A new mouse model for temporal‐ and tissue‐specific control of extracellular superoxide dismutase

The extracellular isoform of superoxide dismutase (EC‐SOD, Sod3) plays a protective role against various diseases and injuries mediated by oxidative stress. To investigate the pathophysiological roles of EC‐SOD, we generated tetracycline‐inducible Sod3 transgenic mice and directed the tissue‐specific expression of transgenes by crossing Sod3 transgenic mice with tissue‐specific transactivator transgenics. Double transgenic mice with liver‐specific expression of Sod3 showed increased EC‐SOD levels predominantly in the plasma as the circulating form, whereas double transgenic mice with neuronal‐specific expression expressed higher levels of EC‐SOD in hippocampus and cortex with intact EC‐SOD as the dominant form. EC‐SOD protein levels also correlated well with increased SOD activities in double transgenic mice. In addition to enabling tissue‐specific expression, the transgene expression can be quickly turned on and off by doxycycline supplementation in the mouse chow. This mouse model, thus, provides the flexibility for on–off control of transgene expression in multiple target tissues. genesis 47:142–154, 2009. © 2009 Wiley‐Liss, Inc.     

Antifungal activity of recombinant mouse beta‐defensin 3

Aims: To identify the presence of mouse β‐defensin 3 (Mbd3) (the human homologue of β‐defensin 2) in different tissues and to define the antimicrobial properties of recombinant MBD3 (rMBD3) against a panel of human pathogens. Methods and Results: Mbd3 gene expression in different mouse tissues before or after lipopolysaccharide (LPS) injection was compared by semi‐quantitative RT‐PCR. This analysis demonstrated that epithelial and mucosal tissues expressed Mbd3 independent of LPS stimulation. Evaluation of the antimicrobial properties of recombinant rMBD3 was determined by assessing the median inhibition concentration (IC₅₀), minimal inhibitory concentration (MIC) and minimal bactericidal concentration (MBC)/minimal fungicidal concentration (MFC) against various human pathogens. Conclusion: Mbd3 gene expression by epithelial and mucosal tissues suggested that MBD3 likely plays an early defensive role against microbial infections. This activity was most significant against filamentous fungi. Significance and Impact of the Study: The data presented in this report suggested that formulations containing rMBD3 and related molecules could serve to treat fungal and bacterial infections.     

Generation of Elf5‐Cre knockin mouse strain for trophoblast‐specific gene manipulation

Placental development is a complex and highly controlled process during which trophoblast stem cells differentiate to various trophoblast subtypes. The early embryonic death of systemic gene knockout models hampers the investigation of these genes that might play important roles during placentation. A trophoblast specific Cre mouse model would be of great help for dissecting out the potential roles of these genes during placental development. For this purpose, we generate a transgenic mouse with the Cre recombinase inserted into the endogenous locus of Elf5 gene that is expressed specifically in placental trophoblast cells. To analyze the specificity and efficiency of Cre recombinase activity in Elf5‐Cre mice, we mated Elf5‐Cre mice with Rosa26^mT/mG reporter mice, and found that Elf5‐Cre transgene is expressed specifically in the trophoectoderm as early as embryonic day 4.5 (E4.5). By E12.5, the activity of Elf5‐Cre transgene was detected exclusively in all derivatives of trophoblast lineages, including spongiotrophoblast, giant cells, and labyrinth trophoblasts. In addition, Elf5‐Cre transgene was also active during spermatogenesis, from spermatids to mature sperms, which is consistent with the endogenous Elf5 expression in testis. Collectively, our results provide a unique tool to delete specific genes selectively and efficiently in trophoblast lineage during placentation.     

Utero‐tubal transfer of mouse embryos

Summary: A successful embryo transfer depends on the quality of the transferred embryos, recipients, and the transfer techniques. Among these, transfer techniques are often the limiting factor because transfer methodologies and personal skills vary. Suboptimal embryo transfer procedures can compromise transgenic experiments (pronuclear microinjection and gene targeting) and critical steps of mouse colony maintenance (embryo cryopreservation and mouse line rederivation). Here we present an efficient and simple procedure utilizing specific designs to improve the transfer quality. A 100% implantation rate is observed after the utero‐tubal embryo transfer, which indicates that the modified method successfully prevents the embryos from flowing out of the punctured hole during embryo transfer. We believe this alternative methodology is able to fulfill the need of high efficiency of animal production. genesis 30:77–81, 2001. © 2001 Wiley‐Liss, Inc.     

