Evidence for Micronuclear Function During Vegetative Growth and Reproduction of the Ciliate, Tetrahymena pyrijormis

An amicronucleate clone of Tetrahymena pyrijormis has been found among the asexual progeny of irradiated cells of strain EU 6000 (variety 6, mating type I). Log-phase cells of this clone, designated EU 6525, have a mean generation time (6.0 hr) longer than that of the micronucleate strain, EU 6000 (2.9 hr). Further irradiation studies of strain EU 6000 indicate that the recovery of viable amicronucleate populations is rare although many amicronucleate cells are found among surviving progeny.¹ Attempts to introduce micronuclei into amicronucleate cells of strain EU 6525 by conjugation have been made. Micronucleate lines are obtained from amicronu create pair members only in low frequency. These results, considered together with those of other workers, suggest that some change in the state of the cell, additional to the physical loss (or gain) of the micronucleus, must occur before viable amicronucleate clones can be obtained from micronucleate cells, or before amicronucleate cells can produce viable micronucleate lineages. An alteration in mean generation time may be a reflection of this change, or it may simply be a direct consequence of micronuclear removal. The results further imply that the ciliate micronucleus unquestionably contributes information to the cell during asexual growth and reproduction.     

The somatic function of the micronucleus in asexual reproduction of Paramecium: thermosensitivity of amicronucleates

It has been established that following removal of the micronucleus in Paramecium tetraurelia, the amicronucleate cell line enters a depression period, characterized by slow growth rate and oral abnormalities, at normal growth temperature (27°C). Such cell lines gradually recover in growth rate and stomatogenesis. In the present study, 4 recovered amicronucleate cell lines were challenged with high temperatures (35°C, 36°C, and 36.5°C). They exhibited growth rate reduction and abortive cytokinesis at 35°C and 36°C, and died at 36.5°C. In addition, they demonstrated oral defects similar to those observed in the depression period: disruption of the regular oral membranellar pattern, reduction in the length of the oral apparatus, and impaired phagocytosis (food vacuole formation). These high temperature-induced abnormalities were largely restricted to amicronucleates, and were rare or seen to a much lesser extent in sister micronucleate cell lines. This study demonstrates the participation of the micronucleus in conferring thermotolerance on the cells. It is hypothesized that the micronucleus specifies heat-shock proteins to maintain the integrity of oral and somatic cytoskeletal elements at high temperature.     

Proliferation and differentiation of chick skeletal muscle cells cultured in a chemically defined medium

By using the technique of nuclear transplantation in Paramecium [1], amicronucleate and renucleate clones were prepared in P. caudatum. The major differences between amicronucleate and micronucleate cells in the vegetative stage are elongation of cell cycle time, decrease in food vacuole formation, and shortening of the buccal cavity in the amicronucleate cells. These characteristics of amicronucleate cells are closely related with the absence of micronucleus, because all of these abnormalities were cured when the micronucleus was transplanted again into the amicronucleate. It is evident that the germinal micronucleus plays an important role not only during the sexual cycle but also in vegetative growth. Elongation of the cell cycle time in amicronucleates was also observed in P. bursaria and P. jenningsi.     

An amicronucleate mutant of Tetrahymena thermophila

A stable amicronucleate strain of Tetrahymena thermophila was isolated following nitrosoguanidine mutagenesis. The mutant has the same growth rate and viability as the micronucleate parent strain, and has no micronucleus detectable by chromatin-specific staining in vegetative growth or during conjugation. The mutant pairs with normal efficiency with cells of complementary mating type. Matings of the mutant with aneuploid strains which lose their micronucleus during meiosis produced cell pairs yielding one viable and one inviable cell. The mutant receives a micronucleus from a normal mating partner, but this micronucleus is lost by the mutant cells within two hundred generations.     

