Self- and non-self-recognition in bisexual mating of Dictyostelium discoideum

Cell recognition plays a central part in the sexual process. Although cell-surface molecules involved in gamete recognition have been identified in several organisms, our knowledge of the molecular basis of sexual cell recognition is still limited. We have been studying molecular mechanisms of sexual cell fusion using the lower eukaryote Dictyostelium discoideum . There are homothallic, heterothallic, bisexual and asexual strains in D. discoideum , and how they distinguish between each other to find out proper partners is an interesting and important question. However, analytical studies of sexuality in D. discoideum have been carried out mostly on heterothallic strains, and the polymorphism of the mating system has not yet been thoroughly investigated. In the present study, we extended our analysis to the bisexual mating phenomenon paying special attention to the mechanism of self-incompatibility. We showed that a bisexual strain WS2162 was self-incompatible at the step of sexual cell fusion. Results of antibody inhibition of cell fusion and detection of gp138, a cell-fusion-related protein found in heterothallic strains, suggest that a molecular basis for bisexual and heterothallic mating are common. We propose two models to clarify the mechanisms of self- and non-self discrimination in bisexual mating patterns of D. discoideum .     

Gamete fusion and cytokinesis preceding zygote establishment in the sexual process of Dictyostelium discoideum

Cells of Dictyostelium discoideum become sexually mature under submerged and dark conditions, and fuse with opposite mating-type cells to form zygote giant cells, which gather surrounding cells and finally develop into dormant structures called macrocysts. In the present study, we found that the multinuclear fused cells formed during this process frequently underwent cytokinesis driven by random local movements. The split cells were capable of re-fusion, and repeated cytokinesis. These radical behaviors continued until the extensive cell aggregation started around the giant cells. Thus, gamete fusion and initiation of zygote development do not coincide in the mating of D. discoideum. Analyses by confocal microscopy and flow cytometry indicated that the cessation of the random movement followed pronuclear fusion, and that microtubule organizing centers (MTOC), abundant in the fused cells at the beginning, gradually decreased and only one of them remained within the developed macrocyst. Some of the genes known to control cell movement, such as rasGEFB and rasS, increased shortly before the cessation of repeated fusion-cytokinesis and initiation of phagocytosis. These results suggest that the sequential molecular events are necessary in D. discoideum after gamete fusion to establish a new individuality of zygotes.     

Galpha3 and protein kinase A represent cross-talking pathways for gene expression in Dictyostelium discoideum

Heterotrimeric G proteins and protein kinase A (PKA) are regulators of development in Dictyostelium discoideum. It has been reported that disruption of the Dictyostelium Galpha3 gene (galpha3-) blocks development and expression of several early development genes, characteristics that are reminiscent of mutants lacking the catalytic subunit of PKA (pkac-). The hypothesis that Galpha3 and PKA signaling pathways may interact to control developmental gene expression was tested by comparing the regulation of seven genes expressed early in development in the wild-type and in galpha3- and pkac- mutants, and comparing PKA activity in the wild-type and in a galpha3- mutant. The expression patterns of six genes were affected similarly by the Galpha3 and PKA mutations, while the expression of only one gene, the cAMP receptor 1 (cAR1), differed between the mutants. PKA activity, measured by phosphorylation of the PKA-specific substrate Kemptide, was higher in galpha3- cells than in wild-type cells, suggesting that Galpha3 normally exerts an inhibitory effect on PKA activity. Although some early development genes appear to require both Galpha3 and PKA for expression, the differing response of cAR1 expression and the inhibitory effect of Galpha3 on PKA activity suggest that Galpha3 and PKA are members of interacting pathways controlling gene expression early in development.     

Phototaxis genes on linkage group V in Dictyostelium discoideum

Abstract During the course of mapping and complementation analysis of phototaxis ( pho ) mutations in Dictyostelium discoideum we have assigned to linkage group V three mutant pho alleles belonging to complementation groups phoG and phoK . These are the first genetic markers with an easily recognizable phenotype to be found on this linkage group.     

