Uwe Borgmeyer

The Germ Cell Nuclear Factor mGCNF Is Expressed in the Developing Nervous System

Using a reinoic acid receptor hybridization probe, we have isolated a mouse embryonic cDNA that encodes the germ cell nuclear factor (mGCNF). The in vitro translated protein binds specifically to the direct repeat of the sequence-AGGTCA-which is characteristic of a subclass of nuclear receptors, albeit with a spacing of zero that is unique among the receptors. Northern analysis shows embryonic expression after mouse gastrulation and during early organogenesis, as well as expression in the adult testis. The message level decreases during embryonic development. Whereas there are two transcripts in the testis, only the larger one is found in embryos. In situ analysis of embryos at days 6.5-10.5 of gestation shows that, in the early postimplantation period, high transcript levels are found in ectodermal cells and in the primitive streak. During further development the expression becomes more restricted. Mainly cells of the developing nervous system are expressing the receptor. Our findings imply that GCNF is involved in two apparently disparate developmental events.

PGC-1 and PERC, coactivators of the estrogen receptor-related receptor γ

The mouse nuclear receptor ERRgamma (estrogen receptor-related receptor gamma) is highly expressed in heart, skeletal muscle, kidney, and brain, as well as in the developing nervous system. We found that the expression of the coactivators PGC-1 (PGC-1alpha) and PERC (PGC-1beta) in mammalian cells augmented potently the transcriptional activation by ERRgamma. The constitutive activation function 2 (AF-2) of the orphan receptor was important for the synergistic enhancement. Functional receptor truncation analysis revealed an additional amino-terminal activation function, specific for the ERRgamma2 isoform and PGC-1. In vitro experiments showed a direct interaction of ERRgamma with both coactivators. Our findings suggest distinct regulatory functions for PGC-1 and PERC as tissue-specific coactivators for ERRgamma.

Differential expression of the estrogen receptor-related receptor γ in the mouse brain

To elucidate estrogen functions, the expression of the estrogen receptor-related receptor ERRγ, a novel orphan nuclear receptor regulating transcription via estrogen responsive elements, has been localized by in situ hybridization in adult murine brain. ERRγ transcripts were abundantly present in the isocortex, the olfactory system, cranial nerve nuclei and major parts of the coordination centers, e.g. reticular formation and major parts of the extrapyramidal motor systems. In addition, ERRγ expression was detected in trigeminal ganglion neurons. ERRγ distribution was clearly distinguished from that described for ERRα, for ERRβ, and for estrogen receptors (ER) pointing at functional differences between ERRγ and these receptors.

Retinoids Induce Differential Expression and DNA Binding of the Mouse Germ Cell Nuclear Factor in P19 Embryonal Carcinoma Cells

The mouse germ cell nuclear factor (GCNF), a member of the nuclear receptor superfamily, is highly expressed during gametogenesis and in the developing nervous system. The in vitro translated protein binds as a homodimer to the direct repeat (DR) of the sequence -AGGTCA- (DR-0). In this report, we characterize a DR-0 binding activity in P19 cell extracts that is induced by retinoids. This induction is concentration dependent and specific for embryonal carcinoma cells. The cellular protein binds with the same specificity as in vitro expressed GCNF, but migrates as a slower complex, indicating interaction with partner proteins. Because antisera directed against GCNF recognize this complex, we propose that GCNF is part of the binding activity. Combining in vitro translated GCNF and extracts of non-expressing cells shows that such interactions can be formed posttranslationally. Northern analysis demonstrates a concentration dependent induction of GCNF mRNA by retinoic acid. A time course shows that the level of GCNF binding is transiently elevated, later downregulated, and not detectable in differentiated cells. We propose that GCNF regulation is an important step during determination of embryonal carcinoma cells.

Characterization of the human germ cell nuclear factor gene

A cDNA clone encoding the germ cell nuclear factor, GCNF, a member of the nuclear receptor superfamily has been isolated from the human embryonal carcinoma cell line NT2/D1. Sequencing of this clone reveals an open reading frame encoding a 476 amino acid protein. A comparison of the amino acid sequence of the human GCNF with its mouse homologue shows only six amino acid exchanges in the whole protein and a deletion in the amino-terminal region. Northern blot analysis demonstrates that the expression in the testis is conserved.

Developmental expression of the estrogen receptor-related receptor γ in the nervous system during mouse embryogenesis

The ERRs (estrogen receptor-related receptors) are constitutive activators of the classical estrogen response element. In this report, we demonstrate that ERRgamma is highly expressed in the nervous system of the developing mouse embryo and that the adult pattern of expression of ERRgamma is, with few exceptions, established during embryogenesis. Transcripts are preferentially detected in already differentiating areas of the nervous system.