Indispensable function of the germ nucleus for postconjugational stomatogenesis in Paramecium caudatum: Evidence against its genic function shown by hypohaploid micronuclei

It is known that the germinal micronucleus at the stages of gametogenesis and/or fertilization has an indispensable function for the postconjugational development of oral apparatus (stomatogenesis) in Paramecium caudatum. To determine whether this function is due to some specific genes in the micronucleus, postconjugational stomatogenesis was examined in the conjugation of haploid and hypohaploid cells. Haploid clones were obtained by conjugation between amicronucleate cells and diploid micronucleate cells. After conjugation between these haploid clones or between the haploid clones and amicronucleate clones, we succeeded in obtaining hypohaploid clones that have various types of nullisomic micronuclei. If a few genes in the micronucleus control postconjugational stomatogenesis, some hypohaploid micronuclei should undergo stomatogenesis normally, but others should not. In the present work, however, almost all the hypohaploid micronuclei developed the oral apparatus and formed food vacuoles. We can apparently rule out the possibility that a few specific genes of the micronucleus are required for postconjugational stomatogenesis in Paramecium caudatum, unless selection operates to retain the chromosomes with the essential gene(s). Dev. Genet. 23:142–150, 1998. © 1998 Wiley-Liss, Inc.     

Stomatogenesis during sexual and asexual reproduction in an amicronucleate strain of Paramecium caudatum.

Amicronucleate cells of Paramecium caudatum, whose micronuclei have been artifically removed by micropipetting, are characterized by the appearance of a deciliated area at the posterior part of the buccal opening. These cells form food vacuoles at a slightly lower rate than micronucleate cells. Their mean interfission time is longer than that in micronucleates. The exconjugants of amicronucleate cells can not form food vacuoles and eventually die witout fission, though conjugation proceeds normally in them as well as in their micronucleate mate. The oral apparatus of amicronucleate exconjugants seems to be shallower than that of micronucleates. The membranellar cilia, therefore, can be seen through the buccal overture by scanning electron microscope. The results obtained from the cross of micronucleate and amicronucleate strains and from the induction of autogamy in amicronucleate strains suggest that the micronucleus has a primary role in developing the normal oral apparatus after nuclear reorganization.     

Macronuclear differentiation in conjugating pairs of Tetrahymena treated with the antitubulin drug nocodazole

During Tetrahymena conjugation gamic nuclei (pronuclei) are produced, reciprocally exchanged, and fused in each mate. The synkaryon divides twice; the two anterior nuclei develop into new macronuclei while the two posterior nuclei become micronuclei. The postzygotic divisions were blocked with the antitubulin drug nocodazole (ND). Then pronuclei (gamic nuclei) developed directly into macronuclear anlagen (primordial macronuclei), inducing amicronucleate cells with two anlagen, or, rarely, cells with one anlagen and one micronucleus. ND had a similar effect on cells that passed the first postzygotic division inducing amicronucleate cells with two anlagen, while cells treated with ND at the synkarya stage produced only one large anlage. Different intracytoplasmic positioning of the nuclei treated with ND (pronuclei, synkarya and two products of the first division) shows that most of cell cytoplasm is competent for inducing macronuclear development. Only posteriorly positioned nuclei--products of the second postzygotic division--remain micronuclei. The total cell DNA content, measured cytophotometrically in control and in ND-induced amicronucleate conjugant cells with one and two anlagen, was similar in all three samples at 12 h of conjugation. Eventually, at 24 h this content was about 2 pg (8 C) per anlagen both in nonrefed control and in amicronucleate exconjugants. Therefore "large" nuclei developing in the presence of ND were true macronuclear anlagen.     

A Transmissible developmental block in Tetrahymena thermophila

When the amicronucleate mutant BI3840 of Tetrahymena thermophila is mated with normal micronucleate cells, it receives a pronucleus from its partner but there is no further nuclear development and the conjugants separate, retaining their original macronuclei. Both of these sexually mature exconjugants and any cells with which they are mated show an unconditional block in macronuclear development. Although prezygotic nuclear divisions, nuclear transfer and post-zygotic nuclear divisions appeared normal upon cytological analysis of Giemsa-stained conjugants, macronuclear development was invariably aborted. Since the original macronucleus was resorbed, the cells were rendered amacronucleate and they died. When no macronuclear development was initiated, as in crosses with the aneuploid strain A* (III), the exconjugants were viable and retained their original macronuclei. This pattern was invariant with three different strains serving as the original micronuclear source, and in the case of one non-BI3840 exconjugant, persisted for over 200 cell generations. Exconjugants from a cross of one of the micronuclear donors with strain A* (III) did not show arrested development when crossed. It thus appears likely that there is conjugal transfer of non-nuclear information originating in BI3840 which is self-replicating and which causes an arrest in macronuclear development.     

