Wearing Red for Signaling: The Heme-Bach Axis in Heme Metabolism, Oxidative Stress Response and Iron Immunology

Igarashi, Kazuhiko; Watanabe-Matsui, Miki

doi:10.1620/tjem.232.229

Cited by 104 publications

(97 citation statements)

References 188 publications

(253 reference statements)

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“…The presence of HO-1 in the nuclei and mitochondria suggests HO-1 has the functions other than degradation of heme (Dunn et al 2014). HO-1 expression is controlled by its own substrate (heme) though interaction with Bach1 repressor protein (Igarashi and Watanabe-Matsui 2014). The human HO-1 gene promoter is unique due to the presence of GT repeats of varying lengths (Shibahara et al 2007).…”

Section: Modulation Of Cadmium Toxicity By a Stress Response Mechanismmentioning

confidence: 99%

Kidney Cadmium Toxicity, Diabetes and High Blood Pressure: The Perfect Storm

Satarug

Vesey

Gobé

2017

Tohoku J. Exp. Med.

104

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Section: Modulation Of Cadmium Toxicity By a Stress Response Mechanismmentioning

confidence: 99%

Kidney Cadmium Toxicity, Diabetes and High Blood Pressure: The Perfect Storm

Satarug

Vesey

Gobé

2017

Tohoku J. Exp. Med.

104

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“…Bcl6 represses Prdm1 by binding to its intron 5 (12). Another repressor is Bach2 (BTB and CNC homologue 2), which is a basic region-leucine zipper factor and forms heterodimers with small Maf proteins through their leucine zipper domain (1,13). The Bach2-Maf heterodimers then bind to a specific DNA element termed Maf recognition element (MARE) (14).…”

mentioning

confidence: 99%

Epigenetic Regulation of the Blimp-1 Gene (Prdm1) in B Cells Involves Bach2 and Histone Deacetylase 3

Tanaka

Muto

Shima

et al. 2016

Journal of Biological Chemistry

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“…This has also been shown to be true for differentiating MEL cells (32). The small Maf proteins can also interact with other proteins, like NRF1, NRF2, and NRF3 (29,49). Because they lack activation domains, p18 homodimers function as repressors (49).…”

Section: Resultsmentioning

confidence: 89%

“…The small Maf proteins can also interact with other proteins, like NRF1, NRF2, and NRF3 (29,49). Because they lack activation domains, p18 homodimers function as repressors (49). We generated two MEL cell clones derived from single cells that were stably expressing the HS2 MARE ZF-DBD.…”

Section: Resultsmentioning

confidence: 99%

“…Furthermore, it has been shown that, during the differentiation of MEL cells, NF-E2 increasingly binds to the LCR HS2 tandem MARE (32). NF-E2 (p45) and Bach1 heterodimerize with the ubiquitously expressed p18 (also referred to as small Maf) proteins (49). Several studies have implicated NF-E2 in the recruitment of RNA Pol II to the adult ␤maj-globin gene promoter (32,34).…”

Section: Resultsmentioning

confidence: 99%

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High Fractional Occupancy of a Tandem Maf Recognition Element and Its Role in Long-Range β-Globin Gene Regulation

Stees

Hossain

Sunose

et al. 2016

Molecular and Cellular Biology

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c Enhancers and promoters assemble protein complexes that ultimately regulate the recruitment and activity of RNA polymerases. Previous work has shown that at least some enhancers form stable protein complexes, leading to the formation of enhanceosomes. We analyzed protein-DNA interactions in the murine ␤-globin gene locus using the methyltransferase accessibility protocol for individual templates (MAPit). The data show that a tandem Maf recognition element (MARE) in locus control region (LCR) hypersensitive site 2 (HS2) reveals a remarkably high degree of occupancy during differentiation of mouse erythroleukemia cells. Most of the other transcription factor binding sites in LCR HS2 or in the adult ␤-globin gene promoter regions exhibit low fractional occupancy, suggesting highly dynamic protein-DNA interactions. Targeting of an artificial zinc finger DNA-binding domain (ZF-DBD) to the HS2 tandem MARE caused a reduction in the association of MARE-binding proteins and transcription complexes at LCR HS2 and the adult ␤major-globin gene promoter but did not affect expression of the ␤minor-globin gene. The data demonstrate that a stable MARE-associated footprint in LCR HS2 is important for the recruitment of transcription complexes to the adult ␤major-globin gene promoter during erythroid cell differentiation.T ranscription of cell-type-specific genes is often regulated by multiple proximal and distal DNA regulatory elements (1, 2). Among the distal elements are enhancers, locus control regions (LCRs), and superenhancers (3, 4). Enhancers are single hypersensitive sites (HSs), usually 200 to 400 bp in size, that contain multiple binding sites for transcription factors that in some cases cooperate to form stable enhanceosomes (5). LCRs are often composite elements containing multiple HSs that operate together to regulate expression of single or several related genes within complex gene loci (3). Genes under the control of LCRs are normally expressed at extremely high levels in a cell-type-specific manner (6). Furthermore, LCRs have the remarkable capability of conferring position-independent and copy number-dependent expression to linked genes in transgenic assays. Superenhancers form a broad continuous region of transcription factor and coregulator binding and have also been associated with genes that are expressed at high levels (4).Transcription occurs not only at promoters but also at enhancers (7,8). Recent data demonstrate that both promoters and enhancers initiate bidirectional transcription but that only the coding sense transcripts at promoters are stable, whereas the antisense transcripts and the bidirectional transcripts originating from enhancers (enhancer RNAs [eRNAs]) are unstable (7,8). Despite the observation that most eRNAs are unstable, some eRNAs have been shown to be involved in the regulation of gene expression (9), while in other cases, like the human growth hormone gene locus, the process of transcription, initiated at a distal regulatory element, rather than the nongenic transcript itself, was...

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Wearing Red for Signaling: The Heme-Bach Axis in Heme Metabolism, Oxidative Stress Response and Iron Immunology

Cited by 104 publications

References 188 publications

Kidney Cadmium Toxicity, Diabetes and High Blood Pressure: The Perfect Storm

Kidney Cadmium Toxicity, Diabetes and High Blood Pressure: The Perfect Storm

Epigenetic Regulation of the Blimp-1 Gene (Prdm1) in B Cells Involves Bach2 and Histone Deacetylase 3

High Fractional Occupancy of a Tandem Maf Recognition Element and Its Role in Long-Range β-Globin Gene Regulation

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