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Topical application of thymidine dinucleotides (pTpT) provides some protection against the effects of UV on the skin, however, many details of the protective mechanism have yet to be elucidated. We have used mice with an epidermis-specific knockout for the nucleotide excision repair gene, Ercc1, to investigate the mechanisms of protection. pTpT offered no protection against the pronounced UV-induced short-term erythema and skin thickening responses that are characteristic of DNA repair-deficient skin. It also had no effect on UV-induced apoptosis in Ercc1-deficient cultured keratinocytes. However, in these short-term experiments in both skin and keratinocyte culture pTpT did cause a slight reduction in proliferation. pTpT application during a chronic UV irradiation protocol provided some protection from UVB-induced skin carcinogenesis in epidermis-specific Ercc1 knockout mice. The median tumour free survival time was increased in the pTpT-treated group and treated animals had fewer tumours. In addition, pTpT-treated animals developed fewer large inwardly growing skin lesions than untreated animals. Furthermore, the proliferation response was reduced in chronically irradiated, non-lesional pTpT-treated skin. We conclude that cancer protection by pTpT in our mice is not modulated by an upregulation of DNA repair, as protection appears to be independent of a functional nucleotide excision repair pathway. We hypothesise instead that protection by pTpT is due to a reduction in epidermal proliferation.  相似文献   

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The ERCC1/XPF complex is responsible for incision at the 5' side of the lesion during nucleotide excision repair and is also involved in homologous recombination and interstrand cross-link repair. The aim of the current study was to set up a better model for examination of Ercc1 deficiency in the murine liver and to determine the DNA lesions responsible for the premature polyploidy observed. We used the Cre/lox system with an adenovirus carrying Cre recombinase to conditionally induce Ercc1 deficiency in murine hepatocytes in vitro. Increased levels of apoptosis were apparent in our Ercc1-deficient cultures, both spontaneously and after UV irradiation and oxidative DNA damage. Increased apoptosis was also observed in simple Ercc1-deficient livers and the time course of the development of polyploidy was characterised. Livers from simple Ercc1 knockout mice contained mitochondria with disrupted outer membranes. Lipid accumulation was observed in older Ercc1-deficient hepatocyte cultures and in young Ercc1-deficient and wild-type livers. Lipids disappeared from the wild-type livers with age, but persisted in Ercc1-deficient livers, suggesting that a reduced ability to repair oxidative DNA damage and a malfunction of oxidative pathways could be responsible for the Ercc1-deficient liver phenotype. Real-time RT-PCR was used to determine differences in expression of cell cycle regulation and survival genes between Ercc1-deficient and control livers. Higher mRNA levels of Igfbp2, a possible marker for polyploidy, and p21 were detected in Ercc1-deficient livers. The pro-apoptotic factor, Bax, showed increased levels of mRNA expression in young Ercc1-deficient livers. However, no elevation in the levels of reactive oxygen species, or of malondialdehyde DNA adducts, a product of oxidative DNA damage, were found in Ercc1-deficient liver and no elevated levels of genes involved in the oxidative damage response were seen.  相似文献   

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We have generated a transgenic mouse line that expresses improved Cre recombinase (iCre) under the control of the testis‐expressed gene 101 (Tex101) promoter. This transgenic mouse line was named Tex101‐iCre. Using the floxed ROSA reporter mice, we found that robust Cre recombinase activity was detected in postnatal testes with weak or no activity in other tissues. Within the testis, Cre recombinase was active in spermatogenic cells as early as the prospermatogonia stage at day 1 after birth. In 30‐ and 60‐day‐old mice, positive Cre recombinase activity was detected not only in prospermatogonia but also in spermatogenic cells at later stages of spermatogenesis. There was little or no Cre activity in interstitial cells. Breeding wild‐type females with homozygous floxed fibroblast growth factor receptor 2 (Fgfr2) males carrying the Tex101‐iCre transgene did not produce any progeny with the floxed Fgfr2 allele. All the progeny inherited a recombined Fgfr2 allele, indicating that complete deletion of the floxed Fgfr2 allele by Tex101‐iCre can be achieved in the male germline. Furthermore, FGFR2 protein was not detected in spermatocytes and spermatids of adult Fgfr2fl/fl;Tex101‐iCre mice. Taken together, our results suggest that the Tex101‐iCre mouse line allows the inactivation of a floxed gene in spermatogenic cells in adult mice, which will facilitate the functional characterization of genes in normal spermatogenesis and male fertility. genesis 48:717–722, 2010. © 2010 Wiley‐Liss, Inc.  相似文献   