Cytogenetic analysis of chimeric antibody-producing CHO cells in the course of dihydrofolate reductase-mediated gene amplification and their stability in the absence of selective pressure.

Previously, the highest producing (HP) recombinant CHO subclones isolated at various methotrexate (MTX) levels showed different antibody production stability during long-term culture, although they were clonally derived from CS13 transformant. In this study, genetic basis for their difference in antibody production stability was investigated using southern blot hybridization and fluorescence in situ hybridization (FISH) techniques. Southern analysis of HP subclones revealed that light-chain (LC) and heavy-chain (HC) cDNAs were located closely within 23 kb on an amplification unit, and the configuration of LC and HC cDNAs within this amplification unit was not disrupted during long-term culture in the absence of MTX. However, when LC and HC genes were localized on the metaphase chromosomes of HP subclones using FISH, the amplified sequences were present as an extended array on diverse marker chromosomes. HP subclones selected at higher MTX level had more kinds of marker chromosomes. CS13*-002 isolated at 0.02 microM MTX had only one marker chromosome (m002), whereas CS13*-1.0 isolated at 1 microM MTX had five different ones (m10A, m10B, m10C, m10D, and m10E). Each marker chromosome showed different fate during long-term culture of HP subclones in the absence of MTX, resulting in different degrees of stability among the HP subclones. The m10A and m10B remained unchanged, whereas the others disappeared or evolved to variants with shortened amplified arrays. The cells containing stable marker chromosomes constituted dominant subpopulations in CS13*-1.0, and thereby CS13*-1.0 became most stable in regard to antibody production during long-term culture. Furthermore, our dual-color FISH showed that the telomeric ends of amplified arrays on the stable marker chromosomes were always surrounded by (TTAGGG)(n) sequences, indicating that (TTAGGG)(n) sequences are closely related to the stability and evolution of amplified sequences. Taken together, our data show that the assessment of genotypic stability of amplified CHO cells is a prerequisite for understanding their production stability during long-term culture in the absence of selection pressure.     

冠突伪尾柱虫有性生殖期间皮膜发育的核控制

通过显微手术去小核建立多个冠突伪尾柱虫（Pseudourostyla cristata)无小细胞系,并诱导它们与有小核细胞进行接合生殖,以评估小核及其衍生的大核原基在有性生殖期间对皮膜形态发生的影响,当无小核接合体从有小核配偶获得1枚配子核后,接合双方不仅能平行地继续核器演化,而且使第1次皮膜改组能够同步进行和正常发育,说明小核在有性周期中除了生殖功能外仍保留着某些控制皮膜发育的体功能,虽然大部分接合后体的大核原基在DNA贫乏期停止发育,但少数接合后体能够超越这一时期,并启动第2次皮膜改组和顺利完成其后续的有性发育全程,表明指令发动第2次皮膜发育的信号来自DNA贫乏期后以排出一核物质团块为标志的大核原基。     

念珠伪角毛虫小核体功能初步研究

为了研究念珠伪角毛虫的小核是否具有及具有怎样的体功能,采用显微切割手术去小核并建立无小核细胞系。经蛋白银染色鉴定,无小核细胞系群体中大多数细胞的形态结构存在缺陷：口围带的部分小膜缺损或排列紊乱,大核的数目和形态也不正常。这表明,念珠伪角毛虫的小核对于保持口围带结构的完整性以及大核的数目和形态结构的稳定性起着明确的作用。     

Nuclear transplant studies of the determination of mating type in germ nuclei of Paramecium tetraurelia

The micronucleus from vegetative cells of one mating type (O or E) in Paramecium tetraurelia was transplanted by micropipet into amicronucleate cells of opposite mating type (E or O). When autogamy was induced in the recipient cells, they developed new macronuclei and micronuclei derived from the transplanted micronucleus and usually expressed the same mating type as the recipients. The results indicate that micronuclei in the asexual phase may be undetermined for mating type. Recipient E cells in which the macronucleus had been previously removed were transplanted with a whole macronucleus from an O cell. Their mating type was soon transformed E to O before the occurrence of autogamy, and remained O after autogamy. This demonstrates that the transplanted macronucleus determined the O cytoplasmic state to determine the developing zygotic macronucleus for mating type O. It is unlikely that the micronucleus is determined for mating type in O or E cell during the asexual cycle.     

