An intrinsic but cell-nonautonomous defect in GATA-1-overexpressing mouse erythroid cells

David Whyatt; Fokke Lindeboom; Alar Karls; Rita Farreira; Eric Milot; Rudi Hendriks; Marella De Bruijn; An Langeveld; Joost Gribnau; Frank Grosveld; Sjaak Philipsen

doi:10.1038/35020086

An intrinsic but cell-nonautonomous defect in GATA-1-overexpressing mouse erythroid cells

David Whyatt, Fokke Lindeboom, Alar Karls, Rita Farreira, Eric Milot, Rudi Hendriks, Marella De Bruijn, An Langeveld, Joost Gribnau, Frank Grosveld^*, Sjaak Philipsen

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

91 Citations (Scopus)

Abstract

GATA- 1 is a tissue-specific transcription factor that is essential for the production of red blood cells. Here we show that over-expression of GATA-1 in erythroid cells inhibits their differentiation, leading to a lethal anaemia. Using chromosome-X-inactivation of a GATA-1 transgene and chimaeric animals, we show that this defect is intrinsic to erythroid cells, but nevertheless cell nonautonomous. Usually, cell nonautonomy is thought to reflect aberrant gene function in cells other than those that exhibit the phenotype. On the basis of our data, we propose an alternative mechanism in which a signal originating from wild-type erythroid cells restores normal differentiation to cells overexpressing GATA-1 in vivo. The existence of such a signalling mechanism indicates that previous interpretations of cell-nonautonomous defects may be erroneous in some cases and may in fact assign gene function to incorrect cell types.

Original language	English
Pages (from-to)	519-524
Number of pages	6
Journal	Nature
Volume	406
Issue number	6795
DOIs	https://doi.org/10.1038/35020086
Publication status	Published - 3 Aug 2000
Externally published	Yes

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title = "An intrinsic but cell-nonautonomous defect in GATA-1-overexpressing mouse erythroid cells",

abstract = "GATA- 1 is a tissue-specific transcription factor that is essential for the production of red blood cells. Here we show that over-expression of GATA-1 in erythroid cells inhibits their differentiation, leading to a lethal anaemia. Using chromosome-X-inactivation of a GATA-1 transgene and chimaeric animals, we show that this defect is intrinsic to erythroid cells, but nevertheless cell nonautonomous. Usually, cell nonautonomy is thought to reflect aberrant gene function in cells other than those that exhibit the phenotype. On the basis of our data, we propose an alternative mechanism in which a signal originating from wild-type erythroid cells restores normal differentiation to cells overexpressing GATA-1 in vivo. The existence of such a signalling mechanism indicates that previous interpretations of cell-nonautonomous defects may be erroneous in some cases and may in fact assign gene function to incorrect cell types.",

author = "David Whyatt and Fokke Lindeboom and Alar Karls and Rita Farreira and Eric Milot and Rudi Hendriks and {De Bruijn}, Marella and An Langeveld and Joost Gribnau and Frank Grosveld and Sjaak Philipsen",

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AU - Whyatt, David

AU - Lindeboom, Fokke

AU - Karls, Alar

AU - Farreira, Rita

AU - Milot, Eric

AU - Hendriks, Rudi

AU - De Bruijn, Marella

AU - Langeveld, An

AU - Gribnau, Joost

AU - Grosveld, Frank

AU - Philipsen, Sjaak

PY - 2000/8/3

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N2 - GATA- 1 is a tissue-specific transcription factor that is essential for the production of red blood cells. Here we show that over-expression of GATA-1 in erythroid cells inhibits their differentiation, leading to a lethal anaemia. Using chromosome-X-inactivation of a GATA-1 transgene and chimaeric animals, we show that this defect is intrinsic to erythroid cells, but nevertheless cell nonautonomous. Usually, cell nonautonomy is thought to reflect aberrant gene function in cells other than those that exhibit the phenotype. On the basis of our data, we propose an alternative mechanism in which a signal originating from wild-type erythroid cells restores normal differentiation to cells overexpressing GATA-1 in vivo. The existence of such a signalling mechanism indicates that previous interpretations of cell-nonautonomous defects may be erroneous in some cases and may in fact assign gene function to incorrect cell types.

AB - GATA- 1 is a tissue-specific transcription factor that is essential for the production of red blood cells. Here we show that over-expression of GATA-1 in erythroid cells inhibits their differentiation, leading to a lethal anaemia. Using chromosome-X-inactivation of a GATA-1 transgene and chimaeric animals, we show that this defect is intrinsic to erythroid cells, but nevertheless cell nonautonomous. Usually, cell nonautonomy is thought to reflect aberrant gene function in cells other than those that exhibit the phenotype. On the basis of our data, we propose an alternative mechanism in which a signal originating from wild-type erythroid cells restores normal differentiation to cells overexpressing GATA-1 in vivo. The existence of such a signalling mechanism indicates that previous interpretations of cell-nonautonomous defects may be erroneous in some cases and may in fact assign gene function to incorrect cell types.

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An intrinsic but cell-nonautonomous defect in GATA-1-overexpressing mouse erythroid cells

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