MIR‐34c regulates mouse embryonic stem cells differentiation into male germ‐like cells through RARg

Embryonic stem cells (ESCs) have the capacity to differentiate into nearly all sorts of cell types, including germ cells, which were regarded as one type of highly specialized cells in mammals, taking the responsibility of transferring genetic materials to the next generation. Studies on induction differentiation of murine embryonic stem cells (mESCs) into male germ cells, but with a low efficiency, basic reason is that the regulation mechanism of germ cell development in mammals is still unclear. miRNA might play an important role in spermatogenesis in mammals. In this study, several miRNAs, which might be related to spermatogenesis, were initially selected and detected in the mouse tissues by semi‐polymerase chain reaction (PCR) and quantitative real time (qRT)‐PCR to find a testis‐specific miRNA. To study its effect on mESCs differentiation into male germ cells, miR‐34c mimics were synthesized and pri‐miR‐34c‐GFP plasmid was constructed, transfected into mESCs and combined with retinoic acid induction. The effects of miR‐34c were analysed by morphology, alkaline phosphatase staining, qRT‐PCR_and immunofluorescent staining. The results showed that miR‐34c promoted mESCs differentiation into male germ‐like cells, to some extent. Then miR‐34c targeted genes were predicted by bioinformatics; Retinoic acid receptor gamma (RARg) was selected, and two dual‐luciferase reporter vectors contained the normal and mutated 3′untranslated region of RARg were constructed, respectively. By miRNA mimics and vector co‐transfection experiment, the predicted target gene‐RARg was confirmed. In conclusion, we found a mammalian male germ cell specific miRNA—miR‐34c, and it might be pivotal in mESCs differentiation into male germ cells through its target—RARg. Copyright © 2012 John Wiley & Sons, Ltd.     

Reduction of reperfusion‐induced ventricular fibrillation and infarct size via heme oxygenase‐1 overexpression in isolated mouse hearts

Heme oxygenase‐1 (HO‐1), also known as heat shock protein 32 (hsp‐32) is a stress‐induced cytoprotective protein. The present investigation evaluated the capacity of HO‐1 to reduce the incidence of reperfusion‐induced ventricular fibrillation (VF) and infarct size. HO‐1 transgenic (Tg) mice were generated using a rat HO‐1 genomic transgene. Isolated mouse hearts obtained from Tg and non‐transgenic (NTg) groups were exposed to 20 min. of global ischemia and 120 min. of reperfusion. Epicardial electrocardiogram was recorded to monitor the incidence of reperfusion‐induced VF and at the end of the reperfusion period, detection of HO‐1 by immunohistochemistry and measurement of infarct size using the tetrazolium chloride method were carried out. Results shown here provide additional support for cardioprotective effects of HO‐1 as demonstrated by the reduced infarct size. Moreover, overexpression of the HO‐1 efficiently reduced the incidence of ischemia/reperfusion induced VF in HO‐1 Tg mice.     

Generation and characterization of a mouse line carrying Reck‐CreERT2 knock‐in allele

Reck encodes a membrane‐anchored glycoprotein implicated in the regulation of extracellular metalloproteinases, Notch‐signaling, and Wnt7‐signaling and shown to play critical roles in embryogenesis and tumor suppression. Precise mechanisms of its actions in vivo, however, remain largely unknown. By homologous recombination, we generated a new Reck allele, Reck^CreERT2 (MGI symbol: Reck<tm3.1(cre/ERT2)Noda>). This allele is defective in terms of Reck function but expected to induce loxP‐mediated recombination in the cells committed to express Reck. Similarity in the expression patterns of the Reck^CreERT2 transgene and the endogenous Reck gene was confirmed in five tissues. In the adult hippocampus, induction of Reck expression after transient cerebral ischemia could be demonstrated using this allele. These results indicate the utility of this Cre‐driver allele in further studies.     

