Abstract
Signaling by hormonal vitamin D, 1,25-dihydroxyvitamin D (1,25D) has attracted increasing interest because of its non-classical actions, particularly its putative anticancer properties and its role in controlling immune system function. Notably, the hormone-bound vitamin D receptor (VDR) suppresses signaling by pro-inflammatory NF-κB transcription factors, although the underlying mechanisms have remained elusive. Recently, the VDR was shown to enhance the turnover of the oncogenic transcription factor cMYC mediated by the E3 ligase and tumor suppressor FBW7. As FBW7 also controls the turnover of the p100 (NF-κB2) subunit of the family, we determined whether the 1,25D enhanced FBW7-dependent turnover of NF-κB subunits p100, p105 (NF-κB1) and p65 (RELA). Protein levels of all three subunits declined markedly in the presence of 1,25D in multiple cell lines in the absence of substantial changes in mRNA expression. The VDR coimmunoprecipitated with all three subunits, and 1,25D treatment accelerated subunit turnover in cycloheximide-treated cells. Importantly, we observed an association of FBW7 with p105 and p65, as well as p100, and knockdown of FBW7 eliminated 1,25D-dependent subunit turnover. Moreover, expression of NF-κB target genes was elevated in FBW7-depleted cells. These results reveal that 1,25D signaling suppresses NF-κB function by enhancing FBW7-dependent subunit turnover.
Highlights
The NF-κ B family consists of five members: NF-κ B1 (p50 and precursor p105), NF-κ B2 (p52 and precursor p100), RELA (p65), RELB and REL (c-Rel), which form homo- or heterodimers to promote inflammatory responses through two pathways[21,22,23]
Pro-tumorigenic effects of NF-κ B occur in colorectal cancer, head and neck squamous cell carcinoma (HNSCC), glioblastoma, Hodgkin’s disease, hepatitis-associated hepatocellular carcinoma and multiple myeloma[29,30]
Other work revealed that the vitamin D receptor (VDR) can regulate the FBW7-dependent proteasomal turnover of the oncogenic transcription factor cMYC and its antagonist MAD1/MXD138
Summary
The NF-κ B family consists of five members: NF-κ B1 (p50 and precursor p105), NF-κ B2 (p52 and precursor p100), RELA (p65), RELB and REL (c-Rel), which form homo- or heterodimers to promote inflammatory responses through two pathways[21,22,23]. Recent studies showed that the non-canonical, p52/p100 (NF-κ B2) pathway is inhibited via proteasomal turnover mediated by F-box protein FBW7, an E3-ubiquitin ligase and tumor suppressor[27,36,37]. We hypothesized that vitamin D signaling suppresses NF-κ B function by stimulating FBW7-mediated turnover of its subunits and studied the role of the VDR and FBW7 in controlling target protein turnover of NF-κ B subunits of both the canonical and non-canonical pathways.
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