Evidence for the derivation of mammalian somatic hybrids from polykaryocytes

The effects which parental cell density at the time of fusion with polyethylene glycol has on the production of viable somatic hybrids, frequency of polykaryocytes and nuclear multiplicity have been determined for Chinese hamster (line Wg3) and mouse (line 3TP) fibroblasts. Hybrid frequencies appeared to be highest where polykaryons with more than two nuclei prevailed over dikaryons, suggesting that a substantial fraction of viable hybrids is derived from fusion events which involve more than two cells.     

Identification of equine chromosomes in horse x mouse somatic cell hybrids.

Giemsa-11 (G-11) staining and in situ hybridization were used to identify the equine chromosome complement of horse x mouse somatic cell hybrids. The presence of horse chromosomes in somatic cell hybrids was determined by differential G-11 staining. The slides were then destained and hybridized with biotinylated total horse (Equus caballus) genomic DNA without suppression. Fluorescence detection permitted rapid confirmation of horse chromosomal DNA in the hybrid cells.     

Evidence for trans regulation of apoptosis in intertypic somatic cell hybrids.

The genetic components required for glucocorticoid induction of apoptosis were studied by using somatic cell hybridization. Intertypic whole-cell hybrids were generated by crossing the glucocorticoid-resistant rat liver cell line Fado-2 with the glucocorticoid-sensitive mouse thymoma cell line BW5147.3. Morphological and biochemical criteria were used to assess sensitivity or resistance to glucocorticoid-induced cell death. Both phenotypes were observed, and all of the hybrids retained a functional glucocorticoid receptor as judged by their abilities to induce the metallothionein gene in response to dexamethasone (Dex). Sensitivity to apoptosis did not correlate with morphological phenotype in that not all suspension cells were sensitive. The effect of glucocorticoids on the expression of apoptosis-linked genes was analyzed in a subset of Dex-sensitive and Dex-resistant hybrids. p53 and c-myc mRNAs were present in parental cells as well as sensitive and resistant hybrid cells, and their levels were not affected by glucocorticoid treatment. bcl-2 expression was restricted to the thymoma cell line and was also not affected by glucocorticoids. We did not detect any bcl-2 mRNA in the hepatoma cell line and the hybrids, suggesting that, as with most tissue-specific genes, bcl-2 is regulated in trans. Furthermore, while the majority of hybrids analyzed retained a full complement of mouse chromosomes, sensitive hybrids were missing some rat chromosomes (preferentially chromosomes 16 and 19), indicating that apoptosis is subject to trans repression. Resistant cells thus appear to repress the activity or synthesis of a nuclear factor that interacts with a glucocorticoid-dependent gene(s) to activate the cell death pathway.     

"PCR-karyotype" of human chromosomes in somatic cell hybrids

Amplification of human DNA sequences in 16 monochromosomal somatic cell hybrids containing different human chromosomes were performed by the polymerase chain reaction (PCR) using primer directed at human-specific regions of Alu or L1, the two major classes of interspersed repetitive sequences (IRS-PCR). A chromosome-specific pattern of amplification products was observed on agarose gels run with ethidium bromide, producing a "PCR-karyotype." This simple gel analysis provides a rapid method for identifying and monitoring the human chromosomal content of monochromosomal somatic cell hybrids without conventional cytogenetic analysis. Hybrids containing multiple human chromosome produce complex gel patterns, but identification of chromosome content can be achieved by hybridization of PCR products against a reference panel of monochromosomal or highly reduced hybrids representing each human chromosome. This dot-blot method also enables identification of human marker chromosomes or translocated pieces in hybrids that are not identifiable by cytogenetic methods. These IRS-PCR methods should greatly reduce the need for more laborious cytogenetic, isozyme, and Southern blot characterizations of human-rodent cell hybrids.     

Regional localization of DNA sequences on chromosome 21 using somatic cell hybrids.

We have used a panel of Chinese hamster X human somatic cell hybrids, each containing various portions of chromosome 21 as the only detectable human chromosome component, for regional mapping of cloned, chromosome 21-derived DNA sequences. Thirty unique and very low-repeat sequences were mapped to the short arm and three sections of the long arm. Three unique sequences map to the proximal part of the terminal band 21q22.3, and five to the distal part of this band. Some of these may represent parts of gene sequences that may be relevant to the pathogenesis of Down syndrome, as 21q22 is the area required to be present in triplicate for the full clinical picture.     

