The effects of embryo stage and cell number on the composition of mouse aggregation chimaeras

Studies with intact preimplantation mouse embryos and some types of chimaeric aggregates have shown that the most advanced cells are preferentially allocated to the inner cell mass (ICM) rather than the trophectoderm. Thus, differences between 4-cell and 8-cell stage embryos could contribute to the tendency for tetraploid cells to colonise the trophectoderm more readily than the ICM in 4-cell tetraploid<-->8 cell diploid chimaeras. The aim of the present study was to test whether 4-cell stage embryos in 4-cell diploid<-->8-cell diploid aggregates contributed equally to all lineages present in the E12.5 conceptus. These chimaeras were compared with those produced from standard aggregates of two whole 8-cell embryos and aggregates of half an 8-cell embryo with a whole 8-cell embryo. As expected, the overall contribution of 4-cell embryos was lower than that of 8-cell embryos and similar to that of half 8-cell stage embryos. In the 4-cell<-->8-cell chimaeras the 4-cell stage embryos did not contribute more to the trophectoderm than the ICM derivatives. Thus, differences between 4-cell and 8-cell embryos cannot explain the restricted tissue distribution of tetraploid cells previously reported for 4-cell tetraploid<-->8-cell diploid chimaeras. It is suggested that cells from the more advanced embryo are more likely to contribute to the ICM but, for technical reasons, are prevented from doing so in simple aggregates of equal numbers of whole 4-cell and whole 8-cell stage embryos.     

Expression of mutant genes in mouse aggregation chimeras. 4. The aphakia gene

Analysis of aphakia (ak) gene expression in ak/ak C/C in equilibrium +/+ c/c experimental chimaeras has shown that the ak gene acts in the lens rudiment cells blocking it differentiation. In the lens of 12 day old ak/ak C/C in equilibrium +/+ c/c chimaeric embryos undifferentiated ak/ak cells were present among the normally differentiating fibres. In 14 and 18 day old chimaeric embryos and 20 day old chimaeric mice ak/ak cells are located under the lens epithelium and the capsule of posterior lens half. In the locations of ak/ak cells on the posterior lens surface capsule breaks resulted in the extrusion of lens material into the secondary eye cavity. In all studied chimaeric embryos the lens structure is more similar to that in the normal embryos, than in ak/ak embryos. This suggests that in the developing chimaeric lens ak/ak cells are sorted out as the development proceeds. The proliferation rate of +/+ cells appears to be higher than that of ak/ak cells.     

Differentiation of donor primordial germ cells into functional gametes in the gonads of mixed-sex germline chimaeric chickens produced by transfer of primordial germ cells isolated from embryonic blood

This study was carried out to elucidate whether primordial germ cells, obtained from embryonic blood and transferred into partially sterilized male and female recipient embryos, could differentiate into functional gametes and give rise to viable offspring. Manipulated embryos were cultured until hatching and the chicks were raised until maturity, when they were mated. When the sex of the donor primordial germ cells and the recipient embryo was the same, 15 out of 22 male chimaeric chickens (68.2%) and 10 out of 16 female chimaeric chickens (62.5%) produced donor-derived offspring. When the sex of the donor primordial germ cells and the recipient embryo was different, 4 out of 18 male chimaeric chickens (22.2%) and 2 out of 18 female chimaeric chickens (11.1%) produced donor-derived offspring. The rates of donor-derived offspring from the chimaeric chickens were 0.6-40.0% in male donor and male recipient and 0.4-34.9% in female donor and female recipient. However, the rates of donor-derived offspring from the chimaeric chickens were 0.4-0.9% in male donor and female recipient and 0.1-0.3% in female donor and male recipient. The presence of W chromosome-specific repeating sequences was detected in the sperm samples of male chimaeric chickens produced by transfer of female primordial germ cells. These results indicate that primordial germ cells isolated from embryonic blood can differentiate into functional gametes giving rise to viable offspring in the gonads of opposite-sex recipient embryos and chickens, although the efficiency was very low.     