Coh A,a mutation affecting the post aggregative related (par) cohesive system of Dictyostelium discoideum

Three stage-specific cohesive systems operate in D. discoideum: VEG, elaborated by vegetative cells: AR, by aggregation competent cells; and PAR, by post aggregation stage cells. Previous study of a mutant strain JC-5 had shown the stability of its PAR system (but not the AR) to be temperature sensitive. However, the phenotypic expression of this mutation termed Coh A is complicated by the presence in that strain of a preexisting mutant gene Rde A, which accelerates developmental events generally and alters the pattern of morphogenesis. Genetic evidence presented here indicates that the two mutations have been separated by parasexual recombination yielding a Coh A, Rde A⁺ segregant class of which strain JC-36 is a prototype. At the permissive temperature, JC-36 follows a morphogenetic sequence like that of the wild type in respect to timing, morphogenetic pattern, and spore appearance. At the restrictive temperature, it forms normal aggregates at the usual time but exhibits two morphogenetic aberrancies during post aggregative development. First, fruit construction is arrested at a stage approximating the 16 hr “Bottle” stage of the wild type, though more squat and blunt tipped, and then the aggregate regresses. Cytodifferentiation into spores and stalk cells is also blocked. Second, a shift of slugs migrating normally at the permissive temperature to the restrictive causes the latter to disintegrate progressively as they leave clumps of cells behind them within the flattened sheath. JC-36 cells developing at the restrictive temperature also exhibited a decrease in EDTA resistant cohesivity attributable on two grounds to the sensitivity of the PAR system. In addition, the disappearance of the AR system completed in the wild type by the Mexicanhat (18–19 hr) stage is indefinitely arrested at an intermediate level in JC-36.     

A mutation in the cAMP signaling pathway affects sexual development of Dictyostelium discoideum

Amoebae of cellular slime molds have two developmental modes, asexual fruiting body formation and sexual macrocyst formation. How developmental choice is made is an interesting subject of wide importance. Light exposure and dry conditions are favorable for asexual development, while conditions of darkness and high humidity are so for sexual development. In Dictyostelium discoideum , the latter conditions enhance zygote formation, which determines the fate of surrounding cells for sexual development. Here, a mutant (TMC1) defective in the post-fusion aggregation of cells during sexual development is described. This mutant is also aggregationless in asexual development, and the level of cyclic adenosine monophosphate (cAMP) receptor is reduced. Correspondingly, a series of existing mutants with defects in cAMP signaling pathways showed the same sexual phenotype as TMC1. These results suggest that molecular mechanisms of development are shared by the two alternative developmental modes.     

Continuous requirement of cAMP for pre-spore differentiation in Dictyostelium discoideum

Abstract Using a shaking culture system, we have previously shown that both cell contact and cAMP are required for pre-spore differentiation in Dictyostelium discoideum [2]. In the present study, cAMP was removed from the medium by the use of a hydrolysing enzyme after cells had formed agglomerates. This treatment left the agglomerates unchanged, but caused a rapid decrease in the activity of UDP galactose transferase, a pre-spore-specific enzyme. This result indicates that cAMP is required even after agglomerate formation to maintain pre-spore differentiation.     

Immunological Characterization of cdc2 and wee1 Proteins during the Growth and Differentiation of Dictyostelium discoideum

Two different antibody preparations, raised independently against the conserved EGVPSTAIREISLLKE sequence of the protein kinases encoded by the Schizosaccharomyces pombe cdc2 gene and its species homologs, immunoblotted a Dictyostelium protein of 32 kDa (p32). This polypeptide bound to p13^suc1-agarose beads, suggesting that it represents the Dictyostelium cdc2 and / or cdk2 products. The amounts of p32 detectable in cell free extracts and bound to p13^suc1-agarose were unaltered during the growth of cells synchronized for division. Although there was also essentially no change in the level of p32 during differentiation, the protein from the pseudoplasmodial stage of development did not bind to p13^suc1-agarose, implicating a developmentally regulated modification of the kinase. One of the EGVPSTAIREISLLKE antibodies also recognized a protein of 49 kDa (p49) that increased in amount dramatically during aggregation and then remained at elevated levels throughout the remainder of the differentiation process. This protein was present in low amounts throughout the growth of cells synchronized for division and was not absorbed by p13^suc1-agarose.
A 103 kDa protein (p103) was detected by Western blot analysis using antibodies raised against two different peptides corresponding to sequences in the S. pombe protein kinase p105^wee1, which is a putative upstream negative regulator of p34^cdc2 in fission yeast. The levels of p103 were constant during differentiation and during the growth of cells synchronized for division.     

RasG protein accumulation occurs just prior to amoebae emergence during spore germination in Dictyostelium discoideum

Abstract RasG protein levels in dormant and germinating spores of Dictyostelium discoideum strains JC1 and SG1 were estimated by Western blotting. Ras Glevels were very low in dormant spores and remained low during the lag period, regardless of whether spores were heat activated or treated with autoactivator during the early stages of spore germination. RasG levels increased late during spore swelling just prior to the emergence stage of germination. These data are consistent with a requirement for RasG during vegetative growth.     

