PLoS Genetics (Jul 2018)

Role of Bicaudal C1 in renal gluconeogenesis and its novel interaction with the CTLH complex.

  • Lucia Carolina Leal-Esteban,
  • Benjamin Rothé,
  • Simon Fortier,
  • Manuela Isenschmid,
  • Daniel B Constam

DOI
https://doi.org/10.1371/journal.pgen.1007487
Journal volume & issue
Vol. 14, no. 7
p. e1007487

Abstract

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Altered glucose and lipid metabolism fuel cystic growth in polycystic kidneys, but the cause of these perturbations is unclear. Renal cysts also associate with mutations in Bicaudal C1 (Bicc1) or in its self-polymerizing sterile alpha motif (SAM). Here, we found that Bicc1 maintains normoglycemia and the expression of the gluconeogenic enzymes FBP1 and PEPCK in kidneys. A proteomic screen revealed that Bicc1 interacts with the C-Terminal to Lis-Homology domain (CTLH) complex. Since the orthologous Gid complex in S. cerevisae targets FBP1 and PEPCK for degradation, we mapped the topology among CTLH subunits and found that SAM-mediated binding controls Bicc1 protein levels, whereas Bicc1 inhibited the accumulation of several CTLH subunits. Under the conditions analyzed, Bicc1 increased FBP1 protein levels independently of the CTLH complex. Besides linking Bicc1 to cell metabolism, our findings reveal new layers of complexity in the regulation of renal gluconeogenesis compared to lower eukaryotes.