PCR primers for human chromosomes: reagents for the rapid analysis of somatic cell hybrids

Rapid analysis of somatic cell hybrids can be facilitated by using the polymerase chain reaction (PCR) to assay for genes assigned to specific human chromosomes. We describe PCR primer pairs for genes on the short and long arms of the 22 autosomes and the X chromosome. Some of the primers were designed from the 3' untranslated region of cDNA sequences, whereas others were derived from genomic sequence. Each primer set was tested for its specificity and mapped to a chromosome by screening a somatic cell hybrid panel. Two of the primer pairs (APOC2 and G6PD) detect CA dinucleotide repeat polymorphisms.     

A method for discriminating murine and human chromosomes in somatic cell hybrids

Treatment of cultured mouse cells with the benzimidazole compound “33258 Hoechst” induces an enlargement of the pericentric area of most mouse metaphase chromosomes. The drug, however, has no effect on human chromosomes. Therefore, pretreatment of mouse-man somatic cell hybrids with the compound allows easy discrimination of murine and human chromosomes in the metaphase preparations.     

Quantitative analysis of human chromosome segregation in man-mouse somatic cell hybrids.

The presumed random and independent process of human chromosome segregation in man-mouse somatic cell hybrids was studied. The results of chromosome analysis on 196 cells from 15 related hybrid strains have provided the first convincing evidence that segregation of human chromosomes can be nonindependent and often concordant. Different human chromosomes were not retained with equal frequency in these hybrid clones. Some were present in 80% of all the cells, whereas others appeared in less than 10% of the same cells. Linear regression analysis was used to test for correlation of the frequencies of all pair-wise combinations of human chromosomes present in these hybrid clones. Twenty-two of 136 possible correlations were statistically significant, indicating that concordant segregation of particular pairs of human chromosomes is a rather frequent occurrence.     

An informative panel of somatic cell hybrids for physical mapping on human chromosome 19q.

A panel of 22 somatic cell hybrids divides the q arm of human chromosome 19 into 22 ordered subregions. The panel was characterized with respect to 41 genetic markers. In most cases, a single fragment of chromosome 19 was present in each hybrid. In two cell lines the presence of multiple fragments of the chromosome was demonstrated by segregation of these fragments in subclones. On the basis of the results of marker analysis in this panel, the most likely order of the markers tested is MANB-D19S7-PEPD-D19S9-GPI-C/EBP-TGFB1++ +-(CYP2A,BCKDHA,CGM2,NCA)-PSG1-(D19S8, XRCC1)-(ATP1A3,D19S19)-(D19S37,APOC2)-C KM-ERCC2-ERCC1-(D19S116,D19S117)- (D19S118,D19S119, D19S63,p36.1,D19S112,D19S62,D19S51,D19S54, D19S55)-pW39-D19S6-(D19S50,TNNT1)-D19S2 2-(HRC,CGB,FTL,PRKCG)-qter. This gene order is generally consistent with published physical and genetic mapping orders, although some discrepancies exist. By means of a mapping function that relates the frequency of cosegregation of markers to the distance between them, estimates were made of the sizes, in megabases, of the 19q subregions. The relative physical distances between reference markers were compared with published genetic distances for 19q. Excellent correlation was observed, suggesting that the physical distances calculated by this method are predictive of genetic distances in this region of the genome and, therefore, are just as useful in estimating relative positions of markers.     

Production of mammalian somatic cell hybrids by means of polyethylene glycol treatment.

Polyethylene glycol (PEG) is known to promote fusion of plant protoplasts. Various adaptations of this treatment to mammalian, including human, cell cultures are reported here. PEG is very effective in producing hybrids capable of indefinite multiplication even in cases, such as early passage human skin fibroblasts and lymphocytes, known to be highly recalcitrant to other treatments.     

Differential staining of interspecific chromosomes in somatic cell hybrids by alkaline Giemsa stain.

Staining of chromosome preparations of Chinese hamster-human hybrid cells and mouse-chimpanzee hybrids with alkaline Giemsa has yielded color differentiation of the interspecific chromosomes. Bicolor chromosomes, indicating apparent translocations also are observed for each of these hybrids. The specific color differences observed provide a rapid means of recognizing and aiding in the identification of the interspecific chromosomes and apparent translocations in these somatic cell hybrids.     