Persistence of Oral Structures in the Sexual Process of Amicronucleate Paramecium tetraurelia

ABSTRACT In the sexual process, amicronucleate Paramecium tetraurelia , unlike micronucleates, fail to produce an oral apparatus, but resorb the pre-existing one. Exceptions were found in some amicronucleate cell lines in which about 1% of the cells possessed oral structures, including pieces of oral membranelles, sometimes complete with buccal cavity, after autogamy or conjugation. By following oral development in the sexual process in some detail, the present study supports the view that these oral structures are derived from the pre-existing oral apparatus and not newly developed from the oral primordium. The possible involvement of the micronucleus and the pre-existing oral apparatus in oral resorption is discussed. The possession of a functional oral apparatus after the sexual process may open up a new evolutionary avenue to the amicronucleates.     

The Somatic Function of the Germ Nucleus in Pseudourostyla cris tat a: Asexual Reproduction and Stomatogenesis

The micronuclei of the ciliated protozoan Pseudourostyla cristata were eliminated by amputation shortly before binary fusion. The amicronucleate cell lines derived from regenerants were maintained for more than a year. They exhibited a lower viability and reduced vigor in asexual propagation. There was some improvement in the growth of the cell lines 1 mo after operation, but the growth rate remained subnormal even up to 1 yr of culture. The exact cause of the poor growth and survival in the first 3 wk after operation, whether the loss of the micronucleus or operational damage, remains to be determined. It is nevertheless clear that the micronucleus is important for subsequent asexual propagation. The amicronucleate cell lines were permanently crippled in morphogenesis, unlike the situation in Paramecium amicronucleates in which stomatogenesis returned to near-normal during asexual propagation. They always included some cells with a characteristically defective adoral zone of membranelles, reduced number of frontal-ventral-transverse cirri, and reduced body length. They were also reluctant to encyst. It is evident that the micronucleus is important for maintaining normality of the oral apparatus. It is postulated that the permanent stomatogenic crippling of amicronucleates might be related to genomic reduction in the developing macronucleus in sexual reproduction, as exhibited by other hypotrichs. The morphological defects associated with the adoral zone of membranelles may be rationalized as arising from the spreading of a zone of degeneration in the cortex affecting the left edge of the membranelles.     

瘦尾虫的小核在无性繁殖周期中对细胞形态结构的影响

通过显微切割建立瘦尾虫无小核细胞系,并与原细胞系及切割后再生的有小核细胞系进行对照观察。结果表明,无小核细胞的形态结构,尤其是口器出现高比率的畸形。在生长静止期,无小核细胞系群体中约23 % (36/155)的细胞完全失去了波动膜。与此同时,这些细胞的口围带也显出异常。一些无小核细胞的大核也出现异常,有的细胞仅含有1枚大核,有的则含有4枚,而不是通常的2枚;还有少数细胞的大核在非细胞分裂期进行分裂。上述结果提示,在无性繁殖周期中,瘦尾虫的小核对于维持正常的细胞形态结构、尤其是保持胞口结构的稳定性和大核数的恒定起着重要的作用[动物学报52 (2) : 383 -388 , 2006]。     

Suppression of the transformed phenotype of hepatoma cells after hybridization with normal diploid fibroblasts

Hybrids were generated between mouse hepatoma cells which exhibit a transformed phenotype, and rat normal diploid fibroblasts. Most isolated hybrid clones contain a single set of chromosomes from each parent. Such clones grow to low saturation densities and are unable to grow or to form colonies in soft agar. The transformed phenotype of the parental hepatoma cells is thus suppressed in these hybrids. Suppression is very stable; however, subclones which have regained a transformed phenotype could be selected; these subclones show a significant reduction of their chromosome number. Amongst the hybrid clones isolated after fusion, a few are characterized by an excess of mouse chromosomes and a reduced number of rat chromosomes. Such clones exhibit a transformed phenotype. Our results show that, provided the hybrids contain an almost complete single set of chromosomes of each parent, spontaneous transformation behaves as a recessive trait in hybrids formed with normal diploid cells.     