The effects of cell size and ploidy on cell allocation in mouse chimaeric blastocysts

In a previous study of mouse tetraploid<-->diploid chimaeric blastocysts, tetraploid cells were found to be more abundant in the trophectoderm than the inner cell mass (ICM) and more abundant in the mural trophectoderm than the polar trophectoderm. This non-random allocation of tetraploid cells to different regions of the chimaeric blastocyst may contribute to the restricted tissue distribution seen in post-implantation stage tetraploid<-->diploid chimaeras. However, the tetraploid and diploid embryos that were aggregated together differed in several respects: the tetraploid embryos had fewer cells and these cells were bigger and differed in ploidy. Each of these factors might underlie a non-random allocation of tetraploid cells to the chimaeric blastocyst. A combination of micromanipulation and electrofusion was used to produce two series of chimaeras that distinguished between the effects of cell size and ploidy on the allocation of cells to different tissues in chimaeric blastocysts. When aggregated cells differed in cell size but not ploidy, the derivatives of the larger cell contributed significantly more to the mural trophectoderm and polar trophectoderm than the ICM. When aggregated cells differed in ploidy but not cell size, the tetraploid cells contributed significantly more to the mural trophectoderm than the ICM. In both experiments the contributions to the polar trophectoderm tended to be intermediate between those of the mural trophectoderm and ICM. These experiments show that both the larger size and increased ploidy of tetraploid cells could have contributed to the non-random cell distribution that was observed in a previous study of tetraploid<-->diploid chimaeric blastocysts.     

Neurite extension by peripheral and central nervous system neurons in response to substratum-bound fibronectin and laminin

Small groups of blastoderm cells were transplanted from wild-type donor embryos into genetically marked host embryos of the same age. Donor cells were injected either into an homologous or an ectopic region of the recipient, and both donor and recipient embryos were allowed to develop. Donor flies were examined for defects in external structures. Recipients were scored for patches of donor-type marked tissue derived from the injected cells. After ectopic transfer, the donor cells recovered in chimaeric recipients differentiated structures consistent with the donor site of cell removal. No apparent fate change was observed. In the rare cases when both individuals of a donor/host pair survived, a direct correspondence could be made between the deleted region in the donor and the chimaeric patch in the host. The results show that blastoderm cells are stably determined to within a segment.     

Relationship between the phases of mitosis in the cells of chimeric loach embryos

The loach embryos differing in age by 0.5 tau0 (tau0--duration of the mitotic cycle during the synchronous cleavage divisions) were combined in pairs at the stage of 4--8 blastomeres to elucidate the role of intercellular relationships in the preservation of cell division synchrony during cleavage. Following the incubation during 3 tau0 the mean value of interval between mitotic phases in the pairs of combined embryos somewhat decreased but this phenomenon cannot be considered as the proof of cell division synchronization due to the intercellular relationships since it was observed to the same extent in all groups of chimaeric embryos irrespective of the degree of fusion as well as in the control embryos.     

Transfer of extracellular matrix components between germ layers in chimaeric chicken-quail blastoderms

Summary A chemical basis for the transmission of signals during gastrulation has been investigated by using chimaeric embryos resulting from the combination of ³H-glucosamine-labelled and unlabelled hypoblast with epiblast taken from chicken and quail embryos at stage 3 of Vakaet (1970). The ability to distinguish chicken from quail cells on the basis of their different nuclear distribution of heterochromatin after Feulgen staining made it possible to determine the origin of the cells in the chimaerae. Tritiated quail hypoblast (after incubation of the embryo in the presence of ³H-glucosamine) was transplanted onto unlabelled chicken blastoderm deprived of its hypoblast. After culture of the chimaera for 5 h, the autoradiographic pattern shows silver grains not only over the graft, but also at the ventral surface of the epiblast of the host. Transfer of label may occur to mesoblast cells, but not between chicken and quail hypoblast cells. Chase experiments exclude the possibility that unprocessed, tritiated glucosamine is transferred. Chemical fixation of the host before transplantation of a labelled quail hypoblast also allows visualization of a transfer of macromolecules from hypoblast to the basement membrane of the epiblast, suggesting that an intervention of the epiblast cells in this process is not necessary. The morphology of the chimaeric embryos, as studied by scanning electron microscopy, suggests a direct deposition of these macromolecules by filopodia of the dorsal surface of the hypoblast. The possibility of diffusion of free macromolecules has been considered and can reasonably be discarded on the basis of several observations. The reverse experiment, in which unlabelled quail hypoblast and possibly some mesoblast have been combined with a tritiated host deprived of its hypoblast, also shows the transfer of label from the host to the cellular surface of the graft. A two-way exchange of glucosamine-containing molecules thus occurs in the blastoderm. It is hypothesized that: (1) low molecular weight compounds, macromolecular material, and/or catabolic products, are exchanged between the different germ layers during gastrulation; (2) the components of the extracellular matrix turn over and are continuously changing; (3) this transfer is a possible mechanism of transmission for developmental or inductive signals during embryonic development. The present results also demonstrate the participation of underlying tissue in the biosynthesis of basement membrane components of an epithelium.     

