Lipodystrophy in methylmalonic acidemia associated with elevated FGF21 and abnormal methylmalonylation
Irini Manoli, Justin R. Sysol, PamelaSara E. Head, Madeline W. Epping, Oksana Gavrilova, Melissa K. Crocker, Jennifer L. Sloan, Stefanos A. Koutsoukos, Cindy Wang, Yiouli P. Ktena, Sophia Mendelson, Alexandra R. Pass, Patricia M. Zerfas, Victoria Hoffmann, Hilary J. Vernon, Laura A. Fletcher, James C. Reynolds, Maria G. Tsokos, Constantine A. Stratakis, Stephan D. Voss, Kong Y. Chen, Rebecca J. Brown, Ada Hamosh, Gerard T. Berry, Xiaoyuan Shawn Chen, Jack A. Yanovski, Charles P. Venditti
Irini Manoli, Justin R. Sysol, PamelaSara E. Head, Madeline W. Epping, Oksana Gavrilova, Melissa K. Crocker, Jennifer L. Sloan, Stefanos A. Koutsoukos, Cindy Wang, Yiouli P. Ktena, Sophia Mendelson, Alexandra R. Pass, Patricia M. Zerfas, Victoria Hoffmann, Hilary J. Vernon, Laura A. Fletcher, James C. Reynolds, Maria G. Tsokos, Constantine A. Stratakis, Stephan D. Voss, Kong Y. Chen, Rebecca J. Brown, Ada Hamosh, Gerard T. Berry, Xiaoyuan Shawn Chen, Jack A. Yanovski, Charles P. Venditti
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Research Article Genetics Therapeutics

Lipodystrophy in methylmalonic acidemia associated with elevated FGF21 and abnormal methylmalonylation

Abstract

A distinct adipose tissue distribution pattern was observed in patients with methylmalonyl-CoA mutase deficiency, an inborn error of branched-chain amino acid (BCAA) metabolism, characterized by centripetal obesity with proximal upper and lower extremity fat deposition and paucity of visceral fat, that resembles familial multiple lipomatosis syndrome. To explore brown and white fat physiology in methylmalonic acidemia (MMA), body composition, adipokines, and inflammatory markers were assessed in 46 patients with MMA and 99 matched controls. Fibroblast growth factor 21 levels were associated with acyl-CoA accretion, aberrant methylmalonylation in adipose tissue, and an attenuated inflammatory cytokine profile. In parallel, brown and white fat were examined in a liver-specific transgenic MMA mouse model (Mmut–/– TgINS-Alb-Mmut). The MMA mice exhibited abnormal nonshivering thermogenesis with whitened brown fat and had an ineffective transcriptional response to cold stress. Treatment of the MMA mice with bezafibrates led to clinical improvement with beiging of subcutaneous fat depots, which resembled the distribution seen in the patients. These studies defined what we believe to be a novel lipodystrophy phenotype in patients with defects in the terminal steps of BCAA oxidation and demonstrated that beiging of subcutaneous adipose tissue in MMA could readily be induced with small molecules.

Authors

Irini Manoli, Justin R. Sysol, PamelaSara E. Head, Madeline W. Epping, Oksana Gavrilova, Melissa K. Crocker, Jennifer L. Sloan, Stefanos A. Koutsoukos, Cindy Wang, Yiouli P. Ktena, Sophia Mendelson, Alexandra R. Pass, Patricia M. Zerfas, Victoria Hoffmann, Hilary J. Vernon, Laura A. Fletcher, James C. Reynolds, Maria G. Tsokos, Constantine A. Stratakis, Stephan D. Voss, Kong Y. Chen, Rebecca J. Brown, Ada Hamosh, Gerard T. Berry, Xiaoyuan Shawn Chen, Jack A. Yanovski, Charles P. Venditti

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Figure 5

FGF21 is associated with beiging of subcutaneous fat depots and acyl-CoA trapping.

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FGF21 is associated with beiging of subcutaneous fat depots and acyl-CoA...
(A) In the MMA patient cohort, FGF21 concentrations correlated with the abnormal body composition observed in lower extremities and (B) with an increased energy expenditure per kilogram fat-free mass. (C) Immunoblotting of selected mitochondrial or beige fat markers is depicted in subcutaneous adipose tissues of 2 young adult female control participants undergoing postmortem examinations at the NIH Clinical Center, and 2 female participants with mut0 MMA: upper anterior chest wall subcutaneous fat of the index case obtained during a central line removal and the upper arm subcutaneous fat of a woman in Figure 1D, obtained during a postmortem exam at age 34 years. While no significant differences were observed in the expression of PGC-1α, MFN2, and DIO2, higher density bands were evident in patients with mut0 MMA for SIRT1, UCP1, SIRT5, and FGF21. (D) Combined PET/CT imaging study showing extensive subcutaneous uptake of 18F-FDG (yellow arrows), over the shoulders and gluteal area/upper thighs in a 13-year-old girl with mut0 MMA. Standard Uptake Values of 18F-FDG are provided in Supplemental Figure 4. (E) Circulating FGF21 in the MMA patient cohort correlated with the acyl-CoA species accumulation (propionyl-C3 and methylmalonyl-C4DC carnitine) reflected in the increased circulating acyl- to free carnitine plasma ratio. (F) Posttranslational modifications (PTMs), including methylmalonylation, propionylation, acetylation, and succinylation, are shown in subcutaneous tissues of participants with mut0 MMA compared with controls. The biggest differences were observed in lysine residue methylmalonyl — PTMs that were completely absent from control WAT.