HOXA1 binds RBCK1/HOIL-1 and TRAF2 and modulates the TNF/NF-κB pathway in a transcription-independent manner

Taminiau, Arnaud; Draime, Amandine; Tys, Janne; Lambert, Barbara; Vandeputte, Julie; Nguyen, Nathan; Renard, Patricia; Geerts, Dirk; Rezsöhazy, René

doi:10.1093/nar/gkw606

Cited by 56 publications

(68 citation statements)

References 68 publications

(107 reference statements)

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“…Loss-of-function and lineage studies have implicated Hoxa1 in development of the inner ear, heart, neural crest specification, and hindbrain patterning (31)(32)(33). Growing evidence suggests roles for Hoxa1 in etiology of various cancers through modulation of cell proliferation, invasion, and metastasis (34)(35)(36)(37). These diverse functional roles for Hoxa1 appear to be at least partially related to its ability to influence key signaling pathways in differentiating cells (35).…”

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confidence: 99%

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Dynamic regulation of Nanog and stem cell-signaling pathways by Hoxa1 during early neuro-ectodermal differentiation of ES cells

Kumar

Parker

Parrish

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Homeobox a1 (Hoxa1) is one of the most rapidly induced genes in ES cell differentiation and it is the earliest expressed Hox gene in the mouse embryo. In this study, we used genomic approaches to identify Hoxa1-bound regions during early stages of ES cell differentiation into the neuro-ectoderm. Within 2 h of retinoic acid treatment, Hoxa1 is rapidly recruited to target sites that are associated with genes involved in regulation of pluripotency, and these genes display early changes in expression. The pattern of occupancy of Hoxa1 is dynamic and changes over time. At 12 h of differentiation, many sites bound at 2 h are lost and a new cohort of bound regions appears. At both time points the genome-wide mapping reveals that there is significant co-occupancy of Nanog (Nanog homeobox) and Hoxa1 on many common target sites, and these are linked to genes in the pluripotential regulatory network. In addition to shared target genes, Hoxa1 binds to regulatory regions of Nanog, and conversely Nanog binds to a 3′ enhancer of Hoxa1. This finding provides evidence for direct cross-regulatory feedback between Hoxa1 and Nanog through a mechanism of mutual repression. Hoxa1 also binds to regulatory regions of Sox2 (sex-determining region Y box 2), Esrrb (estrogen-related receptor beta), and Myc, which underscores its key input into core components of the pluripotential regulatory network. We propose a model whereby direct inputs of Nanog and Hoxa1 on shared targets and mutual repression between Hoxa1 and the core pluripotency network provides a molecular mechanism that modulates the fine balance between the alternate states of pluripotency and differentiation.

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confidence: 99%

“…Growing evidence suggests roles for Hoxa1 in etiology of various cancers through modulation of cell proliferation, invasion, and metastasis (34)(35)(36)(37). These diverse functional roles for Hoxa1 appear to be at least partially related to its ability to influence key signaling pathways in differentiating cells (35).…”

mentioning

confidence: 99%

Dynamic regulation of Nanog and stem cell-signaling pathways by Hoxa1 during early neuro-ectodermal differentiation of ES cells

Kumar

Parker

Parrish

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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“…Analysis was also made of HOXA1 expression and an upregulated expression was observed by the high protein diet. Overexpression of HOXA1 is shown to cause an increased inflammatory response by interacting with signal transducers involved in the TNF/NF‐κB pathway, thereby causing increased secretion of pro‐inflammatory biomarkers including TNFα and IL‐8 . In addition, the differentially expressed miRNAs (miR‐99a‐5p and miR‐100 ‐5p) identified in this study have been reported to directly target HOXA1 in various cancers and their expression is reported to be inversely correlated with HOXA1 gene expression .…”

Section: Discussionmentioning

confidence: 66%

Comprehensive Profiling of the Circulatory miRNAome Response to a High Protein Diet in Elderly Men: A Potential Role in Inflammatory Response Modulation