激光辅助制作小鼠嵌合体胚胎的研究

目的：探索激光辅助体外制作小鼠嵌合体胚胎的方法。方法：激光辅助去除不同发育阶段体外受精胚胎的透明带,随机组合卵裂球体外培养,观察胚胎融合情况。结果：没有透明带的卵裂球体外能够“自发”融合,并且融合胚胎在体外培养环境中,能够发育至囊胚期,显微镜观察其形态基本与二倍体胚胎无差别。结论：激光辅助方法获得裸露的卵裂球能够在体外培养环境制作嵌合体胚胎。     

Genetic analysis of developmental mechanics in hydra : XI. Mechanism of sex reversal by heterosexual parabiosis

Sex change from female to male occurs at a high rate in hydra when a female polyp is exposed to a male polyp by parabiosis for a limited length of time. The mechanism of this masculinization process was investigated. When a male strain which produces immotile sperm was used to masculinize female strains, the resultant masculinized animals produced only immotile sperm. Evidence was also obtained which indicated that the original female interstitial cells remained in large numbers in the masculinized animals but did not differentiate into gametic cells. These observations suggest that masculinization is achieved not by the hypothetical "masculinizing factor" but by the migration of the male interstitial cells from the male to the female tissue during parabiosis.     

Experimentally produced diploid-triploid mouse chimaeras develop up to adulthood

Spontaneous diploid-triploid chimaeras occur sporadically in various mammalian species including man, but so far have never been produced experimentally. In order to get a deeper insight into the developmental consequences of this anomaly, we have developed two procedures that enabled for the first time to produce routinely diploid-triploid embryos, foetuses, and animals in the mouse. These procedures are: (1) aggregation of cleaving diploid embryos with triploid embryos produced by suppression of the second polar body in zygotes, and (2) fusion of a haploid karyoplast with one blastomere of the two-cell diploid embryos. The first procedure yielded 23 living and 6 dead postimplantation embryos and foetuses (age: 8th-19th day) out of which 22 were chimaeric. In addition, three chimaeric neonates reached adulthood. Two animals were fertile, and one--an overt chimaera--was an infertile male. The rate of postimplantation development of aggregation chimaeras was normal or only slightly retarded, and with one exception the foetuses were morphologically normal. Generally, the highest contribution of the 3n component in extra-embryonic structures was noted in the yolk sac, and usually it was higher than its contribution to the organs of the body. Chimaerism was most often noted in the liver, the heart, the intestine, and the lungs. Participation of triploid cells to all tissues studied, both in the body and in extra-embryonic structures, appeared to decrease slightly as development progressed. The second procedure yielded 10 foetuses and 6 adults. Three foetuses were chimaeric. Six fertile adults were probably non-chimaeras: the triploid component was absent in the coat and in the blood.     

An in situ assessment of the routes and extents of colonisation of the mouse embryo by embryonic stem cells and their descendants

An embryonic stem (ES) cell line stably expressing lacZ under the control of an endogenous promoter has been isolated and used as a marker to follow the fate of ES cells injected into blastocysts and morulae, before midgestation. The results show a multisite pattern of blastocyst colonization by ES cells deposited into the blastocoel cavity and a low degree of mingling between ES cells and ICM cells. Furthermore, analysis of dispersal of ES cell descendants in postimplantation chimaeric embryos showed that colonization can be highly variable from one region of the embryo to another. In contrast, a high and reproducible degree of chimaerism was obtained when the ES cells were injected at the morula stage prior to ICM formation.     

Neural crest progenitors of the melanocyte lineage: coat colour patterns revisited

Neural crest-derived melanoblasts are the progenitors of melanocytes, the pigment cells of the skin, hair and choroid. Previous studies of adult chimaeric mice carrying different coat colour markers have suggested that the total melanocyte population is derived from a small number of melanoblast progenitors, each of which generates a discrete unilateral transverse band of colour. This work also suggested minimal mixing of cells between clones. We have used two complementary approaches to assess the behaviour of migrating clones of melanoblasts directly in the developing embryo. First, we made aggregation chimaeras between transgenic Dct-lacZ and non-transgenic embryos, in which lacZ is a marker for melanoblasts. Second, we generated transgenic mice carrying a modified lacZ reporter construct containing a 289 base pair duplication (laacZ) under the control of the Dct promoter. The laacZ transgene is normally inactive, but reverts to wild-type lacZ at low frequency, labelling a cell and all of its progeny at random. Mosaic embryos containing labelled melanoblast clones were generated. In contrast to previous data, chimaeric and mosaic embryonic melanoblast patterns suggest that: (1) there is a large number of melanoblast progenitors; (2) there is a pool of melanoblasts in the cervical region; (3) different cell dispersion mechanisms may operate in the head and trunk regions; and (4) there is extensive axial mixing between clones.     

