NAD+ precursors prolong survival and improve cardiac phenotypes in a mouse model of Friedreich’s Ataxia

Caroline E. Perry; Sarah M. Halawani; Sarmistha Mukherjee; Lucie V. Ngaba; Melissa Lieu; Won Dong Lee; James G. Davis; Gabriel K. Adzika; Alyssa N. Bebenek; Daniel D. Bazianos; Beishan Chen; Elizabeth Mercado-Ayon; Liam P. Flatley; Arjun P. Suryawanshi; Isabelle Ho; Joshua D. Rabinowitz; Suraj D. Serai; David M. Biko; Jaclyn Tamaroff; Anna DeDio; Kristin Wade; Kimberly Y. Lin; David J. Livingston; Shana E. McCormack; David R. Lynch; Joseph A. Baur

doi:10.1172/jci.insight.177152

NAD⁺ precursors prolong survival and improve cardiac phenotypes in a mouse model of Friedreich’s Ataxia

Caroline E. Perry
, Sarah M. Halawani
, Sarmistha Mukherjee
, Lucie V. Ngaba
, Melissa Lieu
, Won Dong Lee
, James G. Davis
, Gabriel K. Adzika
, Alyssa N. Bebenek
, Daniel D. Bazianos
, Beishan Chen
, Elizabeth Mercado-Ayon
, Liam P. Flatley
, Arjun P. Suryawanshi
, Isabelle Ho
, Joshua D. Rabinowitz
, Suraj D. Serai
, David M. Biko
, Jaclyn Tamaroff
, Anna DeDio

Kristin Wade, Kimberly Y. Lin, David J. Livingston, Shana E. McCormack, David R. Lynch, Joseph A. Baur

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

17 Scopus citations

Abstract

Friedreich’s ataxia (FRDA) is a progressive disorder caused by insufficient expression of frataxin, which plays a critical role in assembly of iron-sulfur centers in mitochondria. Individuals are cognitively normal but display a loss of motor coordination and cardiac abnormalities. Many ultimately develop heart failure. Administration of nicotinamide adenine dinucleotide–positive (NAD⁺) precursors has shown promise in human mitochondrial myopathy and rodent models of heart failure, including mice lacking frataxin in cardiomyocytes. We studied mice with systemic knockdown of frataxin (shFxn), which display motor deficits and early mortality with cardiac hypertrophy. Hearts in these mice do not “fail” per se but become hyperdynamic with small chamber sizes. Data from an ongoing natural history study indicate that hyperdynamic hearts are observed in young individuals with FRDA, suggesting that the mouse model could reflect early pathology. Administering nicotinamide mononucleotide or riboside to shFxn mice increases survival, modestly improves cardiac hypertrophy, and limits increases in ejection fraction. Mechanistically, most of the transcriptional and metabolic changes induced by frataxin knockdown are insensitive to NAD⁺ precursor administration, but glutathione levels are increased, suggesting improved antioxidant capacity. Overall, our findings indicate that NAD⁺ precursors are modestly cardioprotective in this model of FRDA and warrant further investigation.

Original language	English (US)
Article number	e177152
Journal	JCI Insight
Volume	9
Issue number	16
DOIs	https://doi.org/10.1172/jci.insight.177152
State	Published - Aug 22 2024

All Science Journal Classification (ASJC) codes

General Medicine

Access to Document

10.1172/jci.insight.177152

Cite this

Perry, C. E., Halawani, S. M., Mukherjee, S., Ngaba, L. V., Lieu, M., Lee, W. D., Davis, J. G., Adzika, G. K., Bebenek, A. N., Bazianos, D. D., Chen, B., Mercado-Ayon, E., Flatley, L. P., Suryawanshi, A. P., Ho, I., Rabinowitz, J. D., Serai, S. D., Biko, D. M., Tamaroff, J., ... Baur, J. A. (2024). NAD⁺ precursors prolong survival and improve cardiac phenotypes in a mouse model of Friedreich’s Ataxia. JCI Insight, 9(16), Article e177152. https://doi.org/10.1172/jci.insight.177152

