = "Nature Genetics",

issn = "1061-4036",

publisher = "Nature Research",

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Asadollahi, R, Ahmad, A, Boonsawat, P, Shahanoor Hinzen, J, Lohse, M, Bouazza-Arostegui, B, Sun, S, Utesch, T, Sommer, JD, Ilic, D, Padmanarayana, M, Fischermanns, K, Ranjan, M, Boll, M, Ka, C, Piton, A, Mattioli, F, Isidor, B, Õunap, K, Reinson, K, Wojcik, MH, Marshall, CR, Mercimek-Andrews, S, Matsumoto, N, Miyake, N, Stephan, BDO, Honjo, RS, Bertola, DR, Kim, CA, Yusupov, R, Mefford, HC, Christodoulou, J, Lee, J, Heath, O, Brown, NJ, Baker, N, Stark, Z, Delatycki, M, Lake, NJ, Zeidler, S, Zuurbier, L, Maas, SM, de Kruiff, CC, Rajabi, F, Rodan, LH, Coury, SA, Platzer, K, Oppermann, H, Abou Jamra, R, Beblo, S, Et al. & Stevens, S 2025, 'Pathogenic UNC13A variants cause a neurodevelopmental syndrome by impairing synaptic function', Nature Genetics, vol. 57, no. 11, pp. 2691-2704. https://doi.org/10.1038/s41588-025-02361-5

TY - JOUR

T1 - Pathogenic UNC13A variants cause a neurodevelopmental syndrome by impairing synaptic function

AU - Asadollahi, Reza

AU - Ahmad, Aisha

AU - Boonsawat, Paranchai

AU - Shahanoor Hinzen, Jasmine

AU - Lohse, Mareike

AU - Bouazza-Arostegui, Boris

AU - Sun, Siqi

AU - Utesch, Tillmann

AU - Sommer, Jonas D.

AU - Ilic, Dragana

AU - Padmanarayana, Murugesh

AU - Fischermanns, Kati

AU - Ranjan, Mrinalini

AU - Boll, Moritz

AU - Ka, Chandran

AU - Piton, Amélie

AU - Mattioli, Francesca

AU - Isidor, Bertrand

AU - Õunap, Katrin

AU - Reinson, Karit

AU - Wojcik, Monica H.

AU - Marshall, Christian R.

AU - Mercimek-Andrews, Saadet

AU - Matsumoto, Naomichi

AU - Miyake, Noriko

AU - Stephan, Bruno de Oliveira

AU - Honjo, Rachel Sayuri

AU - Bertola, Debora R.

AU - Kim, Chong Ae

AU - Yusupov, Roman

AU - Mefford, Heather C.

AU - Christodoulou, John

AU - Lee, Joy

AU - Heath, Oliver

AU - Brown, Natasha J.

AU - Baker, Naomi

AU - Stark, Zornitza

AU - Delatycki, Martin

AU - Lake, Nicole J.

AU - Zeidler, Shimriet

AU - Zuurbier, Linda

AU - Maas, Saskia M.

AU - de Kruiff, Chris C.

AU - Rajabi, Farrah

AU - Rodan, Lance H.

AU - Coury, Stephanie A.

AU - Platzer, Konrad

AU - Oppermann, Henry

AU - Abou Jamra, Rami

AU - Beblo, Skadi

AU - Et al.

AU - Stevens, Servi

PY - 2025/11/1

Y1 - 2025/11/1

N2 - The UNC13A gene encodes a presynaptic protein that is crucial for setting the strength and dynamics of information transfer between neurons. Here we describe a neurodevelopmental syndrome caused by germline coding or splice-site variants in UNC13A. The syndrome presents with variable degrees of developmental delay and intellectual disability, seizures of different types, tremor and dyskinetic movements and, in some cases, death in early childhood. Using assays with expression of UNC13A variants in mouse hippocampal neurons and in Caenorhabditis elegans, we identify three mechanisms of pathogenicity, including reduction in synaptic strength caused by reduced UNC13A protein expression, increased neurotransmission caused by UNC13A gain-of-function and impaired regulation of neurotransmission by second messenger signalling. Based on a strong genotype-phenotype-functional correlation, we classify three UNC13A syndrome subtypes (types A-C). We conclude that the precise regulation of neurotransmitter release by UNC13A is critical for human nervous system function.

AB - The UNC13A gene encodes a presynaptic protein that is crucial for setting the strength and dynamics of information transfer between neurons. Here we describe a neurodevelopmental syndrome caused by germline coding or splice-site variants in UNC13A. The syndrome presents with variable degrees of developmental delay and intellectual disability, seizures of different types, tremor and dyskinetic movements and, in some cases, death in early childhood. Using assays with expression of UNC13A variants in mouse hippocampal neurons and in Caenorhabditis elegans, we identify three mechanisms of pathogenicity, including reduction in synaptic strength caused by reduced UNC13A protein expression, increased neurotransmission caused by UNC13A gain-of-function and impaired regulation of neurotransmission by second messenger signalling. Based on a strong genotype-phenotype-functional correlation, we classify three UNC13A syndrome subtypes (types A-C). We conclude that the precise regulation of neurotransmitter release by UNC13A is critical for human nervous system function.

U2 - 10.1038/s41588-025-02361-5

DO - 10.1038/s41588-025-02361-5

M3 - Article

SN - 1061-4036

VL - 57

SP - 2691

EP - 2704

JO - Nature Genetics

JF - Nature Genetics

IS - 11

ER -

Pathogenic UNC13A variants cause a neurodevelopmental syndrome by impairing synaptic function

Abstract

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