Sequence and Chromosomal Context Effects on Variegated Expression of Keratin 5/lacZ Constructs in Stratified Epithelia of Transgenic Mice

Ramı́rez, Ángel; Milot, Éric; Ponsa, Immaculada; Marcos-Gutierrez, Camelia V.; Page, Angustias; Santos, Mirentxu; Jorcano, José L.; Vidal, Miguel

doi:10.1093/genetics/158.1.341

Cited by 42 publications

(1 citation statement)

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“…Variegated expression is frequently observed in transgenic mice and reflects transgene silencing in a fraction of cells [for review see (41)]. The mechanism is poorly understood, but it is believed to involve epigenetic modification of the transgene due to chromosomal position effects (42). A remarkable finding is that the position effect variegation in our transgenics was only evident in cardiac and skeletal muscle cells, while in brain and testis transgene expression was apparently not influenced by its chromosomal position.…”

Section: Discussionmentioning

confidence: 89%

GATA-4 and MEF2C transcription factors control the tissue-specific expression of the T-catenin gene CTNNA3

Vanpoucke

Goossens²,

Craene³

et al. 2004

Nucleic Acids Research

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AlphaT-catenin is a recently identified member of the alpha-catenin family of cell-cell adhesion molecules. Its expression is restricted mainly to cardiomyocytes, although it is also expressed in skeletal muscle, testis and brain. Like other alpha-catenins, alphaT-catenin provides an indispensable link between a cadherin-based adhesion complex and the actin cytoskeleton, resulting in strong cell-cell adhesion. We show here that the tissue-specificity of alphaT-catenin expression is controlled by its promoter region. By in silico analysis, we found that the alphaT-catenin promoter contains several binding sites for cardiac and muscle-specific transcription factors. By co-transfection studies in P19 embryonal carcinoma cells, we demonstrated that MEF2C and GATA-4 each have an activating effect on the alphaT-catenin promoter. Transfections with wild-type and mutant promoter constructs in cardiac HL-1 cells indicated that one GATA box is absolutely required for high alphaT-catenin promoter activity in these cells. Furthermore, we showed that the GATA-4 transcription factor specifically binds and activates the alphaT-catenin promoter in vivo in cardiac HL-1 cells. In vivo promoter analysis in transgenic mice revealed that the isolated alphaT-catenin promoter region could direct the tissue-specific expression of a LacZ reporter gene in concordance with endogenous alphaT-catenin expression.

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Section: Discussionmentioning

confidence: 89%

GATA-4 and MEF2C transcription factors control the tissue-specific expression of the T-catenin gene CTNNA3

Vanpoucke

Goossens²,

Craene³

et al. 2004

Nucleic Acids Research

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Generation dependent reduction of tTA expression in double transgenic NZL‐2/tTA^CMV mice

Fedorov

Tyrsin

Sakk

et al. 2001

Genesis

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Despite the overall successful application of the tet-system to regulate gene expression in vitro and in vivo, nothing is known so far about the long-term stability of this system in transgenic mice. In this study, mice of generation F2, F3, F4, or F10 of two independent tTA(CMV) transgenic lines were bred with NZL-2 mice containing a tTA-responsive bidirectional promoter that allows the simultaneous expression of two reporter genes encoding luciferase and beta-galactosidase. Analysis of the expression of transgenes in double transgenic mice revealed a dramatic reduction of tTA transactivator mRNA over time. As a consequence, the expression of both reporter genes was gradually reduced from generation to generation in tissues of embryonic and adult NZL-2/tTA(CMV) mice. Luciferase activity in NZL-2/tTA(CMV)(F10) mice was reduced 8-10-fold compared to NZL-2/ tTA(CMV)(F2) mice, and beta-galactosidase expression was no longer detectable. In summary, we describe the long-term instability of the tet-system in our NZL-2/tTA(CMV) double transgenic mice. The molecular basis of this observation and experimental tools to overcome this limitation need to be addressed in future.

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A keratin K5Cre transgenic line appropriate for tissue‐specific or generalized cre‐mediated recombination

Ramı́rez

Page

Gandarillas

et al. 2004

Genesis

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217

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We describe here a mouse line bearing a bovine keratin K5Cre recombinase transgene. These mice showed a dual pattern of Cre-mediated recombination, depending on the parent transmitting the transgene. In paternal transmission, recombination occurred specifically in the skin and stratified epithelia-as expected according to the expression of endogenous keratin K5. However, constitutive recombination between loxP sites transmitted by the sperm took place when the mother possessed the K5Cre transgene, even when the transgene was absent in the progeny. Cre expression in late-stage oocytes, with the Cre protein persisting into the developing embryo, leads to the constitutive recombination observed. Thus, this transgenic line allows for both tissue-specific and generalized recombination, depending on the breeding scheme.

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Sequence and Chromosomal Context Effects on Variegated Expression of Keratin 5/lacZ Constructs in Stratified Epithelia of Transgenic Mice

Cited by 42 publications

References 41 publications

GATA-4 and MEF2C transcription factors control the tissue-specific expression of the T-catenin gene CTNNA3

GATA-4 and MEF2C transcription factors control the tissue-specific expression of the T-catenin gene CTNNA3

Generation dependent reduction of tTA expression in double transgenic NZL‐2/tTA^CMV mice

A keratin K5Cre transgenic line appropriate for tissue‐specific or generalized cre‐mediated recombination

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Sequence and Chromosomal Context Effects on Variegated Expression of Keratin 5/lacZ Constructs in Stratified Epithelia of Transgenic Mice

Cited by 42 publications

References 41 publications

GATA-4 and MEF2C transcription factors control the tissue-specific expression of the T-catenin gene CTNNA3

GATA-4 and MEF2C transcription factors control the tissue-specific expression of the T-catenin gene CTNNA3

Generation dependent reduction of tTA expression in double transgenic NZL‐2/tTACMV mice

A keratin K5Cre transgenic line appropriate for tissue‐specific or generalized cre‐mediated recombination

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Generation dependent reduction of tTA expression in double transgenic NZL‐2/tTA^CMV mice