@article{789e15ff8b9046d6bcdb6f86e37a3008,

title = "NAD+ precursors prolong survival and improve cardiac phenotypes in a mouse model of Friedreich{\textquoteright}s Ataxia",

abstract = "Friedreich{\textquoteright}s ataxia (FRDA) is a progressive disorder caused by insufficient expression of frataxin, which plays a critical role in assembly of iron-sulfur centers in mitochondria. Individuals are cognitively normal but display a loss of motor coordination and cardiac abnormalities. Many ultimately develop heart failure. Administration of nicotinamide adenine dinucleotide–positive (NAD+) precursors has shown promise in human mitochondrial myopathy and rodent models of heart failure, including mice lacking frataxin in cardiomyocytes. We studied mice with systemic knockdown of frataxin (shFxn), which display motor deficits and early mortality with cardiac hypertrophy. Hearts in these mice do not “fail” per se but become hyperdynamic with small chamber sizes. Data from an ongoing natural history study indicate that hyperdynamic hearts are observed in young individuals with FRDA, suggesting that the mouse model could reflect early pathology. Administering nicotinamide mononucleotide or riboside to shFxn mice increases survival, modestly improves cardiac hypertrophy, and limits increases in ejection fraction. Mechanistically, most of the transcriptional and metabolic changes induced by frataxin knockdown are insensitive to NAD+ precursor administration, but glutathione levels are increased, suggesting improved antioxidant capacity. Overall, our findings indicate that NAD+ precursors are modestly cardioprotective in this model of FRDA and warrant further investigation.",

author = "Perry, \{Caroline E.\} and Halawani, \{Sarah M.\} and Sarmistha Mukherjee and Ngaba, \{Lucie V.\} and Melissa Lieu and Lee, \{Won Dong\} and Davis, \{James G.\} and Adzika, \{Gabriel K.\} and Bebenek, \{Alyssa N.\} and Bazianos, \{Daniel D.\} and Beishan Chen and Elizabeth Mercado-Ayon and Flatley, \{Liam P.\} and Suryawanshi, \{Arjun P.\} and Isabelle Ho and Rabinowitz, \{Joshua D.\} and Serai, \{Suraj D.\} and Biko, \{David M.\} and Jaclyn Tamaroff and Anna DeDio and Kristin Wade and Lin, \{Kimberly Y.\} and Livingston, \{David J.\} and McCormack, \{Shana E.\} and Lynch, \{David R.\} and Baur, \{Joseph A.\}",

note = "Publisher Copyright: {\textcopyright} 2024, Perry et al.",

year = "2024",

month = aug,

day = "22",

doi = "10.1172/jci.insight.177152",

language = "English (US)",

volume = "9",

journal = "JCI Insight",

issn = "2379-3708",

publisher = "American Society for Clinical Investigation",

number = "16",

}

Perry, CE, Halawani, SM, Mukherjee, S, Ngaba, LV, Lieu, M, Lee, WD, Davis, JG, Adzika, GK, Bebenek, AN, Bazianos, DD, Chen, B, Mercado-Ayon, E, Flatley, LP, Suryawanshi, AP, Ho, I, Rabinowitz, JD, Serai, SD, Biko, DM, Tamaroff, J, DeDio, A, Wade, K, Lin, KY, Livingston, DJ, McCormack, SE, Lynch, DR & Baur, JA 2024, 'NAD⁺ precursors prolong survival and improve cardiac phenotypes in a mouse model of Friedreich’s Ataxia', JCI Insight, vol. 9, no. 16, e177152. https://doi.org/10.1172/jci.insight.177152

TY - JOUR

T1 - NAD+ precursors prolong survival and improve cardiac phenotypes in a mouse model of Friedreich’s Ataxia

AU - Perry, Caroline E.

AU - Halawani, Sarah M.

AU - Mukherjee, Sarmistha

AU - Ngaba, Lucie V.

AU - Lieu, Melissa

AU - Lee, Won Dong

AU - Davis, James G.

AU - Adzika, Gabriel K.

