Development of a steroidogenic factor 1/Cre transgenic mouse line

The Cre-loxP strategy provides an approach to disrupt genes in specific tissues and/or cell types, circumventing lethality associated with global knockouts or secondary effects due to gene inactivation at other sites. A critical component is the development of transgenes that target Cre expression to specific cell types. Here, we describe the use of bacterial artificial chromosome (BAC) transgenesis to target Cre expression to tissues that express steroidogenic factor 1 (SF-1, officially designated Nr5a1). Consistent with the SF-1 expression pattern, the SF-1 BAC directed Cre expression to the somatic cells of the gonads, the adrenal cortex, the anterior pituitary, the spleen, and the ventromedial hypothalamic nucleus. This transgene provides a powerful tool to inactivate genes of interest in these tissues.     

Generation of a mouse line expressing Cre recombinase in glycinergic interneurons

In caudal regions of the CNS, glycine constitutes the major inhibitory neurotransmitter. Here, we describe a mouse line that expresses Cre recombinase under the control of a BAC transgenic glycine transporter 2 (GlyT2) promoter fragment. Mating of GlyT2‐Cre mice with the Cre reporter mouse lines Rosa26/LacZ and Rosa26/YFP and analysis of double transgenic offsprings revealed strong transgene activity in caudal regions of the central nervous system, i.e., brain stem and spinal cord. Some additional Cre expression was observed in cortical and cerebellar regions. In brain stem and spinal cord, Cre expressing cells were identified as glycinergic interneurons by staining with GlyT2‐ and glycine‐immunoreactive antibodies; here, >80% of the glycine‐immunoreactive cells expressed the Cre reporter protein. These data indicate that GlyT2‐Cre mice are a useful tool for the genetic manipulation of glycinergic interneurons. genesis 48:437–445, 2010. © 2010 Wiley‐Liss, Inc.     

Germline recombination in a novel Cre transgenic line,Prl3b1‐Cre mouse

Spermatogenesis is a complex and highly regulated process by which spermatogonial stem cells differentiate into spermatozoa. To better understand the molecular mechanisms of the process, the Cre/loxP system has been widely utilized for conditional gene knockout in mice. In this study, we generated a transgenic mouse line that expresses Cre recombinase under the control of the 2.5 kbp of the Prolactin family 3, subfamily b, member 1 (Prl3b1) gene promoter (Prl3b1‐cre). Prl3b1 was initially reported to code for placental lactogen 2 (PL‐2) protein in placenta along with increased expression toward the end of pregnancy. PL‐2 was found to be expressed in germ cells in the testis, especially in spermatocytes. To analyze the specificity and efficiency of Cre recombinase activity in Prl3b1‐cre mice, the mice were mated with reporter R26GRR mice, which express GFP ubiquitously before and tdsRed exclusively after Cre recombination. The systemic examination of Prl3b1‐cre;R26GRR mice revealed that tdsRed‐positive cells were detected only in the testis and epididymis. Fluorescence imaging of Prl3b1‐cre;R26GRR testes suggested that Cre‐mediated recombination took place in the germ cells with approximately 74% efficiency determined by in vitro fertilization. In conclusion, our results suggest that the Prl3b1‐cre mice line provides a unique resource to understand testicular germ‐cell development. genesis 54:389–397, 2016. © 2016 Wiley Periodicals, Inc.     

Generation of a prostate epithelial cell-specific Cre transgenic mouse model for tissue-specific gene ablation

To facilitate the elucidation of the genetic events that may play an important role in the development or tumorigenesis of the prostate gland, we have generated a transgenic mouse line with prostate-specific expression of Cre recombinase. This line, named PB-Cre4, carries the Cre gene under the control of a composite promoter, ARR2PB which is a derivative of the rat prostate-specific probasin (PB) promoter. Based on RT-PCR detection of Cre mRNA in PB-Cre4 mice or Cre-mediated activation of LacZ activity in PB-Cre4/R26R double transgenic mice, it is conclusively demonstrated that Cre expression is post-natal and prostatic epithelium-specific. Although the Cre recombination is detected in all lobes of the mouse prostate, there is a significant difference in expression levels between the lobes, being highest in the lateral lobe, followed by the ventral, and then the dorsal and anterior lobes. Besides the prostate gland, no other tissues of the adult PB-Cre4 mice demonstrate significant Cre expression, except for a few scattered areas in the gonads and the stroma of the seminal vesicle. By crossing the PB-Cre4 animals with floxed RXRalpha allelic mice, we demonstrate that mice, whose conventional knockout of this gene is lethal in embryogenesis, could be propagated with selective inactivation of RXRalpha in the prostate. Taken together, the results show that the PB-Cre4 mice have high levels of Cre expression and a high penetrance in the prostatic epithelium. The PB-Cre4 mice will be a useful resource for genetic-based studies on prostate development and prostatic disease.     

