PLoS Genetics (Feb 2017)

ATP6V1H Deficiency Impairs Bone Development through Activation of MMP9 and MMP13.

  • Yihan Zhang,
  • Haigen Huang,
  • Gexin Zhao,
  • Tadafumi Yokoyama,
  • Hugo Vega,
  • Yan Huang,
  • Raman Sood,
  • Kevin Bishop,
  • Valerie Maduro,
  • John Accardi,
  • Camilo Toro,
  • Cornelius F Boerkoel,
  • Karen Lyons,
  • William A Gahl,
  • Xiaohong Duan,
  • May Christine V Malicdan,
  • Shuo Lin

DOI
https://doi.org/10.1371/journal.pgen.1006481
Journal volume & issue
Vol. 13, no. 2
p. e1006481

Abstract

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ATP6V1H is a component of a large protein complex with vacuolar ATPase (V-ATPase) activity. We identified two generations of individuals in which short stature and osteoporosis co-segregated with a mutation in ATP6V1H. Since V-ATPases are highly conserved between human and zebrafish, we generated loss-of-function mutants in atp6v1h in zebrafish through CRISPR/Cas9-mediated gene knockout. Homozygous mutant atp6v1h zebrafish exhibited a severe reduction in the number of mature calcified bone cells and a dramatic increase in the expression of mmp9 and mmp13. Heterozygous adults showed curved vertebra that lack calcified centrum structure and reduced bone mass and density. Treatment of mutant embryos with small molecule inhibitors of MMP9 and MMP13 significantly restored bone mass in the atp6v1h mutants. These studies have uncovered a new, ATP6V1H-mediated pathway that regulates bone formation, and defines a new mechanism of disease that leads to bone loss. We propose that MMP9/MMP13 could be therapeutic targets for patients with this rare genetic disease.