AU - Bebenek, Alyssa N.

AU - Bazianos, Daniel D.

AU - Chen, Beishan

AU - Mercado-Ayon, Elizabeth

AU - Flatley, Liam P.

AU - Suryawanshi, Arjun P.

AU - Ho, Isabelle

AU - Rabinowitz, Joshua D.

AU - Serai, Suraj D.

AU - Biko, David M.

AU - Tamaroff, Jaclyn

AU - DeDio, Anna

AU - Wade, Kristin

AU - Lin, Kimberly Y.

AU - Livingston, David J.

AU - McCormack, Shana E.

AU - Lynch, David R.

AU - Baur, Joseph A.

PY - 2024/8/22

Y1 - 2024/8/22

N2 - Friedreich’s ataxia (FRDA) is a progressive disorder caused by insufficient expression of frataxin, which plays a critical role in assembly of iron-sulfur centers in mitochondria. Individuals are cognitively normal but display a loss of motor coordination and cardiac abnormalities. Many ultimately develop heart failure. Administration of nicotinamide adenine dinucleotide–positive (NAD+) precursors has shown promise in human mitochondrial myopathy and rodent models of heart failure, including mice lacking frataxin in cardiomyocytes. We studied mice with systemic knockdown of frataxin (shFxn), which display motor deficits and early mortality with cardiac hypertrophy. Hearts in these mice do not “fail” per se but become hyperdynamic with small chamber sizes. Data from an ongoing natural history study indicate that hyperdynamic hearts are observed in young individuals with FRDA, suggesting that the mouse model could reflect early pathology. Administering nicotinamide mononucleotide or riboside to shFxn mice increases survival, modestly improves cardiac hypertrophy, and limits increases in ejection fraction. Mechanistically, most of the transcriptional and metabolic changes induced by frataxin knockdown are insensitive to NAD+ precursor administration, but glutathione levels are increased, suggesting improved antioxidant capacity. Overall, our findings indicate that NAD+ precursors are modestly cardioprotective in this model of FRDA and warrant further investigation.

AB - Friedreich’s ataxia (FRDA) is a progressive disorder caused by insufficient expression of frataxin, which plays a critical role in assembly of iron-sulfur centers in mitochondria. Individuals are cognitively normal but display a loss of motor coordination and cardiac abnormalities. Many ultimately develop heart failure. Administration of nicotinamide adenine dinucleotide–positive (NAD+) precursors has shown promise in human mitochondrial myopathy and rodent models of heart failure, including mice lacking frataxin in cardiomyocytes. We studied mice with systemic knockdown of frataxin (shFxn), which display motor deficits and early mortality with cardiac hypertrophy. Hearts in these mice do not “fail” per se but become hyperdynamic with small chamber sizes. Data from an ongoing natural history study indicate that hyperdynamic hearts are observed in young individuals with FRDA, suggesting that the mouse model could reflect early pathology. Administering nicotinamide mononucleotide or riboside to shFxn mice increases survival, modestly improves cardiac hypertrophy, and limits increases in ejection fraction. Mechanistically, most of the transcriptional and metabolic changes induced by frataxin knockdown are insensitive to NAD+ precursor administration, but glutathione levels are increased, suggesting improved antioxidant capacity. Overall, our findings indicate that NAD+ precursors are modestly cardioprotective in this model of FRDA and warrant further investigation.

UR - https://www.scopus.com/pages/publications/85202005095

UR - https://www.scopus.com/pages/publications/85202005095#tab=citedBy

U2 - 10.1172/jci.insight.177152

DO - 10.1172/jci.insight.177152

M3 - Article

C2 - 39171530

AN - SCOPUS:85202005095

SN - 2379-3708

VL - 9

JO - JCI Insight

JF - JCI Insight

IS - 16

M1 - e177152

ER -

NAD⁺ precursors prolong survival and improve cardiac phenotypes in a mouse model of Friedreich’s Ataxia

Abstract

All Science Journal Classification (ASJC) codes

Access to Document

Other files and links

Fingerprint

Cite this