Integrating GWAS meta-analysis with human brain cell mapping implicates the amygdala and the midbrain in the pathogenesis of tinnitus

Nick M A Shubert; Shuyang Yao; Maryam Kazemi Naeini; Natalia Trpchevska; Charles Bishop; Argyro Bizaki-Vallaskangas; Linda Broer; Fabio Castellana; Kaare Christensen; Jacob V B Hjelmborg; Maria Pina Concas; Aurora Santin; Giorgia Girotto; Giuseppe Giovanni Nardone; Licia Iacoviello; Jonas Mengel-From; Scott Gallagher; Alexander Gudjonsson; Vilmundur Gudnason; Nancy L Heard-Costa; Sudha Seshadri; Howard J Hoffman; Chuan-Ming Li; Jaakko Kaprio; Joel Rämö; Elmo Saarentaus; Johannes Kettunen; Kristi Krebs; Anna K Kähler; Lenore J Launer; Hampton Leonard; Mike A Nalls; Patrik K E Magnusson; Joyce van Meurs; Lili Milani; Antti Mäkitie; Berthe C Oosterloo; Marianne Nygaard; Teemu Palviainen; Sheila Pratt; Nicola Quaranta; Rodolfo Sardone; Claudia L Satizabal; John M Schweinfurth; Eric Shiroma; Eleanor Simonsick; Christopher Spankovich; Patrick F Sullivan; Andre Goedegebure; Andries Paul Nagtegaal

doi:10.1101/2025.11.28.25340151

Integrating GWAS meta-analysis with human brain cell mapping implicates the amygdala and the midbrain in the pathogenesis of tinnitus

Nick M A Shubert
, Shuyang Yao
, Maryam Kazemi Naeini
, Natalia Trpchevska
, Charles Bishop
, Argyro Bizaki-Vallaskangas
, Linda Broer
, Fabio Castellana
, Kaare Christensen
, Jacob V B Hjelmborg
, Maria Pina Concas
, Aurora Santin
, Giorgia Girotto
, Giuseppe Giovanni Nardone
, Licia Iacoviello
, Jonas Mengel-From
, Scott Gallagher
, Alexander Gudjonsson
, Vilmundur Gudnason
, Nancy L Heard-Costa

Sudha Seshadri, Howard J Hoffman, Chuan-Ming Li, Jaakko Kaprio, Joel Rämö, Elmo Saarentaus, Johannes Kettunen, Kristi Krebs, Anna K Kähler, Lenore J Launer, Hampton Leonard, Mike A Nalls, Patrik K E Magnusson, Joyce van Meurs, Lili Milani, Antti Mäkitie, Berthe C Oosterloo, Marianne Nygaard, Teemu Palviainen, Sheila Pratt, Nicola Quaranta, Rodolfo Sardone, Claudia L Satizabal, John M Schweinfurth, Eric Shiroma, Eleanor Simonsick, Christopher Spankovich, Patrick F Sullivan, Andre Goedegebure, Andries Paul Nagtegaal

Publikation: Andet › Andet bidrag › Forskning

Abstract

Tinnitus is a distressing condition affecting millions of people worldwide, yet treatment options remain very limited. Molecular evidence on the cellular origins of tinnitus in humans is lacking. Here, we performed a genome-wide association meta-analysis of clinically diagnosed and self-reported tinnitus on 888,214 individuals (75,250 tinnitus cases and 812,964 controls) from 19 independent cohorts. We identified five independent loci, two of which have not been reported previously. Mapping onto a single-cell transcriptomic atlas of the adult human brain, we found enrichment in amygdala excitatory neurons, midbrain-derived inhibitory neurons, and medial ganglionic eminence-derived interneurons, implicating the involvement of these cell types within tinnitus. Moreover, we observed that these cell-types overlapped with those associated with major depressive disorder, insomnia, and neuroticism, pathologies and personality traits which were also genetically correlated with tinnitus. Our findings confirm previously reported genetic associations with tinnitus and identify novel ones, highlighting the amygdala's excitatory and the midbrain's inhibitory neurons as crucial cell types involved in tinnitus pathophysiology. Our work, which leverages multiple cohorts, provides a framework for identifying genetic and cellular contributors to tinnitus and defining common mechanisms and treatments.