Genetic diversity among sublines originating from a single somatic hybrid cell of Duboisia hopwoodii + Nicotiana tabacum

Summary The genetic instability of an intertribal hybrid cell line, Duboisia hopwoodii + Nicotiana tabacum, obtained by mechanical isolation of a single hybrid cell was studied. Ten subclones of calli derived from this hybrid cell line were cultured for 3 years, and their genetic makeup clarified as to nuclear DNA content, chromosome constitution, and peroxidase isozymes. Nuclear DNA content differed in each subclone. In most subclones, mean DNA content was lower than the mean DNA content in the original hybrid cell line determined 1 year after fusion. This decrease in DNA content is partly attributable to the elimination of tobacco chromosomes that occurred in all subclones. The extent to which tobacco chromosomes were eliminated varied among the subclones — evidence that chromosome elimination occurred slowly. Peroxidase isozyme analysis indicated the loss of a tobacco-specific isozyme, thus confirming results obtained by chromosome analysis. Shoots regenerated from two hybrid subclones after 2 years were also heterogeneous in morphology and nuclear DNA content.     

Behavior of germinal micronuclei under control of the somatic macronucleus during conjugation in Paramecium caudatum.

In conjugating pairs of Paramecium caudatum, the micronuclear events occur synchronously in both members of the pair. To find out whether micronuclear behavior is controlled by the somatic macronucleus or by the germinal micronucleus, and whether or not synchronization of micronuclear behavior is due to intercellular communication between conjugating cells, the behavior of the micronucleus was examined after removal of the macronuclei from either or both cells of a mating pair at various stages of conjugation. When macronuclei were removed from both cells of a pair, micronuclear development was arrested 1 to 1.5 hr after macronuclear removal. When the macronucleus of a micronucleate cell mating with an amicronucleate cell was removed later than 3 to 3.5 hr of conjugation, that is, an early stage of meiotic prophase of the micronucleus, micronuclear events occurred normally in the operated cell. These results suggest that most micronuclear events are under the control of the macronucleus and that the gene products provided by the macronucleus are transferable between mating cells. One such product is required for induction of micronuclear division and is provided just before metaphase of the first meiotic division of the micronucleus. This factor is effective at a lower concentration in the cytoplasm and/or is more transferable between mating cells than the factors required for other stages. This factor, which seems to be present at least until the stage of micronuclear disintegration, is able to induce repeated micronuclear division as long as it remains active. The factor can act on a micronucleus which has not passed through a meiotic prophase. Moreover, the results suggest the existence of a second factor which is provided by the macronucleus after the first meiotic division that inhibits further micronuclear division.     

Reduced susceptibility to HIV-1 infection of ethyl-methanesulfonate-treated CEM subclones correlates with a blockade in their protein kinase C signaling pathway.

We have described the isolation of chemically induced CEM subclones that express CD4 receptors and bind soluble gp120, yet show a markedly reduced susceptibility to infection with HIV-1. Two subclones were found to have an abnormal response to the protein kinase C (PKC) activator PMA. PMA treatment induced CD3 and CD25 (IL-2R) receptors on the parental line and on other ethyl-methanesulfonate-derived subclones, but not on these two mutants. Direct assays of PKC activity were conducted. Total cellular PKC enzymatic activity was found to be normal in these subclones. PMA-induced CD4 down-modulation occurred normally. In addition, activation of c-raf kinase was normal. Since HIV-1 long terminal repeat contains two functional nuclear factor kB (NF-kB) regulatory elements, we studied the ability of PMA to induce NF-kB binding activity by different assays. Chloramphenicol acetyl transferase (CAT) assays using the HIV-1 (-139)long terminal repeat-CAT construct showed no PMA induction of CAT activity in these subclones (unlike the parental line and other subclones). Okadaic acid, an inhibitor of phosphatases 1 and 2A, did not overcome the defect in these subclones. Gel retardation assays, using a 32P-probe containing the HIV-1 NF-kB probe and nuclear extracts from PMA-treated cells, showed significantly reduced induction of nuclear NF-kB binding proteins in these two subclones compared with wild type CEM and a control subclone. Deoxycholate treatment of cytoplasmic extracts from these subclones released much reduced NF-kB binding proteins from their cytoplasmic pools. Thus, reduced levels of PKC-induced nuclear NF-kB activity in two T cell subclones did not affect their normal cell growth, but correlated with a pronounced reduction in their susceptibility to HIV-1 infection.