Genetic Landscape and Mitochondrial Metabolic Dysregulation in Patients Suffering From Severe Long COVID

Kristoffer Skaalum Hansen; Sofie Eg Jørgensen; Cagla Cömert; Berit Schiøttz-Christensen; Peter Bross; Jane Agergaard; Steffen Leth; Lars Østergaard; Johan Palmfeldt; Rikke Katrine Jentoft Olsen; Trine H Mogensen

doi:10.1002/jmv.70275

Genetic Landscape and Mitochondrial Metabolic Dysregulation in Patients Suffering From Severe Long COVID

Kristoffer Skaalum Hansen, Sofie Eg Jørgensen, Cagla Cömert, Berit Schiøttz-Christensen, Peter Bross, Jane Agergaard, Steffen Leth, Lars Østergaard, Johan Palmfeldt, Rikke Katrine Jentoft Olsen, Trine H Mogensen

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

Abstract

Long COVID represents a significant global health challenge with an unclear etiology. Alongside accumulating evidence of mitochondrial dysfunction in patients with acute SARS-CoV-2 infection, a symptomatic overlap exists between long COVID and mitochondrial disorders. However, the genetic underpinnings of mitochondrial dysfunction in long COVID have not been previously explored. We employed whole genome sequencing to analyze 13 patients with severe long COVID to identify genetic defects related to mitochondrial function. We performed extracellular bioenergetics flux analysis on peripheral blood mononuclear cells and proteomics to evaluate cellular bioenergetics and compared the results to those of healthy controls. Our investigation identified 10 variants classified as pathogenic or likely pathogenic and 83 variants of unknown significance affecting a wide range of mitochondria-associated biological functions. Bioenergetics flux analysis in peripheral blood mononuclear cells revealed an altered ATP production rate in four long COVID patients compared to healthy controls. This study presents initial evidence of a potential underlying genetic predisposition to mitochondrial dysfunction in long COVID while demonstrating altered cellular energy capacity in a subset of these patients. These findings open avenues for further research into the role of mitochondrial dysfunction and pathology in patients suffering from long COVID and may pave the way for targeted therapeutic strategies aimed at mitigating mitochondrial dysfunction.

Originalsprog	Engelsk
Artikelnummer	e70275
Tidsskrift	Journal of Medical Virology
Vol/bind	97
Nummer	3
ISSN	0146-6615
DOI	https://doi.org/10.1002/jmv.70275
Status	Udgivet - mar. 2025

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Hansen, K. S., Jørgensen, S. E., Cömert, C., Schiøttz-Christensen, B., Bross, P., Agergaard, J., Leth, S., Østergaard, L., Palmfeldt, J., Olsen, R. K. J., & Mogensen, T. H. (2025). Genetic Landscape and Mitochondrial Metabolic Dysregulation in Patients Suffering From Severe Long COVID. Journal of Medical Virology, 97(3), Artikel e70275. https://doi.org/10.1002/jmv.70275

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title = "Genetic Landscape and Mitochondrial Metabolic Dysregulation in Patients Suffering From Severe Long COVID",

abstract = "Long COVID represents a significant global health challenge with an unclear etiology. Alongside accumulating evidence of mitochondrial dysfunction in patients with acute SARS-CoV-2 infection, a symptomatic overlap exists between long COVID and mitochondrial disorders. However, the genetic underpinnings of mitochondrial dysfunction in long COVID have not been previously explored. We employed whole genome sequencing to analyze 13 patients with severe long COVID to identify genetic defects related to mitochondrial function. We performed extracellular bioenergetics flux analysis on peripheral blood mononuclear cells and proteomics to evaluate cellular bioenergetics and compared the results to those of healthy controls. Our investigation identified 10 variants classified as pathogenic or likely pathogenic and 83 variants of unknown significance affecting a wide range of mitochondria-associated biological functions. Bioenergetics flux analysis in peripheral blood mononuclear cells revealed an altered ATP production rate in four long COVID patients compared to healthy controls. This study presents initial evidence of a potential underlying genetic predisposition to mitochondrial dysfunction in long COVID while demonstrating altered cellular energy capacity in a subset of these patients. These findings open avenues for further research into the role of mitochondrial dysfunction and pathology in patients suffering from long COVID and may pave the way for targeted therapeutic strategies aimed at mitigating mitochondrial dysfunction.",

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author = "Hansen, {Kristoffer Skaalum} and J{\o}rgensen, {Sofie Eg} and Cagla C{\"o}mert and Berit Schi{\o}ttz-Christensen and Peter Bross and Jane Agergaard and Steffen Leth and Lars {\O}stergaard and Johan Palmfeldt and Olsen, {Rikke Katrine Jentoft} and Mogensen, {Trine H}",

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year = "2025",

month = mar,

doi = "10.1002/jmv.70275",

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journal = "Journal of Medical Virology",

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Genetic Landscape and Mitochondrial Metabolic Dysregulation in Patients Suffering From Severe Long COVID. / Hansen, Kristoffer Skaalum ; Jørgensen, Sofie Eg ; Cömert, Cagla et al.
I: Journal of Medical Virology, Bind 97, Nr. 3, e70275, 03.2025.

