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Structural basis for defective membrane targeting of mutant enzyme in human VLCAD deficiency

Author

Listed:
  • Michelle S. Prew

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Christina M. Camara

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Thomas Botzanowski

    (Northeastern University)

  • Jamie A. Moroco

    (Northeastern University)

  • Noah B. Bloch

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Hannah R. Levy

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Hyuk-Soo Seo

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Sirano Dhe-Paganon

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Gregory H. Bird

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Henry D. Herce

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Micah A. Gygi

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Silvia Escudero

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

  • Thomas E. Wales

    (Northeastern University)

  • John R. Engen

    (Northeastern University)

  • Loren D. Walensky

    (Dana-Farber Cancer Institute
    Dana-Farber Cancer Institute)

Abstract

Very long-chain acyl-CoA dehydrogenase (VLCAD) is an inner mitochondrial membrane enzyme that catalyzes the first and rate-limiting step of long-chain fatty acid oxidation. Point mutations in human VLCAD can produce an inborn error of metabolism called VLCAD deficiency that can lead to severe pathophysiologic consequences, including cardiomyopathy, hypoglycemia, and rhabdomyolysis. Discrete mutations in a structurally-uncharacterized C-terminal domain region of VLCAD cause enzymatic deficiency by an incompletely defined mechanism. Here, we conducted a structure-function study, incorporating X-ray crystallography, hydrogen-deuterium exchange mass spectrometry, computational modeling, and biochemical analyses, to characterize a specific membrane interaction defect of full-length, human VLCAD bearing the clinically-observed mutations, A450P or L462P. By disrupting a predicted α-helical hairpin, these mutations either partially or completely impair direct interaction with the membrane itself. Thus, our data support a structural basis for VLCAD deficiency in patients with discrete mutations in an α-helical membrane-binding motif, resulting in pathologic enzyme mislocalization.

Suggested Citation

  • Michelle S. Prew & Christina M. Camara & Thomas Botzanowski & Jamie A. Moroco & Noah B. Bloch & Hannah R. Levy & Hyuk-Soo Seo & Sirano Dhe-Paganon & Gregory H. Bird & Henry D. Herce & Micah A. Gygi & , 2022. "Structural basis for defective membrane targeting of mutant enzyme in human VLCAD deficiency," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31466-2
    DOI: 10.1038/s41467-022-31466-2
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    1. Lindsay McGregor & Samira Acajjaoui & Ambroise Desfosses & Melissa Saïdi & Maria Bacia-Verloop & Jennifer J. Schwarz & Pauline Juyoux & Jill Velsen & Matthew W. Bowler & Andrew A. McCarthy & Eaazhisai, 2023. "The assembly of the Mitochondrial Complex I Assembly complex uncovers a redox pathway coordination," Nature Communications, Nature, vol. 14(1), pages 1-17, December.

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