The succinate prodrug NV354 prevents brain lesions and late-stage motor dysfunction in mitochondrial complex I deficiency

Meagan J. McManus; Yi Zhu; Cesar Alves; Neha Kohli; Patricia Prada-Dacasa; Laura Sanchez-Benito; Elisenda Sanz; Irene Yee; Lozen Robinson; Malkah Sheldon; Walter J. McHugh; Abhay Ranganathan; Jennie Meng; Nina Duncan; Alvar Grönberg; Douglas C. Wallace; Sarah Piel; Michael Karlsson; Steven J. Moss; Lee Webster; Magnus J. Hansson; Eskil Elmér; Johannes K. Ehinger; Albert Quintana; Todd J. Kilbaugh

doi:10.1016/j.isci.2026.114717

The succinate prodrug NV354 prevents brain lesions and late-stage motor dysfunction in mitochondrial complex I deficiency

Meagan J. McManus^*, Yi Zhu, Cesar Alves, Neha Kohli, Patricia Prada-Dacasa, Laura Sanchez-Benito, Elisenda Sanz, Irene Yee, Lozen Robinson, Malkah Sheldon, Walter J. McHugh, Abhay Ranganathan, Jennie Meng, Nina Duncan, Alvar Grönberg, Douglas C. Wallace, Sarah Piel, Michael Karlsson, Steven J. Moss, Lee WebsterMagnus J. Hansson, Eskil Elmér, Johannes K. Ehinger, Albert Quintana, Todd J. Kilbaugh

^*Corresponding author af dette arbejde

Afdeling for Hjerne- og Nervekirurgi NEU

Abstract

Leigh syndrome is a fatal pediatric neurodegenerative disease caused by mitochondrial dysfunction, which can be modeled in the Ndufs4 KO mouse with mitochondrial respiratory chain complex I (CI) deficiency. This study explores NV354, a prodrug of succinate with enhanced oral bioavailability and brain uptake, as a potential therapy to counteract this devastating condition. NV354 modulated whole-body respiration and metabolic flexibility, prevented late-stage motor dysfunction, delayed clinical ataxia scores, and improved body weight development, but had otherwise minimal effect on neurobehavior and lifespan of the animals. The succinate prodrug prevented development of the brain stem lesions pathognomonic for Leigh syndrome, attenuated neuronal loss in the brainstem, diminished activation of astrocytes, blocked hypertrophic microglial accumulation, and reduced reactive oxygen species (ROS) levels in the brain. NV354 also partially alleviated motor symptoms and metabolic decompensation in a rat model of Parkinson disease induced by the CI inhibitor rotenone. In conclusion, the succinate prodrug NV354 shows promise as a potential treatment of mitochondrial CI-related neurodegeneration.

Originalsprog	Engelsk
Artikelnummer	114717
Tidsskrift	iScience
Vol/bind	29
Udgave nummer	2
ISSN	2589-0042
DOI	https://doi.org/10.1016/j.isci.2026.114717
Status	Udgivet - 20 feb. 2026

Adgang til dokumentet

10.1016/j.isci.2026.114717Licens: CC BY

Andre filer og links

Link to publication in Scopus

Citationsformater

McManus, M. J., Zhu, Y., Alves, C., Kohli, N., Prada-Dacasa, P., Sanchez-Benito, L., Sanz, E., Yee, I., Robinson, L., Sheldon, M., McHugh, W. J., Ranganathan, A., Meng, J., Duncan, N., Grönberg, A., Wallace, D. C., Piel, S., Karlsson, M., Moss, S. J., ... Kilbaugh, T. J. (2026). The succinate prodrug NV354 prevents brain lesions and late-stage motor dysfunction in mitochondrial complex I deficiency. iScience, 29(2), Artikel 114717. https://doi.org/10.1016/j.isci.2026.114717

McManus, MJ, Zhu, Y, Alves, C, Kohli, N, Prada-Dacasa, P, Sanchez-Benito, L, Sanz, E, Yee, I, Robinson, L, Sheldon, M, McHugh, WJ, Ranganathan, A, Meng, J, Duncan, N, Grönberg, A, Wallace, DC, Piel, S, Karlsson, M, Moss, SJ, Webster, L, Hansson, MJ, Elmér, E, Ehinger, JK, Quintana, A & Kilbaugh, TJ 2026, 'The succinate prodrug NV354 prevents brain lesions and late-stage motor dysfunction in mitochondrial complex I deficiency', iScience, bind 29, nr. 2, 114717. https://doi.org/10.1016/j.isci.2026.114717

@article{2e598d321d034d9785966bb52179e86d,

title = "The succinate prodrug NV354 prevents brain lesions and late-stage motor dysfunction in mitochondrial complex I deficiency",

abstract = "Leigh syndrome is a fatal pediatric neurodegenerative disease caused by mitochondrial dysfunction, which can be modeled in the Ndufs4 KO mouse with mitochondrial respiratory chain complex I (CI) deficiency. This study explores NV354, a prodrug of succinate with enhanced oral bioavailability and brain uptake, as a potential therapy to counteract this devastating condition. NV354 modulated whole-body respiration and metabolic flexibility, prevented late-stage motor dysfunction, delayed clinical ataxia scores, and improved body weight development, but had otherwise minimal effect on neurobehavior and lifespan of the animals. The succinate prodrug prevented development of the brain stem lesions pathognomonic for Leigh syndrome, attenuated neuronal loss in the brainstem, diminished activation of astrocytes, blocked hypertrophic microglial accumulation, and reduced reactive oxygen species (ROS) levels in the brain. NV354 also partially alleviated motor symptoms and metabolic decompensation in a rat model of Parkinson disease induced by the CI inhibitor rotenone. In conclusion, the succinate prodrug NV354 shows promise as a potential treatment of mitochondrial CI-related neurodegeneration.",