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

TY - JOUR

T1 - Genetic Landscape and Mitochondrial Metabolic Dysregulation in Patients Suffering From Severe Long COVID

AU - Hansen, Kristoffer Skaalum

AU - Jørgensen, Sofie Eg

AU - Cömert, Cagla

AU - Schiøttz-Christensen, Berit

AU - Bross, Peter

AU - Agergaard, Jane

AU - Leth, Steffen

AU - Østergaard, Lars

AU - Palmfeldt, Johan

AU - Olsen, Rikke Katrine Jentoft

AU - Mogensen, Trine H

PY - 2025/3

Y1 - 2025/3

N2 - Long COVID represents a significant global health challenge with an unclear etiology. Alongside accumulating evidence of mitochondrial dysfunction in patients with acute SARS-CoV-2 infection, a symptomatic overlap exists between long COVID and mitochondrial disorders. However, the genetic underpinnings of mitochondrial dysfunction in long COVID have not been previously explored. We employed whole genome sequencing to analyze 13 patients with severe long COVID to identify genetic defects related to mitochondrial function. We performed extracellular bioenergetics flux analysis on peripheral blood mononuclear cells and proteomics to evaluate cellular bioenergetics and compared the results to those of healthy controls. Our investigation identified 10 variants classified as pathogenic or likely pathogenic and 83 variants of unknown significance affecting a wide range of mitochondria-associated biological functions. Bioenergetics flux analysis in peripheral blood mononuclear cells revealed an altered ATP production rate in four long COVID patients compared to healthy controls. This study presents initial evidence of a potential underlying genetic predisposition to mitochondrial dysfunction in long COVID while demonstrating altered cellular energy capacity in a subset of these patients. These findings open avenues for further research into the role of mitochondrial dysfunction and pathology in patients suffering from long COVID and may pave the way for targeted therapeutic strategies aimed at mitigating mitochondrial dysfunction.

AB - Long COVID represents a significant global health challenge with an unclear etiology. Alongside accumulating evidence of mitochondrial dysfunction in patients with acute SARS-CoV-2 infection, a symptomatic overlap exists between long COVID and mitochondrial disorders. However, the genetic underpinnings of mitochondrial dysfunction in long COVID have not been previously explored. We employed whole genome sequencing to analyze 13 patients with severe long COVID to identify genetic defects related to mitochondrial function. We performed extracellular bioenergetics flux analysis on peripheral blood mononuclear cells and proteomics to evaluate cellular bioenergetics and compared the results to those of healthy controls. Our investigation identified 10 variants classified as pathogenic or likely pathogenic and 83 variants of unknown significance affecting a wide range of mitochondria-associated biological functions. Bioenergetics flux analysis in peripheral blood mononuclear cells revealed an altered ATP production rate in four long COVID patients compared to healthy controls. This study presents initial evidence of a potential underlying genetic predisposition to mitochondrial dysfunction in long COVID while demonstrating altered cellular energy capacity in a subset of these patients. These findings open avenues for further research into the role of mitochondrial dysfunction and pathology in patients suffering from long COVID and may pave the way for targeted therapeutic strategies aimed at mitigating mitochondrial dysfunction.

KW - Adult

KW - Aged

KW - COVID-19/metabolism

KW - Energy Metabolism

KW - Female

KW - Humans

KW - Leukocytes, Mononuclear/metabolism

KW - Male

KW - Middle Aged

KW - Mitochondria/metabolism

KW - Mitochondrial Diseases/genetics

KW - Post-Acute COVID-19 Syndrome

KW - Proteomics

KW - SARS-CoV-2/genetics

KW - Whole Genome Sequencing

KW - inborn error og immunity

KW - mitochondria

KW - COVID-19

KW - whole genome sequencing

KW - sequelae

KW - bioenergetics

UR - http://www.scopus.com/inward/record.url?scp=86000100523&partnerID=8YFLogxK

U2 - 10.1002/jmv.70275

DO - 10.1002/jmv.70275

M3 - Journal article

C2 - 40025839

SN - 0146-6615

VL - 97

JO - Journal of Medical Virology

JF - Journal of Medical Virology

IS - 3

M1 - e70275

ER -

Genetic Landscape and Mitochondrial Metabolic Dysregulation in Patients Suffering From Severe Long COVID

Abstract

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