Generation of a transgenic mouse model with chondrocyte-specific and tamoxifen-inducible expression of Cre recombinase

Postnatal cartilage development and growth are regulated by key growth factors and signaling molecules. To fully understand the function of these regulators, an inducible and chondrocyte-specific gene deletion system needs to be established to circumvent the perinatal lethality. In this report, we have generated a transgenic mouse model (Col2a1-CreER(T2)) in which expression of the Cre recombinase is driven by the chondrocyte-specific col2a1 promoter in a tamoxifen-inducible manner. To determine the specificity and efficiency of the Cre recombination, we have bred Col2a1-CreER(T2) mice with Rosa26R reporter mice. The X-Gal staining showed that the Cre recombination is specifically achieved in cartilage tissues with tamoxifen-induction. In vitro experiments of chondrocyte cell culture also demonstrate the 4-hydroxy tamoxifen-induced Cre recombination. These results demonstrate that Col2a1-CreER(T2) transgenic mice can be used as a valuable tool for an inducible and chondrocyte-specific gene deletion approach.     

A transgenic Cre mouse line for the study of cortical and hippocampal development

Wnt signaling regulates cortical and hippocampal development. In a previous study we found that a particular Wnt receptor, Frizzled9 (Fzd9), was selectively expressed in both the developing and adult hippocampus. Taking advantage of the specificity of this promoter, we generated a transgenic cre mouse line using the putative control elements of the Fzd9 gene. In the Fzd9‐cre mice, Cre is mainly detected in the developing cortex and hippocampus and is confined to the CA fields and dentate gyrus in adults. Furthermore, by crossing the Fzd9‐cre mouse with the ROSA26 reporter line, we examined the activity of Cre and found that it has very high recombination efficiency. Thus, this mouse line will likely prove to be a useful tool for studying cortical and hippocampal development via activation or inactivation of interesting genes. genesis 48:343–350, 2010. © 2010 Wiley‐Liss, Inc.     

Generation of stella-GFP transgenic mice: a novel tool to study germ cell development

The relationship between germ cells and pluripotent embryonic stem (ES) cells is of particular interest, together with approaches to generate primordial germ cell (PGCs) from ES cells. A critical requirement in these experiments is the ability to unambiguously detect PGCs with the use of, for example, reporter genes. The currently available transgenic reporters do not show exclusive expression in PGCs at their earliest developmental stages. Here we describe the use of germline-restricted expression of stella, which is currently the best marker gene for PGCs. We generated two stella-GFP reporters and show that both transgenes surpass other reporters in terms of timing and specificity of expression in PGCs. Additionally, we demonstrate the usefulness of stella-GFP during the derivation of PGCs from ES cells.     

Generation of the tamoxifen-inducible DBH-Cre transgenic mouse line DBH-CT

We generated transgenic mice bearing a tamoxifen-dependent Cre recombinase expressed under the control of the dopamine-β-hydroxylase promoter. By crossing to the ROSA26 reporter mice we show that tamoxifen-induced Cre recombinase in adult mice specifically activates β-galactosidase expression in differentiated noradrenergic neurons of the central and peripheral nervous system. Tamoxifen application in adult mice did not induce β-galactosidase activity in parasympathetic neurons that transiently express DBH during development. Thus, this transgenic mouse line represents a valuable tool to study gene function in mature noradrenergic neurons by conditional inactivation.     

成骨细胞特异性表达Cre重组酶转基因小鼠的建立

构建了含有骨钙素基因启动子、Cre重组酶基因和人生长激素基因polyA的转基因载体pOC-Cre, 以显微注射的方法将4.6 kb的转基因片段OC-Cre导入小鼠受精卵。16只子代小鼠中经PCR和Southern杂交鉴定, 有2只小鼠携带外源基因, 整合率为12.5%。为了检测OC-Cre在转基因小鼠中表达的组织特异性, 将转基因首建者小鼠与基因组上携带有LoxP位点的条件性Smad4基因敲除小鼠交配, PCR结果显示, 仅在子代纯合型小鼠骨组织基因组中扩增出了Cre介导重组后的片段。将OC-Cre转基因小鼠与ROSA26报告小鼠交配, 利用LacZ染色对双转基因阳性子代小鼠进行检测, 结果显示Cre重组酶在成骨细胞中特异性表达并介导ROSA基因座LoxP位点间的重组。所有这些结果说明：所建立的OC-Cre转基因小鼠在成骨细胞中特异性表达Cre重组酶, 并能在体内介导成骨细胞基因组上LoxP位点间的重组, 是一种理想的研制成骨细胞特异性基因敲除小鼠的工具小鼠。     

