A BAC Transgene Expressing Human CFTR under Control of Its Regulatory Elements Rescues Cftr Knockout Mice

Abstract Chromosomal rearrangements leading to dysregulation of the SCL gene, located at chromosome 1p32, is a common event in the development of human T-cell acute lymphocytic leukemia (T-ALL). In the most common form of SCL gene rearrangement, an interstitial deletion of approximately 90 kb brings SCL under the control of regulatory elements that normally govern expression of the ubiquitously expressed SIL (SCL interrupting locus) gene, which is located directly upstream of SCL. To investigate the consequences of this event, we reproduced this gene alteration by using cre-mediated recombination. A BAC clone containing both human SIL and SCL genes was isolated and loxP sites were cloned into the intron 1 region of both the SIL and SCL genes, corresponding to the sites at which recombination leading to an interstitial deletion occurs in human T-ALL patients. This BAC clone was used to generate transgenic SILloxloxSCL mice. The SILloxloxSCL mice were bred to mice that express the cre recombinase in the thymus (Lck-cre mice). The BAC transgene was recombined between the two loxP sites in over 50% of the thymocytes from double transgenic Lck-cre/SILloxloxSCL mice, faithfully recapitulating the event seen in human T-ALL patients, and bringing the SCL gene under the direct control of SIL regulatory elements. Aberrant SCL gene expression was verified by RT-PCR. Using FACS analysis, we found that mice carrying both the SILloxloxSCL transgene and the Lck-cre transgene have decreased CD4+/CD8+, CD4+/CD8−, CD4−/CD8+ and increased CD4−/CD8− thymocytes compared to transgene-negative mice or mice that carried the SILloxloxSCL transgene but not the Lck-cre transgene. These findings were detected in mice from 6 to 15 months of age. Interestingly, increased numbers of CD44+ thymocytes can also been identified in SILloxloxSCL/Lck-cre mice. In the spleen, the SILloxloxSCL/Lck-cre mice show a marked reduction in the number of mature CD4+ or CD8+ cells. These results indicate an accumulation of immature T-cells in mice transgenic for both the SILloxloxSCL transgene and the Lck-cre transgene, and demonstrate that conditional activation of SCL under control of SIL regulatory elements can impair normal T-cell development.

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Targeted Disruption of the Basic Krüppel-Like Factor Gene (Klf3) Reveals a Role in Adipogenesis

Molecular and Cellular Biology ◽

10.1128/mcb.01942-07 ◽

2008 ◽

Vol 28 (12) ◽

pp. 3967-3978 ◽

Cited By ~ 126

Author(s):

Nancy Sue ◽

Briony H. A. Jack ◽

Sally A. Eaton ◽

Richard C. M. Pearson ◽

Alister P. W. Funnell ◽

...

Keyword(s):

Knockout Mice ◽

Adipocyte Differentiation ◽

Regulatory Elements ◽

Targeted Disruption ◽

Embryonic Fibroblasts ◽

Factor Gene ◽

Gene Regulatory Elements ◽

Gene Regulatory ◽

Fat Pads

ABSTRACT Krüppel-like factors (KLFs) recognize CACCC and GC-rich sequences in gene regulatory elements. Here, we describe the disruption of the murine basic Krüppel-like factor gene (Bklf or Klf3). Klf3 knockout mice have less white adipose tissue, and their fat pads contain smaller and fewer cells. Adipocyte differentiation is altered in murine embryonic fibroblasts from Klf3 knockouts. Klf3 expression was studied in the 3T3-L1 cellular system. Adipocyte differentiation is accompanied by a decline in Klf3 expression, and forced overexpression of Klf3 blocks 3T3-L1 differentiation. Klf3 represses transcription by recruiting C-terminal binding protein (CtBP) corepressors. CtBPs bind NADH and may function as metabolic sensors. A Klf3 mutant that does not bind CtBP cannot block adipogenesis. Other KLFs, Klf2, Klf5, and Klf15, also regulate adipogenesis, and functional CACCC elements occur in key adipogenic genes, including in the C/ebpα promoter. We find that C/ebpα is derepressed in Klf3 and Ctbp knockout fibroblasts and adipocytes from Klf3 knockout mice. Chromatin immunoprecipitations confirm that Klf3 binds the C/ebpα promoter in vivo. These results implicate Klf3 and CtBP in controlling adipogenesis.

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A 178-kb BAC transgene imprints the mouse Gtl2 gene and localizes tissue-specific regulatory elements

Genomics ◽

10.1016/s0888-7543(04)00092-8 ◽

2004 ◽

Author(s):

A YEVTODIYENKO

Keyword(s):

Regulatory Elements ◽

Tissue Specific ◽

Bac Transgene

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A human YAC transgene rescues craniofacial and neural tube development in PDGFRalpha knockout mice and uncovers a role for PDGFRalpha in prenatal lung growth

Development ◽

10.1242/dev.127.21.4519 ◽

2000 ◽

Vol 127 (21) ◽

pp. 4519-4529

Author(s):

T. Sun ◽

D. Jayatilake ◽

G.B. Afink ◽

P. Ataliotis ◽

M. Nister ◽

...

