Circulating N-lactoyl-amino acids and N-formyl-methionine reflect mitochondrial dysfunction and predict mortality in septic shock.
Kynurenine
Lac-Phe
Lactoyl
Sepsis
Septic shock
f-Met
Journal
Metabolomics : Official journal of the Metabolomic Society
ISSN: 1573-3890
Titre abrégé: Metabolomics
Pays: United States
ID NLM: 101274889
Informations de publication
Date de publication:
06 Mar 2024
06 Mar 2024
Historique:
received:
04
08
2023
accepted:
11
01
2024
medline:
7
3
2024
pubmed:
6
3
2024
entrez:
6
3
2024
Statut:
epublish
Résumé
Sepsis is a highly morbid condition characterized by multi-organ dysfunction resulting from dysregulated inflammation in response to acute infection. Mitochondrial dysfunction may contribute to sepsis pathogenesis, but quantifying mitochondrial dysfunction remains challenging. To assess the extent to which circulating markers of mitochondrial dysfunction are increased in septic shock, and their relationship to severity and mortality. We performed both full-scan and targeted (known markers of genetic mitochondrial disease) metabolomics on plasma to determine markers of mitochondrial dysfunction which distinguish subjects with septic shock (n = 42) from cardiogenic shock without infection (n = 19), bacteremia without sepsis (n = 18), and ambulatory controls (n = 19) - the latter three being conditions in which mitochondrial function, proxied by peripheral oxygen consumption, is presumed intact. Nine metabolites were significantly increased in septic shock compared to all three comparator groups. This list includes N-formyl-L-methionine (f-Met), a marker of dysregulated mitochondrial protein translation, and N-lactoyl-phenylalanine (lac-Phe), representative of the N-lactoyl-amino acids (lac-AAs), which are elevated in plasma of patients with monogenic mitochondrial disease. Compared to lactate, the clinical biomarker used to define septic shock, there was greater separation between survivors and non-survivors of septic shock for both f-Met and the lac-AAs measured within 24 h of ICU admission. Additionally, tryptophan was the one metabolite significantly decreased in septic shock compared to all other groups, while its breakdown product kynurenate was one of the 9 significantly increased. Future studies which validate the measurement of lac-AAs and f-Met in conjunction with lactate could define a sepsis subtype characterized by mitochondrial dysfunction.
Identifiants
pubmed: 38446263
doi: 10.1007/s11306-024-02089-z
pii: 10.1007/s11306-024-02089-z
pmc: PMC10917846
doi:
Substances chimiques
Amino Acids
0
N-Formylmethionine
4289-98-9
Methionine
AE28F7PNPL
Lactic Acid
33X04XA5AT
Racemethionine
73JWT2K6T3
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
36Subventions
Organisme : Parker B. Francis Family Foundation
ID : Fellowship Award - Robert Rogers - 2020
Organisme : MGH Molecular Biology -- Mootha Lab Sundry Fund
ID : 2011A052081
Organisme : MGH Molecular Biology -- Mootha Lab Sundry Fund
ID : 2011A052081
Organisme : MGH Molecular Biology -- Mootha Lab Sundry Fund
ID : 2011A052081
Organisme : MGH Molecular Biology -- Mootha Lab Sundry Fund
ID : 2011A052081
Organisme : MGH Molecular Biology -- Mootha Lab Sundry Fund
ID : 2011A052081
Organisme : MGH Molecular Biology -- Mootha Lab Sundry Fund
ID : 2011A052081
Organisme : MGH Molecular Biology -- Mootha Lab Sundry Fund
ID : 2011A052081
Organisme : MGH Molecular Biology -- Mootha Lab Sundry Fund
ID : 2011A052081
Organisme : MGH Molecular Biology -- Mootha Lab Sundry Fund
ID : 2011A052081
Organisme : J. Willard and Alice S. Marriott Foundation
ID : Gift - No Grant ID
Organisme : J. Willard and Alice S. Marriott Foundation
ID : Gift - No Grant ID
Organisme : J. Willard and Alice S. Marriott Foundation
ID : Gift - No Grant ID
Informations de copyright
© 2024. The Author(s).
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