Characterization of a novel transgenic mouse line expressing Cre recombinase under the control of the Cdx2 neural specific enhancer

Several genetically modified mouse models have been generated in order to drive expression of the Cre recombinase in the neuroectoderm. However, none of them specifically targets the posterior neural plate during neurulation. To fill this gap, we have generated a new transgenic mouse line in which Cre expression is controlled by a neural specific enhancer (NSE) from the Caudal‐related homeobox 2 (Cdx2) locus. Analyses of Cre activity via breeding with R26R‐YFP reporter mice have indicated that the Cdx2NSE‐Cre mouse line allows for recombination of LoxP sites in most cells of the posterior neural plate as soon as from the head fold stage. Detailed examination of double‐transgenic embryos has revealed that this novel Cre‐driver line allows targeting the entire posterior neural tube with an anterior limit in the caudal hindbrain. Of note, the Cdx2NSE regulatory sequences direct Cre expression along the whole dorso‐ventral axis (including pre‐migratory neural crest cells) and, accordingly, YFP fluorescence has been also observed in multiple non‐cranial neural crest derivatives of double‐transgenic embryos. Therefore, we believe that the Cdx2NSE‐Cre mouse line represents an important novel genetic tool for the study of early events occurring in the caudal neuroectoderm during the formation of both the central and the peripheral nervous systems. genesis 51:777–784. © 2013 Wiley Periodicals, Inc.     

A Cre/loxP-deleter transgenic line in mouse strain 129S1/SvImJ

A Cre recombinase expression cassette was inserted into the X-linked Hprt locus by gene targeting in a mouse embryonic stem (ES) cell line isogenic to strain 129S1/SvImJ (129S1), then the transgene was introduced into 129S1 mice through ES cell chimeras. When females hemizygous for this transgene were mated to males carrying a neomycin selection cassette flanked by loxP sites, the cassette was always excised regardless of Cre inheritance and without detectable mosaicism. The usefulness of this "Cre-deleter" transgenic line is in its efficiency and defined genetic status in terms of mouse strain and location of the transgene.     

Generation of a transgenic mouse line expressing GFP-Cre protein from a Hoxb4 neural enhancer

Here, we describe a transgenic mouse line, in which expression of green fluorescent protein fused to Cre recombinase (GFP-Cre) is directed by the early neuronal enhancer (ENE) of Hoxb4. In E9.0-13.5 transgenic embryos, Cre activity coincided with endogenous Hoxb4 throughout the neural tube up to the r6/r7 boundary in the hindbrain, the dorsal root ganglia, and the Xth cranial ganglia. Unexpectedly, Cre activity was also consistently detected in the trigeminal (Vth) cranial nerve, which is devoid of endogenous Hoxb4 expression. Strong GFP dependent fluorescence appeared slightly later in E9.5-E11.5 embryos, and reflected the later expression pattern expected for Hoxb4-ENE directed expression in the neural tube up to the r7/r8 not r6/r7 boundary. Thus, with the exception of the trigeminal nerve, this reporter faithfully reproduces endogenous embryonic neural Hoxb4 expression, and provides an excellent reagent for in vivo gene manipulations in neuronal Hoxb4 positive cells as well as the developing trigeminal nerve. This transgenic mouse line should prove especially useful for determining the fate map of neuronal populations arising in rhombomeres 7 and 8 on its own and in combination with the small set of other existing rhombomere-specific Cre recombinase expressing lines.     

An inducible transgenic Cre mouse line for the study of hippocampal development and adult neurogenesis

The hippocampus is crucial for higher brain functions, such as learning, memory, and emotion. Many diseases like epilepsy and Down's syndrome are associated with abnormalities in early hippocampal development. In addition, adult dentate neurogenesis is thought to be defective in several classes of psychiatric disorders. However, the mechanisms regulating hippocampal development and adult neurogenesis remain unclear. One of the limitations to studying these processes is the scarcity of available specific mouse tools. Here, we report an inducible transgenic Cre mouse line, Frizzled 9‐CreER?, in which tamoxifen administration induces Cre recombinant. Our data show that Cre is expressed in the developing hippocampal primordium, confined to the granule cell layer at P20 and further limited to the subgranular zone in the adult dentate gyrus. Cre recombinase shows very high activity in all of these regions. Thus, this transgenic line will be a powerful tool in understanding the mechanisms of hippocampal development, adult neurogenesis, and associated diseases. genesis 49:919–926, 2011. © 2011 Wiley Periodicals, Inc.     