Originalsprog	Engelsk
Publikationsdato	1. dec. 2025
DOI	https://doi.org/10.1101/2025.11.28.25340151
Status	Udgivet - 1. dec. 2025

Dokumenter og links

10.1101/2025.11.28.25340151

SDU link

Tjek adgangen til materialet i Syddansk Universitetsbiblioteks søgemaskine

Citationsformater

Shubert, N. M. A., Yao, S., Naeini, M. K., Trpchevska, N., Bishop, C., Bizaki-Vallaskangas, A., Broer, L., Castellana, F., Christensen, K., Hjelmborg, J. V. B., Concas, M. P., Santin, A., Girotto, G., Nardone, G. G., Iacoviello, L., Mengel-From, J., Gallagher, S., Gudjonsson, A., Gudnason, V., ... Nagtegaal, A. P. (2025, dec. 1). Integrating GWAS meta-analysis with human brain cell mapping implicates the amygdala and the midbrain in the pathogenesis of tinnitus. https://doi.org/10.1101/2025.11.28.25340151

@misc{3a7e6e2b113d4ca29a713234d07262d1,

title = "Integrating GWAS meta-analysis with human brain cell mapping implicates the amygdala and the midbrain in the pathogenesis of tinnitus",

abstract = "Tinnitus is a distressing condition affecting millions of people worldwide, yet treatment options remain very limited. Molecular evidence on the cellular origins of tinnitus in humans is lacking. Here, we performed a genome-wide association meta-analysis of clinically diagnosed and self-reported tinnitus on 888,214 individuals (75,250 tinnitus cases and 812,964 controls) from 19 independent cohorts. We identified five independent loci, two of which have not been reported previously. Mapping onto a single-cell transcriptomic atlas of the adult human brain, we found enrichment in amygdala excitatory neurons, midbrain-derived inhibitory neurons, and medial ganglionic eminence-derived interneurons, implicating the involvement of these cell types within tinnitus. Moreover, we observed that these cell-types overlapped with those associated with major depressive disorder, insomnia, and neuroticism, pathologies and personality traits which were also genetically correlated with tinnitus. Our findings confirm previously reported genetic associations with tinnitus and identify novel ones, highlighting the amygdala's excitatory and the midbrain's inhibitory neurons as crucial cell types involved in tinnitus pathophysiology. Our work, which leverages multiple cohorts, provides a framework for identifying genetic and cellular contributors to tinnitus and defining common mechanisms and treatments.",

author = "Shubert, \{Nick M A\} and Shuyang Yao and Naeini, \{Maryam Kazemi\} and Natalia Trpchevska and Charles Bishop and Argyro Bizaki-Vallaskangas and Linda Broer and Fabio Castellana and Kaare Christensen and Hjelmborg, \{Jacob V B\} and Concas, \{Maria Pina\} and Aurora Santin and Giorgia Girotto and Nardone, \{Giuseppe Giovanni\} and Licia Iacoviello and Jonas Mengel-From and Scott Gallagher and Alexander Gudjonsson and Vilmundur Gudnason and Heard-Costa, \{Nancy L\} and Sudha Seshadri and Hoffman, \{Howard J\} and Chuan-Ming Li and Jaakko Kaprio and Joel R{\"a}m{\"o} and Elmo Saarentaus and Johannes Kettunen and Kristi Krebs and K{\"a}hler, \{Anna K\} and Launer, \{Lenore J\} and Hampton Leonard and Nalls, \{Mike A\} and Magnusson, \{Patrik K E\} and \{van Meurs\}, Joyce and Lili Milani and Antti M{\"a}kitie and Oosterloo, \{Berthe C\} and Marianne Nygaard and Teemu Palviainen and Sheila Pratt and Nicola Quaranta and Rodolfo Sardone and Satizabal, \{Claudia L\} and Schweinfurth, \{John M\} and Eric Shiroma and Eleanor Simonsick and Christopher Spankovich and Sullivan, \{Patrick F\} and Andre Goedegebure and Nagtegaal, \{Andries Paul\}",

year = "2025",

month = dec,

day = "1",

doi = "10.1101/2025.11.28.25340151",

language = "English",

type = "Other",

}

Shubert, NMA, Yao, S, Naeini, MK, Trpchevska, N, Bishop, C, Bizaki-Vallaskangas, A, Broer, L, Castellana, F, Christensen, K , Hjelmborg, JVB, Concas, MP, Santin, A, Girotto, G, Nardone, GG, Iacoviello, L, Mengel-From, J, Gallagher, S, Gudjonsson, A, Gudnason, V, Heard-Costa, NL, Seshadri, S, Hoffman, HJ, Li, C-M, Kaprio, J, Rämö, J, Saarentaus, E, Kettunen, J, Krebs, K, Kähler, AK, Launer, LJ, Leonard, H, Nalls, MA, Magnusson, PKE, van Meurs, J, Milani, L, Mäkitie, A, Oosterloo, BC, Nygaard, M, Palviainen, T, Pratt, S, Quaranta, N, Sardone, R, Satizabal, CL, Schweinfurth, JM, Shiroma, E, Simonsick, E, Spankovich, C, Sullivan, PF, Goedegebure, A & Nagtegaal, AP 2025, Integrating GWAS meta-analysis with human brain cell mapping implicates the amygdala and the midbrain in the pathogenesis of tinnitus. https://doi.org/10.1101/2025.11.28.25340151