Predominant loss of hamster chromosomes in hybrids of somatic cells from the Dzungarian hamster and mice]

By means of the application of UV-inactivated Sendai virus interspecific hybrids of Dzungarian hamsterXmouse somatic cells were obtained in HAT selective medium. Karyotypic changes in these hybrid somatic cells were recorded during a 13 months' period. In the beginning each hybrid somatic cell contained 1 chromosome set of Dzungarian hamster and 1 mouse chromosome set. It was observed that throughout 13 months' of cultivation the elimination of Dzungarian hamster chromosomes prevailed over that of mouse chromosomes.     

Microdissection-derived murine mcb probes from somatic cell hybrids.

The multicolor-banding (mcb) technique is a fluorescence in situ hybridization (FISH)-banding approach, which is based on region-specific microdissection libraries producing changing fluorescence intensity ratios along the chromosomes. The latter are used to assign different pseudocolors to specific chromosomal regions. Here we present the first three available mcb-probe sets for the Mus musculus chromosomes 3, 6, and 18. In the present work, the creation of the microdissection libraries was done for the first time on mouse/human somatic cell hybrids. During creation of the mcb-probes, the latter enabled an unambiguous identification of the, otherwise in GTG-banding, hardly distinguishable murine chromosomes.     

Cytogenetics of somatic cell hybrids. I. Progression of stemlines in continuous uncloned cultures of man-mouse cell hybrids.

Karyotypes of hybrid cells were studied in continuous uncloned cultures by Q- and C-bandings. Cultures were initiated by virus-mediated or spontaneous cell fusions from normal human diploid fibroblasts and mouse heteroploid RAG cells. Heterokaryons containing complete genomes of both parental cells randomly lost chromosomes from both species. The majority of cells in early growth stages, however, still possessed a nearly complete human genome. The rate of human chromosome loss in subsequent growth periods was not uniform, being gradual in some and rapid in others. The initially predominant 2n human-1s mouse (1h:1m) type was soon replaced by a less frequent 2n human-2s mouse (1h:2m) type. Over an increased period of time in mass culture, the number of stemlines decreased. One stemline, often a (1h:2m) type with a greatly reduced human complement, outgrew the others and occupied the entire culture. Therefore, the usual process of clonal isolation may confer a negative selection bias against cell hybrids retaining a large number of human chromosomes. Hybrid stemlines with stable karyotypes were established in the present HAT-agar selection system before 36 days after fusion had elapsed.     

Localization of genes on human chromosomes by studies of human-Chinese hamster somatic cell hybrids

Summary About 75 man-Chinese hamster hybrid clones were analysed for their human chromosome complement and simultaneously tested for human enzyme markers. Correlation of the presence of chromosomes and enzyme activity revealed assignments of the PGD linkage group to chromosome 1, ME₁, PGM₃ and IPO-B to 6, LDH-A to 11, LDH-B to 12 and IPO-A to 21.The assignment of PGM₃ puts the HL-A loci on chromosome 6. Segregation of the enzymes of the PGD linkage group was demonstrated in a clone which had retained a deleted chromosome 1. Subclones of this line indicate that the loci for PGD and PGM₁ are situated on the short arm or proximal part of the long arm of 1 and the locus for Pep-C on the long arm.

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Zusammenfassung Etwa 75 Hybrid-Zellklone Mensch/Chinesischer Hamster wurden in bezug auf den menschlichen Anteil ihres Chromosomensatzes analysiert und gleichzeitig auf menschliche Enzym-Marker untersucht. Die Korrelation zwischen Anwesenheit von Chromosomen und Enzym-Markern ließ die Folgerung zu, daß die PGD-Koppelungsgruppe auf Chromosom 1, ME₁, PGM₃ und IPO-B auf Nr. 6, LDH-A auf 11, LDH-B auf 12 und IPO-A auf Chromosom 21 gelegen ist.Die Lokalisation von PGM₃ läßt die Folgerung zu, daß auch die HL-A-loci auf Chromosom 6 lokalisiert sind. Aufspaltung der Enzyme der PGD-Koppelungsgruppe konnte an einem Klon dargestellt werden, der ein deletiertes Chromosom 1 enthielt. Die Subklone dieser Linie zeigen, daß die loci für PGD und PGM₁ auf dem kurzen Arm oder dem proximalen Teil des langen Arms von Chromosom Nr. 1 liegen, während der locus für Pep-C auf dem langen Arm gelegen ist.