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Your search keyword '"Rosenfeld, M"' showing total 26 results
Start Over Author "Rosenfeld, M" Journal genes & development
26 results on '"Rosenfeld, M"'

20. Temporal regulation of a paired-like homeodomain repressor/TLE corepressor complex and a related activator is required for pituitary organogenesis.

Author

Dasen, J S, Barbera, J P, Herman, T S, Connell, S O, Olson, L, Ju, B, Tollkuhn, J, Baek, S H, Rose, D W, and Rosenfeld, M G

Abstract

Understanding the functional significance of the coordinate expression of specific corepressors and DNA-binding transcription factors remains a critical question in mammalian development. During the development of the pituitary gland, two highly related paired-like homeodomain factors, a repressor, Hesx1/Rpx and an activator, Prop-1, are expressed in sequential, overlapping temporal patterns. Here we show that while the repressive actions of Hesx1/Rpx may be required for initial pituitary organ commitment, progression beyond the appearance of the first pituitary (POMC) lineage requires both loss of Hesx1 expression and the actions of Prop-1. Although Hesx1 recruits both the Groucho-related corepressor TLE1 and the N-CoR/Sin3/HDAC complex on distinct domains, the repressor functions of Hesx1 in vivo prove to require the specific recruitment of TLE1, which exhibits a spatial and temporal pattern of coexpression during pituitary organogenesis. Furthermore, Hesx1-mediated repression coordinates a negative feedback loop with FGF8/FGF10 signaling in the ventral diencephalon, required to prevent induction of multiple pituitary glands from oral ectoderm. Our data suggest that the opposing actions of two structurally-related DNA-binding paired-like homeodomain transcription factors, binding to similar cognate elements, coordinate pituitary organogenesis by reciprocally repressing and activating target genes in a temporally specific fashion, on the basis of the actions of a critical, coexpressed TLE corepressor.

Published
2001
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23. Determinants of coactivator LXXLL motif specificity in nuclear receptor transcriptional activation.

Author

McInerney, E M, Rose, D W, Flynn, S E, Westin, S, Mullen, T M, Krones, A, Inostroza, J, Torchia, J, Nolte, R T, Assa-Munt, N, Milburn, M V, Glass, C K, and Rosenfeld, M G

Abstract

Ligand-dependent activation of gene transcription by nuclear receptors is dependent on the recruitment of coactivators, including a family of related NCoA/SRC factors, via a region containing three helical domains sharing an LXXLL core consensus sequence, referred to as LXDs. In this manuscript, we report receptor-specific differential utilization of LXXLL-containing motifs of the NCoA-1/SRC-1 coactivator. Whereas a single LXD is sufficient for activation by the estrogen receptor, different combinations of two, appropriately spaced, LXDs are required for actions of the thyroid hormone, retinoic acid, peroxisome proliferator-activated, or progesterone receptors. The specificity of LXD usage in the cell appears to be dictated, at least in part, by specific amino acids carboxy-terminal to the core LXXLL motif that may make differential contacts with helices 1 and 3 (or 3') in receptor ligand-binding domains. Intriguingly, distinct carboxy-terminal amino acids are required for PPARgamma activation in response to different ligands. Related LXXLL-containing motifs in NCoA-1/SRC-1 are also required for a functional interaction with CBP, potentially interacting with a hydrophobic binding pocket. Together, these data suggest that the LXXLL-containing motifs have evolved to serve overlapping roles that are likely to permit both receptor-specific and ligand-specific assembly of a coactivator complex, and that these recognition motifs underlie the recruitment of coactivator complexes required for nuclear receptor function.

Published
1998

24. Multistep signaling requirements for pituitary organogenesis in vivo.

Author

Treier, M, Gleiberman, A S, O'Connell, S M, Szeto, D P, McMahon, J A, McMahon, A P, and Rosenfeld, M G

Abstract

During development of the mammalian pituitary gland specific hormone-producing cell types, critical in maintaining homeostasis, emerge in a spatially and temporally specific fashion from an ectodermal primordium. We have investigated the molecular basis of generating diverse pituitary cell phenotypes from a common precursor, providing in vivo and in vitro evidence that their development involves three sequential phases of signaling events and the action of a gradient at an ectodermal boundary. In the first phase, the BMP4 signal from the ventral diencephalon, expressing BMP4, Wnt5a, and FGF8, represents a critical dorsal neuroepithelial signal for pituitary organ commitment in vivo. Subsequently, a BMP2 signal emanates from a ventral pituitary organizing center that forms at the boundary of a region of oral ectoderm in which Shh expression is selectively excluded. This BMP2 signal together with a dorsal FGF8 signal, appears to create opposing activity gradients that are suggested to generate overlapping patterns of specific transcription factors underlying cell lineage specification events, whereas Wnt4 is needed for the expansion of ventral pituitary cell phenotypes. In the third phase, temporally specific loss of the BMP2 signal is required to allow terminal differentiation. The consequence of these sequential organ and cellular determination events is that each of the hormone-producing pituitary cell types-gonadotropes, thyrotropes, somatotropes, lactotropes, corticotropes, and melanotropes-appear to be determined, in a ventral-to-dorsal gradient, respectively.

Published
1998

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