Sleep‐like behavior and 24‐h rhythm disruption in the Tc1 mouse model of Down syndrome

Down syndrome is a common disorder associated with intellectual disability in humans. Among a variety of severe health problems, patients with Down syndrome exhibit disrupted sleep and abnormal 24‐h rest/activity patterns. The transchromosomic mouse model of Down syndrome, Tc1, is a trans‐species mouse model for Down syndrome, carrying most of human chromosome 21 in addition to the normal complement of mouse chromosomes and expresses many of the phenotypes characteristic of Down syndrome. To date, however, sleep and circadian rhythms have not been characterized in Tc1 mice. Using both circadian wheel‐running analysis and video‐based sleep scoring, we showed that these mice exhibited fragmented patterns of sleep‐like behaviour during the light phase of a 12:12‐h light/dark (LD) cycle with an extended period of continuous wakefulness at the beginning of the dark phase. Moreover, an acute light pulse during night‐time was less effective in inducing sleep‐like behaviour in Tc1 animals than in wild‐type controls. In wheel‐running analysis, free running in constant light (LL) or constant darkness (DD) showed no changes in the circadian period of Tc1 animals although they did express subtle behavioural differences including a reduction in total distance travelled on the wheel and differences in the acrophase of activity in LD and in DD. Our data confirm that Tc1 mice express sleep‐related phenotypes that are comparable with those seen in Down syndrome patients with moderate disruptions in rest/activity patterns and hyperactive episodes, while circadian period under constant lighting conditions is essentially unaffected.     

Identification of genetic determinants of IGF‐1 levels and longevity among mouse inbred strains

The IGF‐1 signaling pathway plays an important role in regulating longevity. To identify the genetic loci and genes that regulate plasma IGF‐1 levels, we intercrossed MRL/MpJ and SM/J, inbred mouse strains that differ in IGF‐1 levels. Quantitative trait loci (QTL) analysis of IGF‐1 levels of these F2 mice detected four QTL on chromosomes (Chrs) 9 (48 Mb), 10 (86 Mb), 15 (18 Mb), and 17 (85 Mb). Haplotype association mapping of IGF‐1 levels in 28 domesticated inbred strains identified three suggestive loci in females on Chrs 2 (13 Mb), 10 (88 Mb), and 17 (28 Mb) and in four males on Chrs 1 (159 Mb), 3 (52 and 58 Mb), and 16 (74 Mb). Except for the QTL on Chr 9 and 16, all loci co‐localized with IGF‐1 QTL previously identified in other mouse crosses. The most significant locus was the QTL on Chr 10, which contains the Igf1 gene and which had a LOD score of 31.8. Haplotype analysis among 28 domesticated inbred strains revealed a major QTL on Chr 10 overlapping with the QTL identified in the F2 mice. This locus showed three major haplotypes; strains with haplotype 1 had significantly lower plasma IGF‐1 and extended longevity (P < 0.05) than strains with haplotype 2 or 3. Bioinformatic analysis, combined with sequencing and expression studies, showed that Igf1 is the most likely QTL gene, but that other genes may also play a role in this strong QTL.     

Axin2‐mTurquoise2: A novel reporter mouse model for the detection of canonical Wnt signalling

The canonical Wnt signalling pathway has been implicated in organogenesis and self‐renewal of essentially all stem cell systems. In vivo reporter systems are crucial to assess the role of Wnt signalling in the biology and pathology of stem cell systems. We set out to develop a Turquoise (TQ) fluorescent protein based Wnt reporter. We used a CRISPR‐Cas9 approach to insert a TQ fluorescent protein encoding gene into the general Wnt target gene Axin2, thereby establishing a Wnt reporter mouse similar to previously generated Wnt reporter mice but with the mTurquoise2 gene instead of E. coli‐β‐galactosidase (LacZ). The use of mTurquoise2 is especially important in organ systems in which cells need to a be alive for further experimentation such as in vitro activation or transplantation studies. We here report successful generation of Axin2‐TQ mice and show that cells from these mice faithfully respond to Wnt signals. High Wnt signals were detected in the intestinal crypts, a classical Wnt signalling site in vivo, and by flow cytometry in the thymus. These mice are an improved tool to further elucidate the role of Wnt signalling in vivo.     

