Small Maf Proteins Heterodimerize with Fos and May Act as Competitive Repressors of the NF-E2 Transcription Factor

Kataoka, Kohsuke; Igarashi, Kazuhiko; Itoh, Ken; Fujiwara, Kôsaku; Noda, Makoto; Yamamoto, Masayuki; Nishizawa, Makoto

doi:10.1128/mcb.15.4.2180

Cited by 212 publications

(183 citation statements)

References 51 publications

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“…Since it was reported that Maf/Jun heterodimers can bind NF-E2/ AP-1 like sites more e ciently than c-Jun homodimers or Maf homodimers Kerppola and Curran, 1994), NF-E2 activity may be repressed by formation of c-Jun/NF-E2p18 heterodimers that are unable to activate transcription from these sites. Similarly, recent studies have shown that c-Fos can act as a negative regulator of transcription in combination with the small Maf proteins (Kataoka et al, 1995). Although we favor the model of inactive cJun/p18 complexes, two alternative explanations of our results may be considered.…”

Section: C-jun Activates and Nf-e2p18 Inhibits Nf-e2/ap-1 Activity Insupporting

confidence: 66%

“…Homodimers of small Maf proteins suppress transcription from NF-E2/AP-1 sites in non-erythroid cells (Igarashi et al, 1994). Maf proteins could also heterodimerize with bZip proteins from the Fos/Jun family (Kataoka et al, , 1995Kerpola and Curran, 1994). The Jun/Maf heterodimers have binding speci®cities distinct from those of the Jun/Jun and Maf/Maf homodimers but their transcriptional activity has not yet been reported.…”

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confidence: 99%

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c-Jun inhibits NF-E2 transcriptional activity in association with p18/maf in Friend erythroleukemia cells

et al. 1997

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Section: C-jun Activates and Nf-e2p18 Inhibits Nf-e2/ap-1 Activity Insupporting

confidence: 66%

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confidence: 99%

c-Jun inhibits NF-E2 transcriptional activity in association with p18/maf in Friend erythroleukemia cells

et al. 1997

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“…As is the case for chicken small Maf proteins (Fujiwara et al, 1993;Kataoka et al, 1995) and mouse MafK (Andrews et al, 1993b;Igarashi et al, 1995a), human MafK and MafG contain a basic domain and a leucine zipper domain, but lack any canonical transactivation domains. The human MafK sequence was established to show 96% and 95% identity with its chicken and mouse counterparts, respectively, while the human MafG sequence showed 94% identity with that of chicken MafG (Figure 3).…”

Section: Isolation and Structures Of The Human Mafk And Mafg Cdna Clonesmentioning

confidence: 96%

Human small Maf proteins form heterodimers with CNC family transcription factors and recognize the NF-E2 motif

et al. 1997

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The transcription factor NF-E2, a heterodimeric protein complex composed of p45 and small Maf family proteins, is considered crucial for the regulation of erythroid gene expression and platelet formation. To facilitate the characterization of NF-E2 functions in human cells, we isolated cDNAs encoding two members of the small Maf family, MafK and MafG. The human mafK and mafG genes encode proteins of 156 and 162 amino acid residues, respectively, whose deduced amino acid sequences show approximately 95% identity to their respective chicken counterparts. Expression of mafK mRNA is high in heart, skeletal muscle and placenta, whereas mafG mRNA is abundant in skeletal muscle and is moderately expressed in heart and brain. Both are expressed in all hematopoietic cell lines, including those of erythroid and megakaryocytic lineages. In electrophoretic gel mobility shift assays binding to NF-E2 sites was found to depend on formation of homodimers or heterodimers with p45 and p45-related CNC family proteins. The results suggest that the small Maf family proteins function in human cells through interaction with various basic-leucine zipper-type transcription factors.

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“…The large Maf proteins, MafA/L-Maf/ SMaf1 [3][4][5], MafB [6], c-Maf [7], and Nrl [8], contain an acidic domain in their N-termini that acts as a transcriptional activation site. By contrast, the small Maf proteins, MafK, MafF [9], and MafG [10], lack such an acidic domain.…”

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confidence: 99%

Mouse MafA, homologue of zebrafish somite Maf 1, contributes to the specific transcriptional activity through the insulin promoter

Kajihara

Sone

Amemiya

et al. 2003

Biochemical and Biophysical Research Communications

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Large Maf transcription factors, which are members of the basic leucine zipper (b-Zip) superfamily, have been reported to be involved in embryonic development and cell differentiation. Previously, we isolated a novel zebrafish large Maf cDNA, somite Maf1 (SMaf1), which possesses transactivational activity within its N-terminus domain. To elucidate SMaf1 function in mammals, we tried to isolate the mouse homologue of zebrafish SMaf1. We isolated the mouse homologue of zebrafish SMaf1, which is the same molecule as the recently reported MafA. MafA mRNA was detected in formed somites, head neural tube, and liver cells in the embryos. In the adult mouse, MafA transcript was amplified in the brain, lung, spleen, and kidney by RT-PCR. MafA mRNA was also detectable in b-cell line. Next, we analyzed the transcriptional activity of MafA using rat insulin promoters I and II (RIPI and II), since a part of RIP sequence was similar to the Maf recognition element (MARE) and MafA was expressed in pancreatic b-cells. MafA was able to activate transcription from RIPII, but not RIPI, in a dose dependent manner and the activity was dependent on RIPE3b/C1 sequences. In addition, the amount of MafA protein was regulated by glucose concentration. These results indicate that MafA is the homologue of zebrafish SMaf1 and acts as a transcriptional activator of the insulin gene promoter through the RIPE3b element.

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Small Maf Proteins Heterodimerize with Fos and May Act as Competitive Repressors of the NF-E2 Transcription Factor

Cited by 212 publications

References 51 publications

c-Jun inhibits NF-E2 transcriptional activity in association with p18/maf in Friend erythroleukemia cells

c-Jun inhibits NF-E2 transcriptional activity in association with p18/maf in Friend erythroleukemia cells

Human small Maf proteins form heterodimers with CNC family transcription factors and recognize the NF-E2 motif

Mouse MafA, homologue of zebrafish somite Maf 1, contributes to the specific transcriptional activity through the insulin promoter

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