TY - JOUR
T1 - Phosphorylation and SCF-mediated degradation regulate CREB-H transcription of metabolic targets
AU - Barbosa, Sónia
AU - Carreira, Suzanne
AU - Bailey, Daniel
AU - Abaitua, Fernando
AU - O'Hare, Peter
N1 - Publisher Copyright:
© 2015 Barbosa, Carreira, et al.
PY - 2015/8/15
Y1 - 2015/8/15
N2 - CREB-H, an endoplasmic reticulum-anchored transcription factor, plays a key role in regulating secretion and in metabolic and inflammatory pathways, but how its activity is modulated remains unclear. We examined processing of the nuclear active form and identified a motif around S87-S90 with homology to DSG-type phosphodegrons. We show that this region is subject to multiple phosphorylations, which regulate CREB-H stability by targeting it to the SCF<>Fbw1a</> E3 ubiquitin ligase. Data from phosphatase treatment, use of phosophospecific antibody, and substitution of serine residues demonstrate phosphorylation of candidate serines in the region, with the core S87/S90 motif representing a critical determinant promoting proteasome-mediated degradation. Candidate kinases CKII and GSK-3b phosphorylate CREBH in vitro with specificities for different serines. Prior phosphorylation with GSK-3 at one or more of the adjacent serines substantially increases S87/S90-dependent phosphorylation by CKII. In vivo expression of a dominant-negative Cul1 enhances steady-state levels of CREB-H, an effect augmented by Fbw1a. CREB-H directly interacts with Fbw1a in a phosphorylationdependent manner. Finally, mutations within the phosphodegron, when incorporated into the full-length protein, result in increased levels of constitutively cleaved nuclear protein and increased transcription and secretion of a key endogenous target gene, apolipoprotein A IV.
AB - CREB-H, an endoplasmic reticulum-anchored transcription factor, plays a key role in regulating secretion and in metabolic and inflammatory pathways, but how its activity is modulated remains unclear. We examined processing of the nuclear active form and identified a motif around S87-S90 with homology to DSG-type phosphodegrons. We show that this region is subject to multiple phosphorylations, which regulate CREB-H stability by targeting it to the SCF<>Fbw1a</> E3 ubiquitin ligase. Data from phosphatase treatment, use of phosophospecific antibody, and substitution of serine residues demonstrate phosphorylation of candidate serines in the region, with the core S87/S90 motif representing a critical determinant promoting proteasome-mediated degradation. Candidate kinases CKII and GSK-3b phosphorylate CREBH in vitro with specificities for different serines. Prior phosphorylation with GSK-3 at one or more of the adjacent serines substantially increases S87/S90-dependent phosphorylation by CKII. In vivo expression of a dominant-negative Cul1 enhances steady-state levels of CREB-H, an effect augmented by Fbw1a. CREB-H directly interacts with Fbw1a in a phosphorylationdependent manner. Finally, mutations within the phosphodegron, when incorporated into the full-length protein, result in increased levels of constitutively cleaved nuclear protein and increased transcription and secretion of a key endogenous target gene, apolipoprotein A IV.
UR - http://www.scopus.com/inward/record.url?scp=84939454981&partnerID=8YFLogxK
U2 - 10.1091/mbc.E15-04-0247
DO - 10.1091/mbc.E15-04-0247
M3 - Article
C2 - 26108621
AN - SCOPUS:84939454981
SN - 1059-1524
VL - 26
SP - 2939
EP - 2954
JO - Molecular Biology of the Cell
JF - Molecular Biology of the Cell
IS - 16
ER -