keywords = "biochemistry, biological sciences, natural sciences, neuroscience",

author = "McManus, \{Meagan J.\} and Yi Zhu and Cesar Alves and Neha Kohli and Patricia Prada-Dacasa and Laura Sanchez-Benito and Elisenda Sanz and Irene Yee and Lozen Robinson and Malkah Sheldon and McHugh, \{Walter J.\} and Abhay Ranganathan and Jennie Meng and Nina Duncan and Alvar Gr{\"o}nberg and Wallace, \{Douglas C.\} and Sarah Piel and Michael Karlsson and Moss, \{Steven J.\} and Lee Webster and Hansson, \{Magnus J.\} and Eskil Elm{\'e}r and Ehinger, \{Johannes K.\} and Albert Quintana and Kilbaugh, \{Todd J.\}",

note = "Publisher Copyright: {\textcopyright} 2026 The Author(s)",

year = "2026",

month = feb,

day = "20",

doi = "10.1016/j.isci.2026.114717",

language = "English",

volume = "29",

journal = "iScience",

issn = "2589-0042",

publisher = "Elsevier Inc.",

number = "2",

}

TY - JOUR

T1 - The succinate prodrug NV354 prevents brain lesions and late-stage motor dysfunction in mitochondrial complex I deficiency

AU - McManus, Meagan J.

AU - Zhu, Yi

AU - Alves, Cesar

AU - Kohli, Neha

AU - Prada-Dacasa, Patricia

AU - Sanchez-Benito, Laura

AU - Sanz, Elisenda

AU - Yee, Irene

AU - Robinson, Lozen

AU - Sheldon, Malkah

AU - McHugh, Walter J.

AU - Ranganathan, Abhay

AU - Meng, Jennie

AU - Duncan, Nina

AU - Grönberg, Alvar

AU - Wallace, Douglas C.

AU - Piel, Sarah

AU - Karlsson, Michael

AU - Moss, Steven J.

AU - Webster, Lee

AU - Hansson, Magnus J.

AU - Elmér, Eskil

AU - Ehinger, Johannes K.

AU - Quintana, Albert

AU - Kilbaugh, Todd J.

PY - 2026/2/20

Y1 - 2026/2/20

N2 - Leigh syndrome is a fatal pediatric neurodegenerative disease caused by mitochondrial dysfunction, which can be modeled in the Ndufs4 KO mouse with mitochondrial respiratory chain complex I (CI) deficiency. This study explores NV354, a prodrug of succinate with enhanced oral bioavailability and brain uptake, as a potential therapy to counteract this devastating condition. NV354 modulated whole-body respiration and metabolic flexibility, prevented late-stage motor dysfunction, delayed clinical ataxia scores, and improved body weight development, but had otherwise minimal effect on neurobehavior and lifespan of the animals. The succinate prodrug prevented development of the brain stem lesions pathognomonic for Leigh syndrome, attenuated neuronal loss in the brainstem, diminished activation of astrocytes, blocked hypertrophic microglial accumulation, and reduced reactive oxygen species (ROS) levels in the brain. NV354 also partially alleviated motor symptoms and metabolic decompensation in a rat model of Parkinson disease induced by the CI inhibitor rotenone. In conclusion, the succinate prodrug NV354 shows promise as a potential treatment of mitochondrial CI-related neurodegeneration.

AB - Leigh syndrome is a fatal pediatric neurodegenerative disease caused by mitochondrial dysfunction, which can be modeled in the Ndufs4 KO mouse with mitochondrial respiratory chain complex I (CI) deficiency. This study explores NV354, a prodrug of succinate with enhanced oral bioavailability and brain uptake, as a potential therapy to counteract this devastating condition. NV354 modulated whole-body respiration and metabolic flexibility, prevented late-stage motor dysfunction, delayed clinical ataxia scores, and improved body weight development, but had otherwise minimal effect on neurobehavior and lifespan of the animals. The succinate prodrug prevented development of the brain stem lesions pathognomonic for Leigh syndrome, attenuated neuronal loss in the brainstem, diminished activation of astrocytes, blocked hypertrophic microglial accumulation, and reduced reactive oxygen species (ROS) levels in the brain. NV354 also partially alleviated motor symptoms and metabolic decompensation in a rat model of Parkinson disease induced by the CI inhibitor rotenone. In conclusion, the succinate prodrug NV354 shows promise as a potential treatment of mitochondrial CI-related neurodegeneration.

KW - biochemistry

KW - biological sciences

KW - natural sciences

KW - neuroscience

UR - https://www.scopus.com/pages/publications/105029138161

U2 - 10.1016/j.isci.2026.114717

DO - 10.1016/j.isci.2026.114717

M3 - Journal article

AN - SCOPUS:105029138161

SN - 2589-0042

VL - 29

JO - iScience

JF - iScience

IS - 2

M1 - 114717

ER -

The succinate prodrug NV354 prevents brain lesions and late-stage motor dysfunction in mitochondrial complex I deficiency

Abstract

Adgang til dokumentet

Andre filer og links

Fingeraftryk

Citationsformater