Analysis of cell ploidy in histological sections of mouse tissues by DNA-DNA in situ hybridization with digoxigenin-labelled probes

Keighren, Margaret; West, John D.

doi:10.1007/bf00161042

Cited by 46 publications

(43 citation statements)

References 39 publications

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“…Thus, the Y353/B Y chromosome-specific marker 18) was chosen, because 30 copies of the cognate and 250 copies of related sequences exist along the length of the Y chromosome. 29) This chromosomal marker has been used as a hemizygous marker for liver sections 30) and for transplanted hepatocytes 31) with strong reproducibility. The Y chromosome-specific marker can visualize XY cells directly even when the chimerism ratio is extreme so that Sry SSLP analysis is impossible.…”

Section: Discussionmentioning

confidence: 99%

Mouse Strain Susceptibility to Diethylnitrosamine Induced Hepatocarcinogenesis Is Cell Autonomous Whereas Sex‐susceptibility Is Due to the Micro‐environment: Analysis with C3H ↔ BALB/c Sexually Chimeric Mice

Tsukamoto

Inada

Fukami

et al. 2000

Japanese Journal of Cancer Research

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In man, liver cancer is on the increase, especially in males. Sex differences also exist in rodent models. To elucidate the mechanisms, chimeric mice were produced by amalgamation of early embryos from high and low hepatocarcinogen-susceptible strains, C3H and BALB/c. Tumor formation was initiated with 10 mg/kg of diethylnitrosamine at the ages of 7 and 14 days and mice were sacrificed at 30 and 45 weeks. The chimeras were classified into XY ↔ ↔ ↔ ↔XY, XY ↔ ↔ ↔ ↔XX, XX ↔ ↔ ↔ ↔XY, and XX ↔ ↔ ↔ ↔XX in terms of sex chromosomes by means of polymerase chain reaction-simple sequence length polymorphism analysis (SSLP) using Y chromosome-specific Sry primers in combination with the D3Mit21 marker. Liver lesions were analyzed histopathologically, by immunostaining using a C3H strain-specific antibody and by DNA in situ hybridization with the Y chromosomespecific digoxigenin-labeled Y353/B probe. Sex and strain genotyping by SSLP analysis matched histological observations, confirming the reliability of our system. The strain differences in liver tumor numbers of each strain type in XY↔ ↔ ↔ ↔XY and XX ↔ ↔ ↔ ↔XX subtypes of C3H↔ ↔ ↔ ↔BALB/c chimeras were retained well (P < < < <0.0001 and P < < < <0.001, respectively), indicating a minimum influence of the C3H or BALB/c surrounding milieu on development of individual lesions. On the other hand, significant promotion of XX cell tumors was evident in phenotypically male sexually chimeric XY ↔ ↔ ↔ ↔XX and XX ↔ ↔ ↔ ↔XY chimeras for both C3H (P < < < <0.02) and BALB/c (P < < < <0.01) lesions compared to the XX ↔ ↔ ↔ ↔XX case. The results suggest the presence of hormonal or micro-environmental factors specific for males, which are not caused cell-autonomously. Basic strain differences, however, are determined by intrinsic genetic factors rather than the strain-dependent micro-environment.Key words: Chimera -Hepatocarcinogenesis -Strain susceptibilityIn man, the occurrence of primary liver cancer has been on the increase for several years, changes in rates being more marked in males than in females. 1) In Japan, 1996 death rates for intrahepatic neoplasia were 37.5 and 14.6/ 100 000 for males and females, respectively, according to the National Health and Welfare Statistics. 2)In rodent models, there also are sex differences in spontaneous and carcinogen-induced hepatocarcinogenesis, males being more susceptible than females.3, 4) One fundamental question is whether the sex differences are cellautonomous or caused by hormonal or micro-environmental factors. To address this issue, Kemp et al. 5) utilized Tfm (testicular feminization) mutant mice and showed that liver tumor promotion by testosterone required a functional androgen receptor in the intact animal. Other researchers reported that castration of males reduced the incidence of carcinomas and adenomatous nodules in 3′ ′ ′ ′-methyl-4-dimethylaminoazobenzene (3′-Me-DAB)-treated 6) and in N,N-diethylnitrosamine (DEN)-treated mice.7) The results with DEN-initiated and 2-acetylaminofluorenetreated rats appear similar. 8) Furth...

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Section: Discussionmentioning

confidence: 99%

Mouse Strain Susceptibility to Diethylnitrosamine Induced Hepatocarcinogenesis Is Cell Autonomous Whereas Sex‐susceptibility Is Due to the Micro‐environment: Analysis with C3H ↔ BALB/c Sexually Chimeric Mice

Tsukamoto

Inada

Fukami

et al. 2000

Japanese Journal of Cancer Research

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“…However, transgenic markers are now more commonly used. These include the highly reiterated Tg(Hbb-b1)83Clo transgene, which can be detected in histological sections by DNA in situ hybridisation (Keighren and West, 1993;Lo, 1986), and transgenes that express ubiquitously either lac Z, such as Gt(ROSA)26Sor (ROSA26) (Friedrich and Soriano, 1991), or green fluorescent protein (GFP) (Hadjantonakis et al, 1998a;Pratt et al, 2000).…”

Section: Chimerasmentioning

confidence: 99%

Analysis of mouse eye development with chimeras and mosaics

Collinson

Hill²,

West³

2004

Int. J. Dev. Biol.