Ramzan

Mitchell

Milan

et al. 2019

Molecular Nutrition Food Res

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Scope MicroRNA are critical to the coordinated post‐transcriptional regulation of gene expression, yet few studies have addressed the influence of habitual diet on microRNA expression. High protein diets impact cardiometabolic health and body composition in the elderly suggesting the possibility of a complex systems response. Therefore, high‐throughput small RNA sequencing technology is applied in response to doubling the protein recommended dietary allowance (RDA) over 10 weeks in older men to examine alterations in circulating miRNAome. Methods and Results Older men (n = 31; 74.1 ± 0.6 y) are randomized to consume either RDA (0.8 g kg−1 day−1) or 2RDA (1.6 g kg−1 day−1) of protein for 10 weeks. Downregulation of five microRNAs (miR‐125b‐5p, ‐100‐5p, ‐99a‐5p, ‐23b‐3p, and ‐203a) is observed following 2RDA with no changes in the RDA. In silico functional analysis highlights target gene enrichment in inflammation‐related pathways. qPCR quantification of predicted inflammatory genes (TNFα, IL‐8, IL‐6, pTEN, PPP1CB, and HOXA1) in peripheral blood mononuclear cells shows increased expression following 2RDA diet (p ≤ 0.05). Conclusion The study findings suggest a possible selective alteration in the post‐transcriptional regulation of the immune system following a high protein diet. However, very few microRNAs are altered despite a large change in the dietary protein.

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“…The plasmids pML‐ EphA2 ‐r4‐Luc , pML‐ Hoxb1‐ARE ‐Luc , pCMV‐ Lacz , the pEXP‐FLAG(Nter)‐ Hoxa2 , pCMV‐ Pbx1 , pCS2‐ Prep1 , pEXP‐FLAG(Nter)‐ Hoxa1 , pEXP‐GST(Nter)‐ Hoxa1 , pEXP‐VC155(Nter)‐ Hoxa1 , pEXP‐FLAG(Nter)‐ Hoxa1 ΔNter , pEXP‐FLAG(Nter)‐ Hoxa1 Δ11His , pEXP‐FLAG(Nter)‐ Hoxa1 Δ71–199 and pEXP‐FLAG(Nter)‐ Hoxa1 ΔHD have all been described elsewhere. All Hoxa1 expression constructs and mutant derivatives were obtained starting from the mouse cDNA sequence coding for HOXA1 (uniprot number: http://www.uniprot.org/uniprot/P09022).…”

Section: Methodsmentioning

confidence: 99%

“…This allowed pinpointing pathways HOXA1 may take part in either to achieve its molecular functions or to receive regulatory inputs. Among the interacting proteins, several not related to transcription regulation lifted the veil on unexpected nontranscriptional activities of HOXA1, as recently described in the context of the TNFR‐NF‐κB pathway for example .…”

mentioning

confidence: 85%

The O‐GlcNAc transferase OGT interacts with and post‐translationally modifies the transcription factor HOXA1

et al. 2018

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HOXA1 belongs to the HOX family of transcription factors which are key regulators of animal development. Little is known about the molecular pathways controlling HOXA1. Recent data from our group revealed distinct partner proteins interacting with HOXA1. Among them, OGT is an O-linked N-acetylglucosamine (O-GlcNAc) transferase modifying a variety of proteins involved in different cellular processes including transcription. Here, we confirm OGT as a HOXA1 interactor, we characterise which domains of HOXA1 and OGT are required for the interaction, and we provide evidence that OGT post-translationally modifies HOXA1. Mass spectrometry experiments indeed reveal that HOXA1 can be phosphorylated on the AGGTVGSPQYIHHSY peptide and that upon OGT expression, the phosphate adduct is replaced by an O-GlcNAc group.

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HOXA1 binds RBCK1/HOIL-1 and TRAF2 and modulates the TNF/NF-κB pathway in a transcription-independent manner

Cited by 56 publications

References 68 publications

Dynamic regulation of Nanog and stem cell-signaling pathways by Hoxa1 during early neuro-ectodermal differentiation of ES cells

Dynamic regulation of Nanog and stem cell-signaling pathways by Hoxa1 during early neuro-ectodermal differentiation of ES cells

Comprehensive Profiling of the Circulatory miRNAome Response to a High Protein Diet in Elderly Men: A Potential Role in Inflammatory Response Modulation

The O‐GlcNAc transferase OGT interacts with and post‐translationally modifies the transcription factor HOXA1

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