利用盘基网柄菌表达可溶性人Fas配体

用PCR扩增从激活的人中性粒细胞中得到的编码可溶性Fas配体胞外区中第141个到第281个氨基酸的cDNA ,将其与hCG-β信号肽片段融合到质粒MB12neo中,随后导入到盘基网柄菌AX3细胞中,得到分泌性表达hFasL的重组菌AX3-H3。为提高shFasL的表达量,对质粒pMB12neo作了改造,得到衍生质粒pMB74。利用质粒pMB74克隆表达shFasL ,得到高通量表达shFasL的重组菌AX3_pLu8。在复杂培养基HL_5C中,重组菌的细胞密度可达(1.5～2 )×10⁷ mL ,AX3-H3及AX3_pLu8分泌的shFasL浓度分别为23.5 μg/L及206μg/L。利用合成培养基SIH培养重组菌AX3-H3及AX3-pLu8,细胞密度均达到(4～5)×10⁷m/L ,shFasL浓度则分别达到111μg/L和420μg/L。     

Altered morphology of vegetative amoebae induced by increased expression of the Dictyostelium discoideum ras-related gene rap1

The rap1 gene of Dictyostelium discoideum is a member of the ras-gene superfamily of low molecular weight GTPase proteins. The rapl gene is expressed both during growth and development in D. discoideum. To examine the action of the Rapl protein in D. discoideum, the rap1 cDNA was expressed under the control of the inducible discoidin promoter. Treatment with conditioned media, which induces the discoidin promoter, increased Rap1 protein levels in vegetative cells approximately six fold. Overexpression of the Rapl protein correlated with the appearance of morphologically aberrant vegetative amoebae: cells were extensively spread and flattened. The distribution of F-actin was altered in these cells, with an increase in actin staining around the cell periphery. Induction of the discoidin promoter by starvation in the rapl transformants also resulted in spread flat cells. When starved D. discoideum amoebae are refed with HL5 media, the cells rapidly respond by rounding up. By contrast, the rapl transformant cells showed a pronounced delay in rounding up. Rapid tyrosine phosphorylation of a p45 protein occurred in both control cells and the rapl transformant upon refeeding, implying that the signal transduction pathway leading to tyrosine phosphorylation remained functional in the rapl transformant. We propose that the Rapl protein functions in the regulation of cell morphology in D. discoideum. © 1993Wiley-Liss, Inc.     

Temporal and spatial expression of ammonium transporter genes during growth and development of Dictyostelium discoideum

Ammonia is an important signaling molecule involved in the regulation of development in Dictyostelium. During aggregation, ammonia gradients are established, and the ammonia concentration in the immediate environment or within a particular cell throughout development may vary. This is due to the rate of cellular ammonia production, its rate of loss by evaporation to the atmosphere or by diffusion into the substratum, and perhaps to cellular transport by ammonium transporters (AMTs). Recent efforts in genome and cDNA sequencing have identified three ammonium transporters in Dictyostelium. In addition to physically altering the levels of ammonia within cells, AMTs also may play a role in ammonia signaling. As an initial step in identifying such a function, the temporal and spatial expression of the three amt genes is examined. RT-PCR demonstrates that each of the three amt mRNAs is present and relatively constant throughout growth and development. The spatial expression of these three amt genes is examined during multiple stages of Dictyostelium development using in situ hybridization. A distinct and dynamic pattern of expression is seen for the three genes. In general, amtA is expressed heavily in pre-stalk cells in a dynamic way, while amtB and amtC are expressed in pre-spore regions consistently throughout development. AmtC also is expressed in the most anterior tip of fingers and slugs, corresponding to cells that mediate ammonia's effect on the choice between slug migration and culmination. Indeed, amtC null cells have a slugger phenotype, suggesting AmtC functions in the signaling pathway underlying the mechanics of this choice.     

盘基网柄菌细胞分化及细胞比例的调控

本文综述了盘基网柄菌(Dictyosteliumdiscoideum)发育过程中调控细胞分化及细胞比例的一些信号分子,包括分化诱导因子(DIF-1、SDF-2)、糖原合成酶激酶(GSK-3)、环状亮氨酸拉链蛋白(rZIP)等,介绍了这些信号分子的功能及其作用机制。     

Induction of Cell Differentiation of Isolated Cells in Dictyostelium discoideum by Low Extracellular pH

In Dictyostelium discoideum , the formation of multicellular masses is necessary for cell differentiation. However, the present study shows that amoebae of strain V12M2 efficiently differentiate to prespore or stalk cells under submerged incubation in a simple medium containing cAMP and salts without cell contact, only if the pH of the medium is maintained at acidic values; differentiation scarcely occurs in the neutral pH range. The optimum pH values for prespore and stalk cell differentiation are 5.1 and 4.5, respectively. In addition to the extracellular pH, Mg ions and the concentration of cAMP also affect the choice of the differentiation pathway. The time courses of differentiation of both cell types under optimum conditions are also presented.     

