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Dual mRNA therapy restores metabolic function in long-term studies in mice with propionic acidemia

Author

Listed:
  • Lei Jiang

    (Moderna Inc., 200 Technology Square)

  • Ji-Sun Park

    (Moderna Inc., 200 Technology Square)

  • Ling Yin

    (Moderna Inc., 200 Technology Square)

  • Rodrigo Laureano

    (Moderna Inc., 200 Technology Square)

  • Eric Jacquinet

    (Moderna Inc., 200 Technology Square)

  • Jinsong Yang

    (Moderna Inc., 200 Technology Square)

  • Shi Liang

    (Moderna Inc., 200 Technology Square)

  • Andrea Frassetto

    (Moderna Inc., 200 Technology Square)

  • Jenny Zhuo

    (Moderna Inc., 200 Technology Square)

  • Xinhua Yan

    (Moderna Inc., 200 Technology Square)

  • Xuling Zhu

    (Moderna Inc., 200 Technology Square)

  • Steven Fortucci

    (Moderna Inc., 200 Technology Square)

  • Kara Hoar

    (Moderna Inc., 200 Technology Square)

  • Cosmin Mihai

    (Moderna Inc., 200 Technology Square)

  • Christopher Tunkey

    (Moderna Inc., 200 Technology Square)

  • Vlad Presnyak

    (Moderna Inc., 200 Technology Square)

  • Kerry E. Benenato

    (Moderna Inc., 200 Technology Square)

  • Christine M. Lukacs

    (Moderna Inc., 200 Technology Square)

  • Paolo G. V. Martini

    (Moderna Inc., 200 Technology Square)

  • Lin T. Guey

    (Moderna Inc., 200 Technology Square)

Abstract

Propionic acidemia/aciduria (PA) is an ultra-rare, life-threatening, inherited metabolic disorder caused by deficiency of the mitochondrial enzyme, propionyl-CoA carboxylase (PCC) composed of six alpha (PCCA) and six beta (PCCB) subunits. We herein report an enzyme replacement approach to treat PA using a combination of two messenger RNAs (mRNAs) (dual mRNAs) encoding both human PCCA (hPCCA) and PCCB (hPCCB) encapsulated in biodegradable lipid nanoparticles (LNPs) to produce functional PCC enzyme in liver. In patient fibroblasts, dual mRNAs encoded proteins localize in mitochondria and produce higher PCC enzyme activity vs. single (PCCA or PCCB) mRNA alone. In a hypomorphic murine model of PA, dual mRNAs normalize ammonia similarly to carglumic acid, a drug approved in Europe for the treatment of hyperammonemia due to PA. Dual mRNAs additionally restore functional PCC enzyme in liver and thus reduce primary disease-associated toxins in a dose-dependent manner in long-term 3- and 6-month repeat-dose studies in PA mice. Dual mRNAs are well-tolerated in these studies with no adverse findings. These studies demonstrate the potential of mRNA technology to chronically administer multiple mRNAs to produce large complex enzymes, with applicability to other genetic disorders.

Suggested Citation

  • Lei Jiang & Ji-Sun Park & Ling Yin & Rodrigo Laureano & Eric Jacquinet & Jinsong Yang & Shi Liang & Andrea Frassetto & Jenny Zhuo & Xinhua Yan & Xuling Zhu & Steven Fortucci & Kara Hoar & Cosmin Mihai, 2020. "Dual mRNA therapy restores metabolic function in long-term studies in mice with propionic acidemia," Nature Communications, Nature, vol. 11(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19156-3
    DOI: 10.1038/s41467-020-19156-3
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    Cited by:

    1. Rena Baek & Kimberly Coughlan & Lei Jiang & Min Liang & Lei Ci & Harkewal Singh & Hannah Zhang & Neeraj Kaushal & Ivana Liric Rajlic & Linh Van & Rain Dimen & Alexander Cavedon & Ling Yin & Lisa Rice , 2024. "Characterizing the mechanism of action for mRNA therapeutics for the treatment of propionic acidemia, methylmalonic acidemia, and phenylketonuria," Nature Communications, Nature, vol. 15(1), pages 1-13, December.

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