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To permit conditional gene targeting of floxed alleles in steroidogenic cell-types we have generated a transgenic mouse line that expresses Cre Recombinase under the regulation of the endogenous Cytochrome P450 side chain cleavage enzyme (Cyp11a1) promoter. Mice Carrying the Cyp11a1-GC (GFP-Cre) allele express Cre Recombinase in fetal adrenal and testis, and adrenal cortex, testicular Leydig cells (and a small proportion of Sertoli cells), theca cells of the ovary, and the hindbrain in postnatal life. Circulating testosterone concentration is unchanged in Cyp11+/GC males, suggesting steroidogenesis is unaffected by loss of one allele of Cyp11a1, mice are grossly normal, and Cre Recombinase functions to recombine floxed alleles of both a YFP reporter gene and the Androgen Receptor (AR) in steroidogenic cells of the testis, ovary, adrenal and hindbrain. Additionally, when bred to homozygosity (Cyp11a1GC/GC), knock-in of GFP-Cre to the endogenous Cyp11a1 locus results in a novel mouse model lacking endogenous Cyp11a1 (P450-SCC) function. This unique dual-purpose model has utility both for those wishing to conditionally target genes within steroidogenic cell types and for studies requiring mice lacking endogenous steroid hormone production.  相似文献   

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The albCre transgene, having Cre recombinase driven by the serum albumin (alb) gene promoter, is commonly used to generate adult mice having reliable hepatocyte‐specific recombination of loxP‐flanked (“floxed”) alleles. Based on previous studies, it has been unclear whether albCre transgenes are also reliable in fetal and juvenile mice. Perinatal liver undergoes a dynamic transition from being predominantly hematopoietic to predominantly hepatic. We evaluated Cre activity during this transition in albCre mice using a sensitive two‐color fluorescent reporter system. From fetal through adult stages, in situ patterns of Cre‐dependent recombination of the reporter closely matched expression of endogenous Alb mRNA or protein, indicating most or all hepatocytes, including those in fetal and juvenile livers, had expressed Cre and recombined the reporter. Our results indicate the albCre transgene is effective in converting simple floxed alleles in fetal and neonatal mice and is an appropriate tool for studies on hepatocyte development. genesis 47:789–792, 2009. © 2009 Wiley‐Liss, Inc.  相似文献   

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The ERCC1 gene is essential for the repair of UV-induced DNA damage. Unlike most genes in the nucleotide excision repair (NER) pathway, ERCC1 is also involved in recombinational repair. Perhaps for this reason, ERCC1 knockout mice are not a model for the human NER deficiency disorder, xeroderma pigmentosum. Instead, ERCC1 null mice are severely runted and die before weaning from liver failure with accelerated hepatocyte polyploidy that is more reminiscent of a premature ageing disorder. To permit study of the role of ERCC1 in other tissues we have corrected the liver ERCC1 deficiency with a transgene under the control of a liver-specific promoter. The transgene alleviated runting and extended the lifespan. The elevated level of oxidative DNA damage and premature liver polyploidy were reversed and liver function was corrected. A widespread mitochondrial dysfunction was identified and an essential role for ERCC1 in the kidney was also revealed with transgene-containing ERCC1-deficient animals going on to die of renal failure. The nuclei of kidney proximal tubule cells became polyploid in a similar way to the premature liver polyploidy observed in younger ERCC1-deficient animals. We believe that this is a response to the accumulation of endogenous DNA damage in these particularly susceptible tissues which cannot be repaired in ERCC1-deficient animals.  相似文献   

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Conditional gene knockout using the Cre/loxP system is instrumental in advancing our understanding of the function of genes in a wide range of disciplines. It is becoming increasingly apparent in the literature that recombination mediated by some Cre transgenes can occur in unexpected tissues. Dermo1‐Cre (Twist2‐Cre) has been widely used to target skeletal lineage cells as well as other mesoderm‐derived cells. Here we report that Dermo1‐Cre exhibits spontaneous male germline recombination activity leading to a Cre‐mediated recombination of a floxed Ptk2 (Protein tyrosine kinase 2, also known as Fak [Focal adhesion kinase]) allele but not a floxed Rb1cc1 (RB1 inducible coiled‐coil 1, also known as Fip200 [FAK‐family Interacting Protein of 200 kDa]) allele at high frequency. This ectopic germline activity of Dermo1‐Cre occurred in all or none manner in a given litter. We demonstrated that the occurrence of germline recombination activity of Dermo1‐Cre transgene can be avoided by using female mice as parental Dermo1‐Cre carriers.  相似文献   

