BACKGROUND: Small members of the Maf family of transcriptional regulatory proteins share similar basic-leucine zipper domains but have no intrinsic ability to activate transcription. One member of the family (MafK) has been shown to mediate both negative and positive regulation: in addition to forming a homodimer which represses transcription, MafK can also form a heterodimer with p45 (the large subunit of erythroid transcription factor NF-E2) to activate transcription. RESULTS: We examined the expression of mafK during murine development. mafK mRNA was first detected in 7.5 days post coitus (dpc) embryonic mesoderm and persisted in mesodermal derivatives (mesenchymal and haematopoietic cells) thereafter. However, around 13 dpc mafK was also strongly induced in neuronal cells and it is broadly expressed in neurones in postnatal mouse. The neuronal expression of mafK is directed by a distinct promoter located 6 kbp 3' to the mesoderm-specific promoter. mafK in neurones associates with a different partner molecule from p45. In transgenic mice, a regulatory domain in the immediate vicinity of the mesodermal promoter was found to direct mesenchymal, but not haematopoietic, expression of mafK. CONCLUSION: The cell type- and developmental stage-specific expression of MafK suggests that, in addition to its demonstrated role in erythroid transcriptional regulation, MafK also plays an important regulatory role in other mesodermally and neuroectodermally derived tissues during mouse embryonic development.
BACKGROUND: Small members of the Maf family of transcriptional regulatory proteins share similar basic-leucine zipper domains but have no intrinsic ability to activate transcription. One member of the family (MafK) has been shown to mediate both negative and positive regulation: in addition to forming a homodimer which represses transcription, MafK can also form a heterodimer with p45 (the large subunit of erythroid transcription factor NF-E2) to activate transcription. RESULTS: We examined the expression of mafK during murine development. mafK mRNA was first detected in 7.5 days post coitus (dpc) embryonic mesoderm and persisted in mesodermal derivatives (mesenchymal and haematopoietic cells) thereafter. However, around 13 dpc mafK was also strongly induced in neuronal cells and it is broadly expressed in neurones in postnatal mouse. The neuronal expression of mafK is directed by a distinct promoter located 6 kbp 3' to the mesoderm-specific promoter. mafK in neurones associates with a different partner molecule from p45. In transgenic mice, a regulatory domain in the immediate vicinity of the mesodermal promoter was found to direct mesenchymal, but not haematopoietic, expression of mafK. CONCLUSION: The cell type- and developmental stage-specific expression of MafK suggests that, in addition to its demonstrated role in erythroid transcriptional regulation, MafK also plays an important regulatory role in other mesodermally and neuroectodermally derived tissues during mouse embryonic development.
Authors: T Oyake; K Itoh; H Motohashi; N Hayashi; H Hoshino; M Nishizawa; M Yamamoto; K Igarashi Journal: Mol Cell Biol Date: 1996-11 Impact factor: 4.272
Authors: K Onodera; S Takahashi; S Nishimura; J Ohta; H Motohashi; K Yomogida; N Hayashi; J D Engel; M Yamamoto Journal: Proc Natl Acad Sci U S A Date: 1997-04-29 Impact factor: 11.205