Unsuspected effects of a lung-specific Cre deleter mouse line

Cre-expressing mouse lines constitute an important asset to mammalian genetics, allowing the deletion of genes in a spatio-temporal specific manner. Our study on Hox gene function in lung development has led us to use a lung endoderm-specific deletion with the Sftpc-cre mouse line expressing the Cre recombinase gene under the control of human surfactant protein C regulatory sequences. In control experiments, the Cre recombinase faithfully activated the Rosa26-lacZ reporter gene in lung epithelium. However as early as e15.5, lungs from Sftp-Cre(+) embryos showed abnormal dilated cysts. This unexpected phenotype was also observed in mice carrying the conditional lung epithelial Hoxa5 deletion, indicating some bias due to Cre deleterious effects. Excessive apoptosis, likely due to Cre toxicity, could explain the abnormal cysts. Our findings illustrate the need for appropriate control experiments and careful interpretation of data to discriminate between the phenotype due to the targeted mutation and the confounding effects of the Cre recombinase.     

他莫昔芬诱导的Cre重组酶在hGfapCreERT2转基因鼠小脑中的表达研究

目的探讨他莫昔芬诱导的hGfapCreERT2转基因鼠小脑中表达Cre重组酶的细胞类型。方法 hGfapCre-ERT2/Rosa26R转基因小鼠在胚胎晚期和出生早期用他莫昔芬诱导Cre重组酶表达,对小脑组织切片行X-gal染色,然后用细胞种类特异性抗体进行免疫组织化学染色,并和X-gal染色双重标记。结果在出生后第7天(P7)、第14天(P14)和第60天(P60),X-gal阳性染色和胶质细胞抗体Blbp阳性染色共标记,和神经元抗体Neun、浦肯野细胞抗体Calbindin及少突胶质细胞前体细胞抗体NG2不共标。结论自胚胎晚期第17.5天(E17.5)后用他莫昔芬诱导hGfapCreERT2转基因鼠,发现Cre重组酶特异性在小脑星形胶质细胞中表达,不在神经元、浦肯野细胞、少突胶质细胞前体细胞中表达。     

Cre recombinase activity specific to postnatal, premeiotic male germ cells in transgenic mice

We have generated a transgenic mouse line,Tg(Stra8-cre)1Reb (Stra8-cre), which expresses improved Cre recombinase under the control of a 1.4 Kb promoter region of the germ cell-specific stimulated by retinoic acid gene 8 (Stra8). cre is expressed only in males beginning at postnatal day (P)3 in early-stage spermatogonia and is detected through preleptotene-stage spermatocytes. To further define when cre becomes active, we crossed Stra8-cre males with Tg(ACTB-Bgeo/GFP)21Lbe (Z/EG) reporter females and compared the expression of enhanced green fluorescent protein (EGFP) with the protein encoded by the zinc finger and BTB domain containing 16 (Zbtb16) gene, PLZF-a marker for undifferentiated spermatogonia. Co-expression of EGFP is observed in the majority of PLZF+ cells. We also tested recombination efficiency by mating Stra8-cre;Z/EG males and females with wild-type mice and examining EGFP expression in the offspring. Recombination is detected in >95% of Z/EG+ pups born to Stra8-cre;Z/EG fathers but in none of the offspring born to transgenic mothers, a verification that cre is not functional in females. The postnatal, premeiotic, male germ cell-specific activity of Stra8-cre makes this mouse line a unique resource to study testicular germ cell development.     

Cre重组酶表达载体的构建及其在转基因小鼠胰腺中的表达

组织特异性表达Cre重组酶的转基因小鼠是进行组织特异性条件敲除研究的关键。采用PCR扩增大鼠胰岛素基因705bp启动子指导发胰岛细胞中特异表达;同时采用改构的Cre重组酶基因,在其5'端添加有真核核糖体结合序列和核定位序列使Cre重组酶能穿越核膜在细胞核能发挥功能;同时,为了保证原核基因Cre能在真核系统顺利表达,在其3'端添加含内含子的人生长激素基因。构建的表达载体在去除原核序列后用显微注射方法转基因小鼠,在出生的27只仔鼠中,PCR检测共获得7只Cre整合阳性的转基因小鼠,整合率26％。这种Cre转基因小鼠与基因组小携带LoxP位点的条件基因打靶小鼠交配,在胰腺组织中可以检测到Cre介导的重组,表明Cre在转基因小鼠胰腺中有表达。