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Cardiomyopathy is a progressive disease of the myocardium leading to impaired contractility. Genotoxic cancer therapies are known to be potent drivers of cardiomyopathy, whereas causes of spontaneous disease remain unclear. To test the hypothesis that endogenous genotoxic stress contributes to cardiomyopathy, we deleted the DNA repair gene Ercc1 specifically in striated muscle using a floxed allele of Ercc1 and mice expressing Cre under control of the muscle-specific creatinine kinase (Ckmm) promoter or depleted systemically (Ercc1−/D mice). Ckmm-Cre+/−;Ercc1−/fl mice expired suddenly of heart disease by 7 months of age. As young adults, the hearts of Ckmm-Cre+/−;Ercc1−/fl mice were structurally and functionally normal, but by 6-months-of-age, there was significant ventricular dilation, wall thinning, interstitial fibrosis, and systolic dysfunction indicative of dilated cardiomyopathy. Cardiac tissue from the tissue-specific or systemic model showed increased apoptosis and cardiac myocytes from Ckmm-Cre+/-;Ercc1−/fl mice were hypersensitive to genotoxins, resulting in apoptosis. p53 levels and target gene expression, including several antioxidants, were increased in cardiac tissue from Ckmm-Cre+/−;Ercc1−/fl and Ercc1−/D mice. Despite this, cardiac tissue from older mutant mice showed evidence of increased oxidative stress. Genetic or pharmacologic inhibition of p53 attenuated apoptosis and improved disease markers. Similarly, overexpression of mitochondrial-targeted catalase improved disease markers. Together, these data support the conclusion that DNA damage produced endogenously can drive cardiac disease and does so mechanistically via chronic activation of p53 and increased oxidative stress, driving cardiac myocyte apoptosis, dilated cardiomyopathy, and sudden death.  相似文献   

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Oocyte-specific deletion of ovarian genes using Cre/loxP technology provides an excellent tool to understand their physiological roles during folliculogenesis, oogenesis, and preimplantation embryonic development. We have generated a transgenic mouse line expressing improved Cre recombinase (iCre) driven by the mouse growth differentiation factor-9 (GDF-9) promoter. The resulting transgenic mouse line was named GDF-9-iCre mice. Using the floxed ROSA reporter mice, we found that Cre recombinase was expressed in postnatal ovaries, but not in heart, liver, spleen, kidney, and brain. Within the ovary, the Cre recombinase was exclusively expressed in the oocytes of primordial follicles and follicles at later developmental stages. The expression of iCre of GDF-9-iCre mice was shown to be earlier than the Cre expression of Zp3Cre and Msx2Cre mice, in which the Cre gene is driven by zona pellucida protein 3 (Zp3) promoter and a homeobox gene Msx2 promoter, respectively, in the postnatal ovary. Breeding wild-type males with heterozygous floxed germ cell nuclear factor (GCNF) females carrying the GDF-9-iCre transgene did not produce any progeny having the floxed GCNF allele, indicating that complete deletion of the floxed GCNF allele can be achieved in the female germline by GDF-9-iCre mice. These results suggest that GDF-9-iCre mouse line provides an excellent genetic tool for understanding functions of oocyte-expressing genes involved in folliculogenesis, oogenesis, and early embryonic development. Comparison of the ontogeny of the Cre activities of GDF-9-iCre, Zp3Cre, and Msx2Cre transgenic mice shows there is sequential Cre activity of the three transgenes that will allow inactivation of a target gene at different points in folliculogenesis.  相似文献   

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The tumor suppressor gene Apc (adenomatous polyposis coli) is a member of the Wnt signaling pathway that is involved in development and tumorigenesis. Heterozygous knockout mice for Apc have a tumor predisposition phenotype and homozygosity leads to embryonic lethality. To understand the role of Apc in development we generated a floxed allele. These mice were mated with a strain carrying Cre recombinase under the control of the human Keratin 14 (K14) promoter, which is active in basal cells of epidermis and other stratified epithelia. Mice homozygous for the floxed allele that also carry the K14-cre transgene were viable but had stunted growth and died before weaning. Histological and immunochemical examinations revealed that K14-cre–mediated Apc loss resulted in aberrant growth in many ectodermally derived squamous epithelia, including hair follicles, teeth, and oral and corneal epithelia. In addition, squamous metaplasia was observed in various epithelial-derived tissues, including the thymus. The aberrant growth of hair follicles and other appendages as well as the thymic abnormalities in K14-cre; ApcCKO/CKO mice suggest the Apc gene is crucial in embryonic cells to specify epithelial cell fates in organs that require epithelial–mesenchymal interactions for their development.  相似文献   

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Two recombination steps in embryonic stem (ES) cells were adopted to generate a floxed Germ Cell Nuclear Factor (GCNF) allele. First, a targeting vector containing a loxP site upstream of exon 4, encoding the DNA binding domain (DBD), and a floxed NeoTK double selection cassette downstream of exon 4 was integrated into the GCNF locus by homologous recombination. Second, a Cre-expressing vector was transiently introduced to remove the floxed NeoTK cassette via site-specific recombination. Heterogeneous ES cell populations were found in a single colony after Cre transfection and were separated using an ES cell re-pick step. Floxed GCNF mice were generated and had normal GCNF expression in the adult gonads. Using the Msx2Cre transgenic mice, the floxed GCNF can be completely deleted in the female germline. Taken together, the floxed GCNF mice were successfully generated and female germline deletion of the floxed GCNF allele was achieved using Msx2Cre mice.  相似文献   