TY - GEN

T1 - Integrating GWAS meta-analysis with human brain cell mapping implicates the amygdala and the midbrain in the pathogenesis of tinnitus

AU - Shubert, Nick M A

AU - Yao, Shuyang

AU - Naeini, Maryam Kazemi

AU - Trpchevska, Natalia

AU - Bishop, Charles

AU - Bizaki-Vallaskangas, Argyro

AU - Broer, Linda

AU - Castellana, Fabio

AU - Christensen, Kaare

AU - Hjelmborg, Jacob V B

AU - Concas, Maria Pina

AU - Santin, Aurora

AU - Girotto, Giorgia

AU - Nardone, Giuseppe Giovanni

AU - Iacoviello, Licia

AU - Mengel-From, Jonas

AU - Gallagher, Scott

AU - Gudjonsson, Alexander

AU - Gudnason, Vilmundur

AU - Heard-Costa, Nancy L

AU - Seshadri, Sudha

AU - Hoffman, Howard J

AU - Li, Chuan-Ming

AU - Kaprio, Jaakko

AU - Rämö, Joel

AU - Saarentaus, Elmo

AU - Kettunen, Johannes

AU - Krebs, Kristi

AU - Kähler, Anna K

AU - Launer, Lenore J

AU - Leonard, Hampton

AU - Nalls, Mike A

AU - Magnusson, Patrik K E

AU - van Meurs, Joyce

AU - Milani, Lili

AU - Mäkitie, Antti

AU - Oosterloo, Berthe C

AU - Nygaard, Marianne

AU - Palviainen, Teemu

AU - Pratt, Sheila

AU - Quaranta, Nicola

AU - Sardone, Rodolfo

AU - Satizabal, Claudia L

AU - Schweinfurth, John M

AU - Shiroma, Eric

AU - Simonsick, Eleanor

AU - Spankovich, Christopher

AU - Sullivan, Patrick F

AU - Goedegebure, Andre

AU - Nagtegaal, Andries Paul

PY - 2025/12/1

Y1 - 2025/12/1

N2 - Tinnitus is a distressing condition affecting millions of people worldwide, yet treatment options remain very limited. Molecular evidence on the cellular origins of tinnitus in humans is lacking. Here, we performed a genome-wide association meta-analysis of clinically diagnosed and self-reported tinnitus on 888,214 individuals (75,250 tinnitus cases and 812,964 controls) from 19 independent cohorts. We identified five independent loci, two of which have not been reported previously. Mapping onto a single-cell transcriptomic atlas of the adult human brain, we found enrichment in amygdala excitatory neurons, midbrain-derived inhibitory neurons, and medial ganglionic eminence-derived interneurons, implicating the involvement of these cell types within tinnitus. Moreover, we observed that these cell-types overlapped with those associated with major depressive disorder, insomnia, and neuroticism, pathologies and personality traits which were also genetically correlated with tinnitus. Our findings confirm previously reported genetic associations with tinnitus and identify novel ones, highlighting the amygdala's excitatory and the midbrain's inhibitory neurons as crucial cell types involved in tinnitus pathophysiology. Our work, which leverages multiple cohorts, provides a framework for identifying genetic and cellular contributors to tinnitus and defining common mechanisms and treatments.

AB - Tinnitus is a distressing condition affecting millions of people worldwide, yet treatment options remain very limited. Molecular evidence on the cellular origins of tinnitus in humans is lacking. Here, we performed a genome-wide association meta-analysis of clinically diagnosed and self-reported tinnitus on 888,214 individuals (75,250 tinnitus cases and 812,964 controls) from 19 independent cohorts. We identified five independent loci, two of which have not been reported previously. Mapping onto a single-cell transcriptomic atlas of the adult human brain, we found enrichment in amygdala excitatory neurons, midbrain-derived inhibitory neurons, and medial ganglionic eminence-derived interneurons, implicating the involvement of these cell types within tinnitus. Moreover, we observed that these cell-types overlapped with those associated with major depressive disorder, insomnia, and neuroticism, pathologies and personality traits which were also genetically correlated with tinnitus. Our findings confirm previously reported genetic associations with tinnitus and identify novel ones, highlighting the amygdala's excitatory and the midbrain's inhibitory neurons as crucial cell types involved in tinnitus pathophysiology. Our work, which leverages multiple cohorts, provides a framework for identifying genetic and cellular contributors to tinnitus and defining common mechanisms and treatments.

U2 - 10.1101/2025.11.28.25340151

DO - 10.1101/2025.11.28.25340151

M3 - Other contribution

C2 - 41378354

ER -

Integrating GWAS meta-analysis with human brain cell mapping implicates the amygdala and the midbrain in the pathogenesis of tinnitus

Abstract

Dokumenter og links

SDU link

Fingeraftryk

Citationsformater