Quantitative analysis of mid-gestation mouse aggregation chimaeras: non-random composition of the placenta

Mouse chimaeras were produced by aggregating eight-cell embryos from two different F₂ matings, abbreviated to AF₂ and BF₂ respectively: (C57BL/ OIa.AKR-Gpi-1s ^a, c/Ws female × BALB/c male)F₂ and (C57BL/Ws female × CBA/Ca male)F₂. Quantitative electrophoresis of glucose phosphate isomerase (GPI-1) was used to estimate the proportions of the two cell populations in different tissues of the 12 day chimàeric conceptuses, with the % GPI-1A indicating the percentage of cells derived from the AF₂ embryos. The % GPI-1A was found to be highly positively correlated within the primitive ectoderm lineage (between the fetus, amnion and yolk sac mesoderm) and within the primitive endoderm lineage (between the yolk sac endoderm and the parietal endoderm) but no correlation (either positive or negative) was seen between the two lineages. This confirms the results of a previous,study of chimaeras made between partially congenic strains and suggests the original conclusions have general validity. The % GPI-1A in the placenta was corrected for the expected contribution of maternal GPI-1, based on control experiments involving transfer of homozygous Gpi-1s ^b /Gpi-1s ^b embryos to the uteri of Gpi-1s ^a /Gpi-1s ^a pseudopregnant females. The corrected % GPI- lA in the placenta was positively correlated with that in each of the three primitive ectoderm derivatives. This suggests either (1) exchange of cells between the polar trophectoderm and the underlying part of the inner cell mass that forms the primitive ectoderm or (2) cells are incompletely mixed in the chimaeric blastocyst and patches of AF₂ and BF₂ cells straddle the boundary between the polar trophectoderm and the underlying primitive ectoderm. The second explanation does not imply the existence of shared developmental lineages between trophectoderm and primitive ectoderm in non-chimaeric embryos. Unlike that of any other tissue, the distribution of placental GPI-1A was U-shaped; in 17/28 placenta samples the proportion of the minor component was 10% or less. This suggests that the placental trophoblast is derived from a small number of coherenct clones of polar trophectoderm cells (either a small number of polar trophectoderm cells or a larger number if the two cell populations are not finely intermingled). Thus, although as a population the placentas of chimaeric conceptuses are balanced with respect to the % GPI-1A (mean close to 50%), individually most placentas are extremely unbalanced in their chimaeric composition (< 10% or > 90% GPI-IA). This non-random composition of the chimaeric placentas is in contrast to the widely held assumption that the distribution of cells in chimaeric conceptuses is normally random. Correspondence to: J.D. West     

Fate of Friend leukaemia cells and lymphoma cells injected into mouse blastocysts

Our aim was to verify whether differentiated murine cells grafted into mouse blastocysts would follow the same fate as teratocarcinoma cells which lose their malignant character and participate in the development of the host embryo yielding chimaeric animals. Two combinations of host embryo-cancer cells were used. Animals were examined after birth or by pregnancy interruption at various stages of development. More than 350 animals obtained from cancer-cells-injected embryos failed to show direct evidence of loss of malignancy.     

Production of chimaeric bovine embryos and calves by aggregation of inner cell masses with morulae

Bovine inner cell masses (ICMs) were isolated by immunosurgery at day 8 or 10, or by dissection at day 14, and combined with day-5.5 morulae. Aggregation was obtained between 89%, 62%, and 0% of the day-5:day-8, day-5:day-10, day-5:day-14 composites, respectively. Chromosome analysis of composites, respectively. Chromosome analysis of composites potentially carrying the 1/29 translocation as a chromosome marker and temporarily transferred to the bovine uterus for 8 days showed that chimaeric day-14 embryos can be obtained from day-5:day-8 aggregation. The definitive transfer of eight day-5:day-8 and 11 day-5:day-10 composites resulted in the birth of six and four calves, respectively; five of the six, but none of the four, were chimaeric. The five chimaeras showed mostly the ICM phenotype. The morphological differences between ICMs at different stages of development were examined by electron microscopy and related to the success of the aggregation technique. It is concluded that bovine embryonic cells can regulate for at least 3 days difference in development but not 5 days even though aggregation is still possible.     