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Summary: The bacteriophage Cre recombinase provides a powerful approach for tissue‐specific gene inactivation. Using a Cre transgene driven by the common alpha subunit of glycoprotein hormones (αGSU‐Cre), we have previously inactivated steroidogenic factor 1 (SF‐1) in the anterior pituitary, causing hypogonadotropic hypogonadism with sexual infantilism, sterility, and severe gonadal hypoplasia. We now explore the molecular mechanisms underlying a hypomorphic gonadal phenotype in mice carrying two floxed SF‐1 alleles (F/F) relative to mice carrying one recombined and one floxed allele (F/R). Because their Cre‐mediated disruption of the locus encoding SF‐1 was less efficient, αGSU‐Cre, F/F mice retained some gonadotropin‐expressing cells in the anterior pituitary, thereby stimulating some gonadal function. This novel in vivo model for exploring the effects of differing levels of gonadotropins on gonadal development highlights the need for careful genotype‐phenotype comparisons in studies using Cre recombinase to produce tissue‐specific knockouts. genesis 30:65–69, 2001. © 2001 Wiley‐Liss, Inc.  相似文献   

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Ercc1 is essential for nucleotide excision repair (NER) but, unlike other NER proteins, Ercc1 and Xpf are also involved in recombination repair pathways. Ercc1 knockout mice have profound cell cycle abnormalities in the liver and die before weaning. Subsequently Xpa and Xpc knockouts have proved to be good models for the human NER deficiency disease, xeroderma pigmentosum, leading to speculation that the recombination, rather than the NER deficit is the key to the Ercc1 knockout phenotype. To investigate the importance of the recombination repair functions of Ercc1 we studied spermatogenesis and oogenesis in Ercc1-deficient mice. Male and female Ercc1-deficient mice were both infertile. Ercc1 was expressed at a high level in the testis and the highest levels of Ercc1 protein occurred in germ cells following meiotic crossing over. However, in Ercc1 null males some germ cell loss occurred prior to meiotic entry and there was no evidence that Ercc1 was essential for meiotic crossing over. An increased level of DNA strand breaks and oxidative DNA damage was found in Ercc1-deficient testis and increased apoptosis was noted in male germ cells. We conclude that the repair functions of Ercc1 are required in both male and female germ cells at all stages of their maturation. The role of endogenous oxidative DNA damage and the reason for the sensitivity of the germ cells to Ercc1 deficiency are discussed.  相似文献   

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Corticotropin releasing factor (CRF) dysregulation is implicated in mood and anxiety disorders such as posttraumatic stress disorder (PTSD). CRF is expressed in areas engaged in fear and anxiety processing including the central amygdala (CeA). Complicating our ability to study the contribution of CRF-containing neurons to fear and anxiety behavior is the wide variety of cell types in which CRF is expressed. To manipulate specific subpopulations of CRF containing neurons, our lab has developed a mouse with a Cre recombinase gene driven by a CRF promoter (CRFp3.0Cre) (Martin et al., 2010). In these studies, mice that have the gene that encodes NR1 (Grin1) flanked by loxP sites (floxed) were crossed with our previously developed CRFp3.0Cre mouse to selectively disrupt Grin1 within CRF containing neurons (Cre+/fGrin1+). We find that disruption of Grin1 in CRF neurons did not affect baseline levels of anxiety, locomotion, pain sensitivity or exploration of a novel object. However, baseline expression of Grin1 was decreased in Cre+/fGrin1+ mice as measured by RTPCR. Cre+/fGrin1+ mice showed enhanced auditory fear acquisition and retention without showing any significant effect on fear extinction. We measured Gria1, the gene that encodes AMPAR1 and the CREB activator Creb1 in the amygdala of Cre+/fGrin1+ mice after fear conditioning. Both Gria1 and Creb1 were enhanced in the amygdala after training. To determine if the Grin1-expressing CRF neurons within the CeA are responsible for the enhancement of fear memory in adults, we infused a lentivirus with Cre driven by a CRF promoter (LV pCRF-Cre/fGrin1+) into the CeA of floxed Grin1 mice. Cre driven deletion of Grin1 specifically within CRF expressing cells in the CeA also resulted in enhanced fear memory acquisition and retention. Altogether, these findings suggest that selective disruption of Grin1 within CeA CRF neurons strongly enhances fear memory.  相似文献   

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