László Nagy - Academia.edu (original) (raw)

Papers by László Nagy

Cell Death and Differentiation, 1997

Leukemia Research, 1996

Retinoids induce terminal differentiation and subsequent apoptosis in the human myeloid leukemia ... more Retinoids induce terminal differentiation and subsequent apoptosis in the human myeloid leukemia (HL-60) cell line. We have previously shown that in HL-60 cells, ligand activation of retinoic acid receptors (RARs) is sufficient to induce differentiation but ligand activation of retinoid X ...

Cell Death and Differentiation, 2004

Retinoid X receptor (RXR) belongs to a family of ligandactivated transcription factors that regul... more Retinoid X receptor (RXR) belongs to a family of ligandactivated transcription factors that regulate many aspects of metazoan life. A class of nuclear receptors requires RXR as heterodimerization partner for their function. This places RXR in the crossroad of multiple distinct biological pathways. This and the fact that the debate on the endogenous ligand requirement for RXR is not yet settled make RXR still an enigmatic transcription factor. Here, we review some of the biology of RXR. We place RXR into the evolution of nuclear receptors, review structural details and ligands of the receptor. Then processes regulated by RXR are discussed focusing on the developmental roles deduced from studies on knockout animals and metabolic roles in diseases such as diabetes and atherosclerosis deduced from pharmacological studies. Finally, aspects of RXR's involvement in myeloid differentiation and apoptosis are summarized along with issues on RXR's suitability as a therapeutic target.

Developmental Biology, 1999

We previously reported that mice lacking the RAR␥ gene and one or both alleles of the RAR␤ gene (... more We previously reported that mice lacking the RAR␥ gene and one or both alleles of the RAR␤ gene (i.e., RAR␤ ؉/؊ /RAR␥ ؊/؊ and RAR␤ ؊/؊ /RAR␥ ؊/؊ mutants) display a severe and fully penetrant interdigital webbing (soft tissue syndactyly), caused by the persistence of the fetal interdigital mesenchyme (Ghyselinck et al., 1997, Int. J. Dev. Biol. 41, 425-447). In the present study, these compound mutants were used to investigate the cellular and molecular mechanisms involved in retinoic acid (RA)-dependent formation of the interdigital necrotic zones (INZs). The mutant INZs show a marked decrease in the number of apoptotic cells accompanied by an increase of cell proliferation. This marked decrease was not paralleled by a reduction of the number of macrophages, indicating that the chemotactic cues which normally attract these cells into the INZs were not affected. The expression of a number of genes known to be involved in the establishment of the INZs, the patterning of the autopod, and/or the initiation of apoptosis was also unaffected. These genes included BMP-2, BMP-4, Msx-1, Msx-2, 5 members of Hox complexes, Bcl2, Bax, and p53. In contrast, the mutant INZs displayed a specific, graded, down-regulation of tissue transglutaminase (tTG) promoter activity and of stromelysin-3 expression upon the removal of one or both alleles of the RAR␤ gene from the RAR␥ null genetic background. As retinoic acid response elements are present in the promoter regions of both tTG and stromelysin-3 genes, we propose that RA might increase the amount of cell death in the INZs through a direct modulation of tTG expression and that it also contributes to the process of tissue remodeling, which accompanies cell death, through an up-regulation of stromelysin-3 expression in the INZs. Approximately 10% of the RAR␤ ؊/؊ /RAR␥ ؊/؊ mutants displayed a supernumerary preaxial digit on hindfeet, which is also a feature of the BMP-7 null phenotype (Dudley et al., 1995, Genes Dev. 9, 2795-2807; Luo et al., 1995, Genes Dev. 9, 2808 -2820). BMP-7 was globally down-regulated at an early stage in the autopods of these RAR double null mutants, prior to the appearance of the digital rays. Therefore, RA may exert some of its effects on anteroposterior autopod patterning through controlling BMP-7 expression.

Cell Death and Differentiation, 1997

Leukemia Research, 1996

Retinoids induce terminal differentiation and subsequent apoptosis in the human myeloid leukemia ... more Retinoids induce terminal differentiation and subsequent apoptosis in the human myeloid leukemia (HL-60) cell line. We have previously shown that in HL-60 cells, ligand activation of retinoic acid receptors (RARs) is sufficient to induce differentiation but ligand activation of retinoid X ...

Cell Death and Differentiation, 2004

Retinoid X receptor (RXR) belongs to a family of ligandactivated transcription factors that regul... more Retinoid X receptor (RXR) belongs to a family of ligandactivated transcription factors that regulate many aspects of metazoan life. A class of nuclear receptors requires RXR as heterodimerization partner for their function. This places RXR in the crossroad of multiple distinct biological pathways. This and the fact that the debate on the endogenous ligand requirement for RXR is not yet settled make RXR still an enigmatic transcription factor. Here, we review some of the biology of RXR. We place RXR into the evolution of nuclear receptors, review structural details and ligands of the receptor. Then processes regulated by RXR are discussed focusing on the developmental roles deduced from studies on knockout animals and metabolic roles in diseases such as diabetes and atherosclerosis deduced from pharmacological studies. Finally, aspects of RXR's involvement in myeloid differentiation and apoptosis are summarized along with issues on RXR's suitability as a therapeutic target.

Developmental Biology, 1999

We previously reported that mice lacking the RAR␥ gene and one or both alleles of the RAR␤ gene (... more We previously reported that mice lacking the RAR␥ gene and one or both alleles of the RAR␤ gene (i.e., RAR␤ ؉/؊ /RAR␥ ؊/؊ and RAR␤ ؊/؊ /RAR␥ ؊/؊ mutants) display a severe and fully penetrant interdigital webbing (soft tissue syndactyly), caused by the persistence of the fetal interdigital mesenchyme (Ghyselinck et al., 1997, Int. J. Dev. Biol. 41, 425-447). In the present study, these compound mutants were used to investigate the cellular and molecular mechanisms involved in retinoic acid (RA)-dependent formation of the interdigital necrotic zones (INZs). The mutant INZs show a marked decrease in the number of apoptotic cells accompanied by an increase of cell proliferation. This marked decrease was not paralleled by a reduction of the number of macrophages, indicating that the chemotactic cues which normally attract these cells into the INZs were not affected. The expression of a number of genes known to be involved in the establishment of the INZs, the patterning of the autopod, and/or the initiation of apoptosis was also unaffected. These genes included BMP-2, BMP-4, Msx-1, Msx-2, 5 members of Hox complexes, Bcl2, Bax, and p53. In contrast, the mutant INZs displayed a specific, graded, down-regulation of tissue transglutaminase (tTG) promoter activity and of stromelysin-3 expression upon the removal of one or both alleles of the RAR␤ gene from the RAR␥ null genetic background. As retinoic acid response elements are present in the promoter regions of both tTG and stromelysin-3 genes, we propose that RA might increase the amount of cell death in the INZs through a direct modulation of tTG expression and that it also contributes to the process of tissue remodeling, which accompanies cell death, through an up-regulation of stromelysin-3 expression in the INZs. Approximately 10% of the RAR␤ ؊/؊ /RAR␥ ؊/؊ mutants displayed a supernumerary preaxial digit on hindfeet, which is also a feature of the BMP-7 null phenotype (Dudley et al., 1995, Genes Dev. 9, 2795-2807; Luo et al., 1995, Genes Dev. 9, 2808 -2820). BMP-7 was globally down-regulated at an early stage in the autopods of these RAR double null mutants, prior to the appearance of the digital rays. Therefore, RA may exert some of its effects on anteroposterior autopod patterning through controlling BMP-7 expression.