Yuhong Qiu

The Nuclear Orphan Receptor COUP-TFI Is Required for Differentiation of Subplate Neurons and Guidance of Thalamocortical Axons

Chicken ovalbumin upstream promotor-transcription factor I (COUP-TFI), an orphan member of the nuclear receptor superfamily, is highly expressed in the developing nervous systems. In the cerebral cortex of Coup-tfl mutants, cortical layer IV was absent due to excessive cell death, a consequence of the failure of thalamocortical projections. Moreover, subplate neurons underwent improper differentiation and premature cell death during corticogenesis. Our results indicate that the subplate neuron defects lead to the failure of guidance and innervation of thalamocortical projections. Thus, our findings demonstrate a critical role of the subplate in early corticothalamic connectivity and confirm the importance of afferent innervation for the survival of layer IV neurons. These results also substantiate COUP-TFI as an important regulator of neuronal development and differentiation.

Chicken ovalbumin upstream promoter transcription factor (COUP-TF): expression during mouse embryogenesis.

Members of the steroid/thyroid hormone receptor superfamily such as TR, RAR, RXR and VDR are known to play important roles in regulation of gene expression during development, differentiation and homeostasis. COUP-TFs are orphan members of this superfamily of nuclear receptors and have been shown to negatively regulate the ability of these nuclear receptors to transactivate target genes. Two different mechanisms are implicated in this repression. First, COUP-TFs bind to AGGTCA direct repeats and palindromes with various spacings, which include response elements for TR, RAR, RXR and VDR, allowing for direct competition of COUP-TFs for the response elements. Second, COUP-TFs can heterodimerize with RXRs, the essential cofactor for effective binding of VDR, TRs and RARs to their cognate response elements. The physiological significance of this negative effect of COUP-TF on the activity of these receptors has been analyzed. Detection of COUP-TF transcripts during mouse development reveal discrete spatial and temporal expression domains consistent with COUP-TFs being involved in regulation of gene expression during embryogenesis. Transcripts are localized within discrete regions of the central and peripheral nervous system including the inner ear. In addition, COUP-TFs are found in many tissues including testes, ovary, prostate, skin, kidney, lung, stomach, intestine, pancreas and salivary gland. Some of these expression domains colocalize with those of TR, RAR, and RXR. The simultaneous expression of these genes raise the possibility that COUP-TFs can act as negative regulatory factors during development and differentiation.

Chicken Ovalbumin Upstream Promoter- Transcription Factors and their Regulation

COUP-TFs are orphan members of the steroid/thyroid hormone receptor superfamily. COUP-TF homologues have been cloned in several species, from Drosophila to man. The vertebrate COUP-TFs can be classified into four subgroups according to sequence homology in their ligand-binding domain. COUP-TFs bind to AGGTCA direct repeats or palindromes with various spacings. These include the response elements of several other members of the superfamily, the vitamin D receptor, the thyroid hormone receptor, the retinoic acid receptor, the retinoid X receptor, the peroxisome proliferation activated regulator, and the hepatocyte nuclear factor-4. COUP-TF response elements have been identified in the promoters of many genes and COUP-TFs have been shown to act as negative regulators both in vitro and in vivo. They can compete with the above mentioned receptors for binding to the common response elements. The ratio of COUP-TF and the other positive regulator determines the transcriptional state of the particular gene in any given moment. COUP-TFs are expressed in the developing central nervous system of mouse and zebra-fish. In addition, they are also expressed in many organs during mouse organogenesis. The expression pattern and profile of COUP-TFs favor the hypothesis that they are involved in development and differentiation. The expression of COUP-TFs are also highly regulated. P19 embryonal carcinoma cells have been used as a model system to study COUP-TF regulation. COUP-TFs are up-regulated in retinoic acid (RA) treated P19 cells. Transient transfection assay showed that mouse COUP-TFII promoter directly responded to RA treatment, suggesting that COUP-TF expression is directly regulated by RA signaling pathway.

COUP-TF an orphan member of the steroid/thyroid hormone receptor superfamily.

COUP-TFs are orphan members of the steroid/thyroid hormone receptor superfamily. They are transcription factors that are highly conserved across species and have a wide spectrum of binding specificity. In tissue cultures, COUP-TFs repress the transactivation function of several other members of the steroid/thyroid hormone receptor superfamily, and they also negatively regulate the transcription from promoters of many other genes. The expression profile of COUP-TFs in several species suggests that they play an important role in development and differentiation.