Spontaneous development of Alzheimer's disease‐associated brain pathology in a Shugoshin‐1 mouse cohesinopathy model

Spontaneous late‐onset Alzheimer's disease (LOAD) accounts for more than 95% of all human AD. As mice do not normally develop AD and as understanding on molecular processes leading to spontaneous LOAD has been insufficient to successfully model LOAD in mouse, no mouse model for LOAD has been available. Existing mouse AD models are all early‐onset AD (EOAD) models that rely on forcible expression of AD‐associated protein(s), which may not recapitulate prerequisites for spontaneous LOAD. This limitation in AD modeling may contribute to the high failure rate of AD drugs in clinical trials. In this study, we hypothesized that genomic instability facilitates development of LOAD and tested two genomic instability mice models in the brain pathology at the old age. Shugoshin‐1 (Sgo1) haploinsufficient (?) mice, a model of chromosome instability (CIN) with chromosomal and centrosomal cohesinopathy, spontaneously exhibited a major feature of AD pathology; amyloid beta accumulation that colocalized with phosphorylated Tau, beta‐secretase 1 (BACE), and mitotic marker phospho‐Histone H3 (p‐H3) in the brain. Another CIN model, spindle checkpoint‐defective BubR1^?/+ haploinsufficient mice, did not exhibit the pathology at the same age, suggesting the prolonged mitosis‐origin of the AD pathology. RNA‐seq identified ten differentially expressed genes, among which seven genes have indicated association with AD pathology or neuronal functions (e.g., ARC, EBF3). Thus, the model represents a novel model that recapitulates spontaneous LOAD pathology in mouse. The Sgo1^?/+ mouse may serve as a novel tool for investigating mechanisms of spontaneous progression of LOAD pathology, for early diagnosis markers, and for drug development.     

Biochemical maturation of Spam1 (PH‐20) during epididymal transit of mouse sperm involves modifications of N‐linked oligosaccharides

Indirect immunofluorescence of mouse caput and caudal sperm shows distinctly different distributions of Spam1 protein, which is associated with structural and functional differences of the molecule. Spam1 is uniformly distributed over the surface of the head of caput sperm while in caudal sperm, light and confocal microscopy demonstrate that it is localized to the anterior and posterior regions. The hyaluronidase activity of Spam1 in acrosome‐intact caput sperm was significantly lower (4.3‐fold; P < 0.0001) than that of caudal sperm. The increase in enzymatic activity in caudal sperm is accompanied by a reduction in the molecular weight (MW): in extracts from caput sperm there was a major band at ∼74 kDa and a minor band at ∼67 kDa; while for the cauda there was a major band at ∼67 kDa and minor bands at ∼70 and ∼56 kDa. Additionally, the bands from caput sperm were 4.9 to 7.7‐fold less intense than those from caudal sperm. This decreased affinity for the polyclonal anti‐Spam1 suggests the presence of different surface characteristics of the molecule from the two epididymal regions. Computer analysis of the protein structure from Spam1 cDNA sequence reveals four putative N‐linked glycosylation sites, and enzymatic deglycosylation suggests that all sites are functional. After endoglycosidase activity of extracts from caput and caudal sperm, both show a major band with a MW of ∼56 kDa, the size of the membrane‐anchored polypeptide backbone. Based on the difference in size and intensity of the Spam1 bands and hyaluronidase activities from caput and caudal sperm, the data suggest that the activation of Spam1 during epididymal maturation is regulated by deglycosylation. Mol. Reprod. Dev. 52:196–206, 1999. © 1999 Wiley‐Liss, Inc.     

Senescence‐associated β‐galactosidase activity marks the visceral endoderm of mouse embryos but is not indicative of senescence

Summary: Senescence‐associated β‐galactosidase (SA‐β‐gal) activity is widely used as a marker of cellular senescence and as an indicator of organismal aging. Here, we report that SA‐β‐gal activity is present in the visceral endoderm layer of early postimplantation mouse embryos in predictable patterns that vary as the embryo progresses in development. However, determination of the mitotic index and analysis of the expression of Cdkn1a (p21), a marker of senescent cells, do not indicate cellular senescence. Instead, analysis of embryos in culture revealed the presence of SA‐β‐gal activity in apical vacuoles of visceral endoderm cells likely a reflection of acidic β‐galactosidase function in these organelles. SA‐β‐gal serves as a practical marker of the dynamics of the visceral endoderm that can be applied to developmental as well as functional studies of early mammalian embryos. genesis 52:300–308, 2014. © 2014 Wiley Periodicals, Inc.     