Neural cells without functional N-Methyl-D-Aspartate (NMDA) receptors contribute extensively to normal postnatal brain development in efficiently generated chimaeric NMDA R1 -/- <--> +/+ mice

Embryonic stem (ES) cells have revolutionised our understanding of animal physiology. Analysis of chimaeric mice generated from these cells allows us to study the role of genes in development and function of the nervous system. The NMDA receptor, one of the two major ionotropic glutamate receptors, has been proposed to play fundamental roles in the survival, migration, differentiation, and activity-dependent maturation of neural cells. The NMDA receptor subunit 1 (NR1) gene is indispensable for receptor function, and knock-out mice die at birth, inhibiting the study of glutamate signalling in postnatal neurons. Homozygous NR1-/- ES cells were derived from matings of heterozygous mice under feeder-free conditions. Chimaeras were made by incorporating these ES cells into wild-type blastocysts and by the classical aggregation of morulae between wild-type and NR1-/- embryos. The resulting chimaeras survive and develop normally. NR1-/- neurons, identified by their lacZ label, were analysed and quantified in developing and adult brains with varying knock-out contributions in every single brain region. Specifically, postnatal ontogenesis of cerebellum and hippocampus was normal. Accordingly, in chimaeric mice, NMDA receptor-initiated signals are not required for the migration, differentiation, and survival of most types of neurons in the central nervous system, in a cell-autonomous way.     

Interaction between epithelial basement membrane and migrating mesoblast cells in the avian blastoderm

We investigated the remodeling of glucosamine-containing basement-membrane components in chimaeric avian embryos during gastrulation. Epiblast grafts metabolically labelled with tritiated glucosamine were excised from gastrulating quail embryos and implanted orthotopically into chicken embryos at the same developmental stage. The chimaerae were allowed to develop in culture for 5-7 h before autoradiographic processing. The resulting autoradiographs not only showed the presence of silver grains in the grafted quail tissue and at the level of its basement membrane, but also revealed labelling in the basement-membrane region of the chicken tissue lateral to the graft, i.e. between the mesoblast and epiblast. This last labelling extended as far as at the edge of the area pellucida, i.e. in a region of chicken tissue situated more laterally than the initial position of the graft. No labelling was observed medial, anterior, or posterior to the graft. This observation argues against the interpretation that our results were due to diffusion of labelled compounds within the basement membrane. We also provide evidence to exclude the possibility that quail epiblast cells migrated on their own underlying basement membrane, leaving behind a carpet of labelled material. Taking into account, firstly, the morphogenetic movements that occur during gastrulation, i.e. the movement of epiblast cells towards the primitive streak where they ingress, and the migration of mesoblast cells along the basement membrane towards the periphery of the area pellucida, and secondly, the medial movement of the basement membrane, it is suggested that mesoblast cells picked up labelled compounds in the basement membrane of the graft and left these behind during their lateral migration.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of alterations in the immunocompetent status of Mus musculus females on the survival of transferred Mus caroli embryos

The role of the immune system in promoting the midterm death of Mus caroli embryos transferred to the Mus musculus uterus was studied in vivo by transferring M. caroli blastocysts to recipients with altered immune status. Transfers of embryos to chimaeric mothers (Mus musculus in equilibrium Mus caroli), which were expected to be tolerant of species antigens, resulted in survival of M. musculus embryos but death of M. caroli embryos. The preferential survival of M. musculus embryos was explained by showing that M. musculus embryos can survive in the M. caroli uterus. Transfers to T cell-deficient mice of genotype nu/nu and to NK cell-deficient mice of genotype bg/bg as well as treatment of normal transfer recipients with Cyclosporin A or anti-Ia antiserum failed to prolong survival. However, immunization of recipients with M. caroli lymphocytes promoted more rapid and uniform failure of the interspecies pregnancy. Cytotoxic cells were detected in the resorbing embryos on Day 10.5 in immune pregnancies and on Day 12.5 in non-immune pregnancies and these cells were promiscuous in their pattern of lysis, showing equal reactivity against M. caroli, transfer recipient and 3rd party target cells. These experiments show that failure of M. caroli embryos in the M. musculus uterus is complex, but probably does not involve responses by classical cytotoxic T lymphocyte or natural killer cell pathways. Participation of the immune system in the resorption process, however, is confirmed and is associated with generation of promiscuous cytolytic cells.