Scientific Reports (Dec 2021)

Post-translational modifications by SIRT3 de-2-hydroxyisobutyrylase activity regulate glycolysis and enable nephrogenesis

  • Luca Perico,
  • Marina Morigi,
  • Anna Pezzotta,
  • Daniela Corna,
  • Valerio Brizi,
  • Sara Conti,
  • Cristina Zanchi,
  • Fabio Sangalli,
  • Piera Trionfini,
  • Sara Buttò,
  • Christodoulos Xinaris,
  • Susanna Tomasoni,
  • Carlamaria Zoja,
  • Giuseppe Remuzzi,
  • Ariela Benigni,
  • Barbara Imberti

DOI
https://doi.org/10.1038/s41598-021-03039-8
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 18

Abstract

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Abstract Abnormal kidney development leads to lower nephron number, predisposing to renal diseases in adulthood. In embryonic kidneys, nephron endowment is dictated by the availability of nephron progenitors, whose self-renewal and differentiation require a relatively repressed chromatin state. More recently, NAD+-dependent deacetylase sirtuins (SIRTs) have emerged as possible regulators that link epigenetic processes to the metabolism. Here, we discovered a novel role for the NAD+-dependent deacylase SIRT3 in kidney development. In the embryonic kidney, SIRT3 was highly expressed only as a short isoform, with nuclear and extra-nuclear localisation. The nuclear SIRT3 did not act as deacetylase but exerted de-2-hydroxyisobutyrylase activity on lysine residues of histone proteins. Extra-nuclear SIRT3 regulated lysine 2-hydroxyisobutyrylation (Khib) levels of phosphofructokinase (PFK) and Sirt3 deficiency increased PFK Khib levels, inducing a glycolysis boost. This altered Khib landscape in Sirt3 −/− metanephroi was associated with decreased nephron progenitors, impaired nephrogenesis and a reduced number of nephrons. These data describe an unprecedented role of SIRT3 in controlling early renal development through the regulation of epigenetics and metabolic processes.