One method to establish Epstein‐Barr virus‐associated NK/T cell lymphoma mouse models

Novel nude mice model of human NK/T cell lymphoma were established by subcutaneously injecting two NK/T cell lymphoma cell lines into the right axillary region of mice and successful passages were completed by injecting cell suspension which was obtained through a 70‐μm cell strainer. These mice models and corresponding cell clones have been successfully developed for more than 8 generations. The survival rates of both resuscitation and transplantation in NKYS and YT models were 90% and 70% correspondingly. Pathologically, the tumour cells in all passages of the lymphoma‐bearing mice and cell lines obtained from tumours were parallel to initial cell lines. Immunologically, the tumour cells expressed the characteristics of the primary and essential NK/T lymphomas. The novel mice models maintained the essential features of human NK/T cell lymphoma, and they would be ideal tools in vivo for further research of human NK/T cell lymphoma.     

Immune responses in a mouse model of vitiligo with spontaneous epidermal de‐ and repigmentation

To generate a mouse model of spontaneous epidermal depigmentation, parental h3TA2 mice, expressing both a human‐derived, tyrosinase‐reactive T‐cell receptor on T cells and the matching HLA‐A2 transgene, were crossed to keratin 14‐promoter driven, stem cell factor transgenic (K14‐SCF) mice with intra‐epidermal melanocytes. In resulting Vitesse mice, spontaneous skin depigmentation precedes symmetrical and sharply demarcated patches of graying hair. Whereas the SCF transgene alone dictates a greater retinoic acid receptor‐related orphan receptor gamma (RORγt)⁺ T‐cell compartment, these cells displayed markedly increased IL‐17 expression within Vitesse mice. Similar to patient skin, regulatory T cells were less abundant compared with K14‐SCF mice, with the exception of gradually appearing patches of repigmenting skin. The subtle repigmentation observed likely reflects resilient melanocytes that coexist with skin‐infiltrating, melanocyte‐reactive T cells. Similar repigmenting lesions were found in a different TCR transgenic model of vitiligo developed on an SCF transgenic background, supporting a role for SCF in repigmentation.     

A damped precipitation‐driven,bottom‐up model for deer mouse population abundance in the northwestern United States

Small‐mammal population densities can be regulated by bottom‐up (food availability) and top‐down (predation) forces. In 1993, an El Niño Southern Oscillation event was followed by a cluster of human hantavirus with pulmonary syndrome in the southwestern United States. An upward trophic cascade hypothesis was proposed as an explanation for the outbreak: Increased plant productivity as a consequence of El Niño precipitations led to an unusual increase in distribution and abundance of deer mice (Peromyscus maniculatus ; reservoir host of Sin Nombre virus). Could such drastic events occur in mesic habitats, where plant productivity in response to climate conditions is likely to be much less dramatic? In this work, we investigate to what extent deer mouse populations follow a precipitation‐driven, bottom‐up model in central and western Montana and discuss important conditions for such a model to be possible. We found positive correlations between deer mouse abundance and on‐the‐ground measured plant productivity with a several‐month lag in three of six study sites. This effect was weaker when deer mouse populations were more abundant, indicating density‐dependent effects. Dispersal resulting from territoriality may be important in attenuating local density increments in spite of high food availability. In addition, there is evidence that population abundance in the study area could respond to other abiotic factors. In particular, precipitation in the form of snow may reduce deer mice survival, thus compensating the benefits of improved plant productivity. Deer mouse populations in Montana study sites follow complex dynamics determined by multiple limiting factors, leading to a damped precipitation‐driven bottom‐up regulation. This prevents dramatic changes in rodent abundances after sudden increments of food availability, such as those observed in other regions.