Keyword(s):

Smooth Muscle ◽

Neural Crest ◽

Knockout Mice ◽

Yeast Artificial Chromosome ◽

Neural Crest Cells ◽

Artificial Chromosome ◽

Regulatory Elements ◽

Vital Role ◽

Lung Growth ◽

Oligodendrocyte Progenitors

The platelet-derived growth factor alpha-receptor (PDGFRalpha) plays a vital role in the development of vertebrate embryos, since mice lacking PDGFRalpha die in mid-gestation. PDGFRalpha is expressed in several types of migratory progenitor cells in the embryo including cranial neural crest cells, lung smooth muscle progenitors and oligodendrocyte progenitors. To study PDGFRalpha gene regulation and function during development, we generated transgenic mice by pronuclear injection of a 380 kb yeast artificial chromosome (YAC) containing the human PDGFRalpha gene. The YAC transgene was expressed in neural crest cells, rescued the profound craniofacial abnormalities and spina bifida observed in PDGFRalpha knockout mice and prolonged survival until birth. The ultimate cause of death was respiratory failure due to a defect in lung growth, stemming from failure of the transgene to be expressed correctly in lung smooth muscle progenitors. However, the YAC transgene was expressed faithfully in oligodendrocyte progenitors, which was not previously observed with plasmid-based transgenes containing only upstream PDGFRalpha control sequences. Our data illustrate the complexity of PDGFRalpha genetic control, provide clues to the location of critical regulatory elements and reveal a requirement for PDGF signalling in prenatal lung growth, which is distinct from the known requirement in postnatal alveogenesis. In addition, we found that the YAC transgene did not prolong survival of Patch mutant mice, indicating that genetic defects outside the PDGFRalpha locus contribute to the early embryonic lethality of Patch mice.

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A 178-kb BAC transgene imprints the mouse Gtl2 gene and localizes tissue-specific regulatory elements

Genomics ◽

10.1016/j.ygeno.2004.04.005 ◽

2004 ◽

Vol 84 (2) ◽

pp. 277-287 ◽

Cited By ~ 16

Author(s):

Aleksey Yevtodiyenko ◽

Ekaterina Y. Steshina ◽

Scott C. Farner ◽

John M. Levorse ◽

Jennifer V. Schmidt

Keyword(s):

Regulatory Elements ◽

Tissue Specific ◽

Bac Transgene

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Impaired Alveologenesis and Maintenance of Secretory Mammary Epithelial Cells in Jak2 Conditional Knockout Mice

Molecular and Cellular Biology ◽

10.1128/mcb.24.12.5510-5520.2004 ◽

2004 ◽

Vol 24 (12) ◽

pp. 5510-5520 ◽

Cited By ~ 107

Author(s):

Kay-Uwe Wagner ◽

Andrea Krempler ◽

Aleata A. Triplett ◽

Yongyue Qi ◽

Nicholas M. George ◽

...

Keyword(s):

Knockout Mice ◽

Prolactin Receptor ◽

Branching Morphogenesis ◽

Regulatory Elements ◽

Conditional Knockout ◽

Multiple Gestation ◽

Alveolar Cells ◽

Signal Transducers ◽

Conditional Knockout Mice

ABSTRACT Jak2 is a hormone-receptor-coupled kinase that mediates the tyrosine phosphorylation and activation of signal transducers and activators of transcription (Stat). The biological relevance of Jak2-Stat signaling in hormone-responsive adult tissues is difficult to investigate since Jak2 deficiency leads to embryonic lethality. We generated Jak2 conditional knockout mice to study essential functions of Jak2 during mammary gland development. The mouse mammary tumor virus-Cre-mediated excision of the first coding exon resulted in a Jak2 null mutation that uncouples signaling from the prolactin receptor (PRL-R) to its downstream mediator Stat5 in the presence of normal and supraphysiological levels of PRL. Jak2-deficient females were unable to lactate as a result of impaired alveologenesis. Unlike Stat5a knockouts, multiple gestation cycles could not reverse the Jak2-deficient phenotype, suggesting that neither other components of the PRL-R signaling cascade nor other growth factors and their signal transducers were able to compensate for the loss of Jak2 function to activate Stat5 in vivo. A comparative analysis of Jak2-deficient mammary glands with transplants from Stat5a/b knockouts revealed that Jak2 deficiency also impairs the pregnancy-induced branching morphogenesis. Jak2 conditional mutants therefore resemble PRL-R knockouts more closely, which suggested that Jak2 deficiency might affect additional PRL-R downstream mediators other than Stat5a and Stat5b. To address whether Jak2 is required for the maintenance of PRL-responsive, differentiating alveolar cells, we utilized a transgenic strain that expresses Cre recombinase under regulatory elements of the whey acidic protein gene (Wap). The Wap-Cre-mediated excision of Jak2 resulted in a negative selection of differentiated alveolar cells, suggesting that Jak2 is required not only for the proliferation and differentiation of alveolar cells but also for their maintenance during lactation.

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