Germ Cell Nuclear Factor Is a Repressor of CRIPTO-1 and CRIPTO-3

The pluripotency of embryonic stem and embryonic carcinoma cells is maintained by the expression of a set of “stemness” genes. Whereas these genes are down-regulated upon induction of differentiation, the germ cell nuclear factor (GCNF) is transiently up-regulated and represses several pluripotency genes. CRIPTO-1, a co-receptor for the morphogen nodal, is strongly expressed in undifferentiated cells and is rapidly down-regulated during retinoic acid-induced differentiation. Although CRIPTO-1 is expressed at very low levels in adult tissues under normal conditions, it is found highly expressed in a broad range of tumors, where it acts as a potent oncogene. We show that expression of CRIPTO-1 is directly repressed by GCNF during differentiation of the human teratocarcinoma cell line, NT2. GCNF bound to a DR0 element of the CRIPTO-1 promoter in vitro, as shown by electrophoretic mobility shift assays, and in vivo, as demonstrated by chromatin immunoprecipitation. Reporter gene assays demonstrated that GCNF-mediated repression of the CRIPTO-1 promoter is dependent upon the DR0 site. Overexpression of GCNF in NT2 cells resulted in repression of CRIPTO-1 transcription, whereas expression of the transcription-activating fusion construct GCNF-VP16 led to an induction of the CRIPTO-1 gene and prevented its retinoic acid-induced down-regulation. Furthermore, we demonstrated that CRIPTO-3, a processed pseudogene of CRIPTO-1 on the X chromosome, is expressed in undifferentiated NT2 cells and is regulated by GCNF in parallel to CRIPTO-1. Thus, our study supports the hypothesis of GCNF playing a central role during differentiation of stem cells by repression of stem cell-specific genes.

DNA binding, protein interaction and differential expression of the human germ cell nuclear factor

The mouse germ cell nuclear factor (mGCNF) is an orphan nuclear receptor implicated in diverse biological processes, including gametogenesis, embryonic development and embryonal carcinoma cell differentiation. We have examined the binding and regulation of the human orthologue, hGCNF, expressed in the teratocarcinoma-derived cell line NTera-2/clone D1 (NT2/D1). Binding of GCNF to the direct repeat of the sequence -AGGTCA- (DR-0) is conserved in mammalia. The formation of interspecies dimers of the in vitro synthesized proteins suggests that cellular GCNF binding is mediated by homodimers. Both the mouse and the human protein bind in concert with cellular factors to DNA. Treatment of NT2/D1 cells with all-trans retinoic acid (atRA) is accompanied first by an up-regulation followed later by a down-regulation of hGCNF and its mRNA. Temporary up-regulation in NT2/D1 cells after treatment with atRA suggests that hGCNF is important for human neural determination and differentiation.

The germ cell nuclear factor is required for retinoic acid signaling during Xenopus development.

The germ cell nuclear factor (GCNF, NR6A1) is a nuclear orphan receptor that functions as a transcriptional repressor and is transiently expressed in mammalian carcinoma cells during retinoic acid (RA) induced neuronal differentiation. During Xenopus laevis development, the spatiotemporal expression pattern of embryonic GCNF (xEmGCNF) suggests a role in anteroposterior specification of the neuroectoderm. Here, we show that RA treatment of Xenopus embryos enhances xEmGCNF expression. Moreover, we present evidence for the relevance of this finding in the context of primary neurogenesis and hindbrain development. During early development of the central nervous system, RA signals promote posterior transformation of the neuroectoderm and increase the number of cells undergoing primary neurogenesis. Our loss-of-function analyses using a xEmGCNF-specific morpholino antisense oligonucleotide indicate that xEmGCNF is required for the effect of RA on primary neurogenesis. This may be caused by transcriptional regulation of the gene encoding the RA-degrading enzyme CYP26, since this gene is derepressed after depletion of xEmGCNF and an antimorph of xEmGCNF directly activates transcription of CYP26, also in absence of protein synthesis. The effect of xEmGCNF knockdown on hindbrain patterning is similar to conditions of reduced RA signaling, which may be caused by a reduction of RAR gamma expression specifically in the presumptive hindbrain.

The murine AE4 promoter predominantly drives type B intercalated cell specific transcription

AE4 is an anion exchanger almost exclusively expressed in the collecting ducts of the kidney. This very restricted expression prompted us to analyze its transcription in more detail. 5′ RACE yielded alternative transcriptional start sites that are predicted to code for N-terminal protein variants. Comparison of the 5′ genomic sequence between species identified a transcriptionally active region with three conserved spans. In transgenic mice β-galactosidase expression driven by this fragment resembled endogenous AE4 expression and was predominantly restricted to type B intercalated cells. Hence this promoter could prove useful to target type B intercalated cells by genetic approaches.