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Analysis of experimental mouse chimeras (chimaeras) and mosaics provides a means of investigating patterning and differentiation within the developing mammalian eye. Chimeric and mosaic mice carry two or more genetically distinct cell populations and extend the repertoire of analytical tools available to the geneticist. Here we review the impact these techniques have had on our understanding of eye organogenesis. Chimeras and mosaics are routinely used to investigate cell lineages, patterns of growth and gene function, and provide a means to clear analytical hurdles that otherwise limit standard genetic approaches. In particular, chimeras are used to investigate the roles of genes in tissues that do not develop in conventional mutant or knock-out mice, to test whether genes act cell autonomously or non-autonomously in different tissues and to dissect tissue-tissue interactions in less tractable, complex systems. Chimeras, in which cells of different genetic composition are mixed at a fine-scale cellular level, may provide qualitatively different data from mosaic mice with conditional knockouts. The uses of chimeras, Cre-loxP mosaics and in vitro tissue recombination for study of ocular organogenesis are compared. Wider use of mosaics and chimeras should provide further insights into eye development.

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“…Serial sections were cut at 7 µm and in situ hybridisation was carried out, using the digoxygenin-labelled probe pMβδ2 (Lo et al 1987) and a diaminobenzidine endpoint (Keighren & West, 1993), to detect the β-globin sequences. In this way, the hemizygous diploid (Tg\-) or tetraploid cells (Tg\Tg\-\-), bearing 1 or 2 copies of the β-globin transgene respectively could be distinguished from cells from the other contributing embryo.…”

Section: Production Of Chimaeric Blastocystsmentioning

confidence: 99%

Three‐dimensional reconstruction of tetraploid↔diploid chimaeric mouse blastocysts

et al. 2000

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Studies of tetraploid diploid (4n 2n) mouse chimaeras have demonstrated unequal contributions of 4n cells to different tissues of the midgestation conceptus. Such a pattern has also been reported in chimaeras as early as E3.5d, which show an enhanced contribution of 4n cells to the mural trophectoderm . In this study, sectioned 4n 2n and 2n 2n control chimaeric blastocysts were digitised and reconstructed in 3 dimensions (3-D). The 3-D images revealed only limited mixing of cells from the 2 contributing embryos of individual blastocysts in both chimaera groups. Consequently, the distribution pattern of the 2 cell types was dependent on the spatial relationship between the orientation of the blastocyst and the boundary between the 2 clusters of cells. The distribution patterns observed were not strikingly different for 4n 2n and 2n 2n chimaeras, each showing some transgenic positive cell contribution in all 3 identifiable developmental lineages. It was notable, however, that in all 4n 2n blastocysts at least some 4n cells were located adjacent to the blastocyst cavity. Such a consistent pattern was not evident in 2n 2n chimaeras. This study has demonstrated the value of 3-D reconstructions for the analysis of spatial relationships of 2 cell populations in chimaeric mouse blastocysts.Key words : Tetraploidy ; blastocyst ; chimaera ; chimera ; embryo. Tetraploid cells (4n) have been shown to be distributed nonrandomly in mouse postimplantation tetraploid\ diploid (4n\2n) mosaics (Tarkowski et al. 1977) and 4n 2n chimaeras (Lu & Markert, 1980 ;Nagy et al. 1990 ;James et al. 1995), readily contributing to the extraembryonic tissues but rarely to the fetus itself. Studies at E12.5 and E7.5 have revealed that 4n cells are not simply restricted to extraembryonic tissues but more specifically to trophectoderm and primitive endoderm derivatives (James et al. 1995). We also demonstrated that, as a group, 4n 2n blastocysts show a statistically significant greater contribution of 4n cells to the mural trophectoderm than to the inner cell mass or polar trophectoderm . This phenomenon appears to be related to ploidy not cell size at aggregation and Three-dimensional (3-D) reconstruction is potentially an extremely powerful tool for visualising the distribution of cell types within embryos. We produced 4n 2n aggregation chimaeras, in which the tetraploid component was hemizygous for the β-globin transgene TgN(Hbb-1)83Clo (Lo et al. 1987), and analysed them at the blastocyst stage by computer-aided 3-D reconstruction of histological sections. The aims were (1) to evaluate the use of 3-D reconstruction for the analysis of cell distributions in chimaeras and (2) to test whether any consistent pattern could be distinguished for the distribution of 4n cells in individual E3.5 4n 2n chimaeric blastocysts. Preliminary results from this study have been published in abstract form .

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Analysis of cell ploidy in histological sections of mouse tissues by DNA-DNA in situ hybridization with digoxigenin-labelled probes

Cited by 46 publications

References 39 publications

Mouse Strain Susceptibility to Diethylnitrosamine Induced Hepatocarcinogenesis Is Cell Autonomous Whereas Sex‐susceptibility Is Due to the Micro‐environment: Analysis with C3H ↔ BALB/c Sexually Chimeric Mice

Mouse Strain Susceptibility to Diethylnitrosamine Induced Hepatocarcinogenesis Is Cell Autonomous Whereas Sex‐susceptibility Is Due to the Micro‐environment: Analysis with C3H ↔ BALB/c Sexually Chimeric Mice

Analysis of mouse eye development with chimeras and mosaics

Three‐dimensional reconstruction of tetraploid↔diploid chimaeric mouse blastocysts

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