Disruption of the NCS-1/frequenin-related ncsA gene in Dictyostelium discoideum accelerates development

To learn more about the function of intracellular Ca2+ in Dictyostelium discoideum, we searched databases for sequences encoding potential members of the neuronal calcium sensor (NCS) family of Ca2+-binding proteins. As a result, genes for five new putative Ca2+-binding proteins were identified. Based on amino acid sequence alignments and phylogenetic analyses, one of these genes (ncsA) was determined to be closely related to NCS-1/frequenin genes in other organisms. The protein product of ncsA (NcsA) binds 45Ca2+ and exhibits a dramatic gel mobility shift in the presence of Ca2+, suggesting that it is a Ca2+ sensor. ncsA-null cells grow normally in axenic culture. However, on bacterial lawns, the ncsA-null clones expand slowly and development begins prematurely within the plaques. In larger clones, ncsA-null cells form narrow growth zones with evenly spaced aggregates along the inner edge, and closely packed fruiting bodies. An analysis of intracellular cyclic adenosine monophosphate (cAMP) levels, developmental timing on phosphate-buffered saline (PBS) agar, and stage-specific gene expression indicate that development of ncsA-null cells is accelerated by 3-4 h. Together, these results suggest that NcsA might function in Dictyostelium to prevent cells from entering development prematurely in the presence of environmental nutrients.     

Genetic structure of a natural population of Dictyostelium discoideum, a cellular slime mould

Dictyostelium discoideum is a eukaryotic microbe feeding on soil bacteria. A first step towards describing the genetic structure of populations of this species was made by examining multiple isolates from a single locale. The isolates were grown clonally and their RFLP patterns compared, using a probe specific for a family of tRNA genes. Thirty-nine types were distinguished in 54 isolates. To determine if genetic exchange occurs among members of the population, an analysis of linkage disequilibrium was performed on the RFLP data. Little disequilibrium was found, implying gene flow in the population. In conflict with this result is the finding that no recombinant progeny were recovered from many attempted crosses between pairs of isolates. The tentative conclusion is that genetic exchange does not in fact occur, and that the observed shuffling of RFLP bands is caused by insertion and excision of transposons known to be associated with the tRNA genes of Dictyostelium.     

Cell-cycle progression during the development of Dictyostelium discoideum and its relation to the subsequent cell-sorting in the multicellular structures

Previous studies have shown that the cell-cycle phase at the onset of starvation is a naturally occurring variable that is closely involved in the subsequent sorting and differentiation of cells during Dictyostelium development. Here the cell-cycle progression during the development of D. discoideum Ax-2 cells and its relation to the subsequent cell-sorting were analyzed in detail using synchronized cells and their pulse-labeling by 5'-bromodeoxyuridine (BrdU). Measurements of cell number and nuclearity provided evidence that about 80% of cells progressed their cell-cycle after formation of multicellular structures (mounds). Many cells (T7 cells) starved at mid–late G2-phase (just before the PS-point from which cells initiate development when starved) progressed to the cell-cycle after mound formation. In contrast, a less amount of cells (T1 cells) starved at late G2-phase (just after the PS-point) progressed through the cell-cycle after mound formation. The significance of cell-cycle progression presented here is discussed, with reference to cell differentiation and pattern formation.     

The mitochondrial DNA of Dictyostelium discoideum: complete sequence, gene content and genome organization

We present an overview of the gene content and organization of the mitochondrial genome of Dictyostelium discoideum. The mitochondria genome consists of 55,564 bp with an A + T content of 72.6%. The identified genes include those for two ribosomal RNAs (rnl and rns), 18 tRNAs, ten subunits of the NADH dehydrogenase complex (nad1, 2, 3, 4, 4L, 5, 6, 7, 9 and 11), apocytochrome b (cytb), three subunits of the cytochrome oxidase (cox1/2 and 3), four subunits of the ATP synthase complex (atp1, 6, 8 and 9), 15 ribosomal proteins, and five other ORFs, excluding intronic ORFs. Notable features of D. discoideum mtDNA include the following. (1) All genes are encoded on the same strand of the DNA and a universal genetic code is used. (2) The cox1 gene has no termination codon and is fused to the downstream cox2 gene. The 13 genes for ribosomal proteins and four ORF genes form a cluster 15.4 kb long with several gene overlaps. (3) The number of tRNAs encoded in the genome is not sufficient to support the synthesis of mitochondrial protein. (4) In total, five group I introns reside in rnl and cox1/2, and three of those in cox1/2 contain four free-standing ORFs. We compare the genome to other sequenced mitochondrial genomes, particularly that of Acanthamoeba castellanii. Received: 5 July 1999 / Accepted: 17 January 2000