Ciliate cryptobiosis: a microbial strategy against environmental starvation

This review outlines the main features of ciliate resting-cyst formation or encystment. It represents a strategy against several environmental stresses (such as starvation), which involves a highly gene-regulated cell differentiation process and originates a more resistant, differentiated form or resting cyst. This process is mainly characterized by drastic cytoplasmic dehydration that induces a general metabolic rate decrease, intense autophagic activity, the formation of a permeable cyst wall protecting the cell against the adverse environmental conditions, and a gene-silencing mechanism after opening the specific encystment genes.     

Correlation of cellulose synthesis in vivo and in vitro during the encystment of Acanthamoeba

Acanthamoeba castellanii differentiates when placed in a starvation medium. The mature cysts formed are characterized by a cellulosic wall synthesized from endogenous sources during encystment. A particulate enzyme system whose specific activity increases some 30-fold during encystment catalyzes the formation of an alkali-soluble and an alkali-insoluble β-(1 → 4)-glucan (cellulose). The activity in vitro of this enzyme extracted from populations of cells during encystment correlates with the formation in vivo of the mature cyst and the alkali-insoluble β-glucan of the cyst wall. The conclusion is based on the following observations:

1.

1. Both alkali-soluble and alkali-insoluble β-glucans similar to the enzymatic products of the isolated β-glucan synthetase occur in cyst walls.     

First record of cysts in the tidal tardigrade Echiniscoides sigismundi

Tardigrades are microscopic metazoans that withstand environmental extremes by entering dormant states, such as cryptobiosis (latent life). In addition, they may also form cysts. Here, we present the first report of cyst formation in a marine heterotardigrade, i.e., Echiniscoides sigismundi, which constitutes a cryptic species complex present worldwide in tidal zones. The cysts were initially discovered during experimental series constructed to investigate osmotic stress tolerance. The animals, which eventually formed cysts, showed signs of an imminent molt at the beginning of experimentation. We use the term “cyst” for stages, where a total of three or more cuticles have been synthesized. Our observations show that encystment in E. sigismundi involves synthesizing of at least two new cuticle layers. Legs with discharged claws are present in connection with the first outer cuticle, as well as the second cuticular layer. In the most developed cyst, a third cuticle lacking claws seems to surround the animal, which is delineated by a fourth cuticle. Many features are shared with the well-studied cysts of eutardigrades. The cysts of E. sigismundi, however, lack pigmentation and have an extra set of claws, and the animal inside retains buccopharyngeal sclerified parts, until discharging the third cuticle. The finding of cysts in a marine heterotardigrade is novel and confirms that encystment also occurs within this major evolutionary lineage.     

Encystment Processes and the “Matrioshka-like Stage” in a Moss-dwelling and in a Limnic Species of Eutardigrades (Tardigrada)

Tardigrades have two forms of dormancy, namely cryptobiosis and encystment. The encystment is a form of diapause known for a limited number of species of tardigrades and still little studied. To increase the knowledge on encystment, two species of eutardigrades from Italy have been considered: the moss-dwelling Amphibolus volubilis (Eohypsibiidae), and the limnic Dactylobiotus parthenogeneticus (Murrayidae). Cysts have been collected in nature, or induced under laboratory conditions. In the latter case, it was possible to follow the several steps of encystment processes. Two different types of cyst (“type 1” and “type 2”) have been found in A. volubilis, while in D. parthenogeneticus only one type has been found. In general, the ovoid-shaped cysts are constituted by a series of cuticles surrounding the animals and resemble an onion or a Matrioshka Russian doll. In all three types of cyst, the encystment processes show both common and peculiar traits. Encystment begins with the discharging of the sclerified parts of the buccal-pharyngeal apparatus, as in the molting process, but without the loss of the old cuticle. Then, two or three new cuticles are serially synthesized, according to cyst type. In A. volubilis, the ultrastructure of these new cuticular involucra is similar to that of non-encysted animal cuticles, while in D. parthenogeneticus the ultrastructure of the new cuticular involucra differs from that of non-encysted animal cuticle. A modified buccal-pharyngeal apparatus has been observed both in “type 2” cyst of A. volubilis and in the D. parthenogeneticus cyst.     

缓步动物休眠现象研究进展

本文对缓步动物休眠现象的研究历史和现状作了简要的回顾和总结。休眠现象是一个集合名词,指的是缓步动物为克服不利的环境条件而出现的新陈代谢活动减弱甚至暂停的生命状态。最新的观点将其划分为两类,即隐生和滞育。根据导致隐生的环境因子的不同,又可分为低湿隐生、低温隐生、高压隐生、低氧隐生四种形式。滞育包括包囊和休眠卵两种形式。缓步动物的三种休眠状态（桶状、包囊和休眠卵）在其一生中任何一个阶段都能够出现,以度过极端不利的环境,并以此延长生物个体的寿命。总之,休眠现象存缓步动物的生态和进化方面具有不可估量的作用。     

Synchronous cultures in cytodifferentiation studies

Summary This paper summarizes work done on the induction of the cytodifferentiation of a soil amoeba. The differentiation involves the synthesis of two cyst walls and results in a dormant cell called a cyst. This cytodifferentiation is called encystment. The following observations result from work on synchronously differentiating cultures. The differentiation is under genetic control, is induced by starvation, and occurs only after an induction period. Massive erosion of intracellular components occurs prior to and during the differentiation and provides the materials for the induction and for the syntheses of the differentiation products. The effects of various inhibitors on this induction are also presented. From results obtained, mainly with FUdR and mitomycin C, the following tentative conclusions are drawn: encystment is normally induced when cells are stalled in the terminal portion of the deoxyribonucleic acid (DNA) synthetic period. Induction of dormancy probably involves two steps, the unwrapping or loosening of material surrounding the differentiation genes, followed by a specific activation. Much of the work on inhibitors was performed during the tenure of PHS-NIH Special Fellowship 1-F3-GM-28567 to the author. Experiments were performed at the Carlsberg Foundation Biological Institute in Copenhagen, Denmark, and will be reported in detail in the Comptes Rendus des Travaux du Laboratorie Carlsberg.     

Cyst Wall Protein Synthesis and Some Enzyme Changes on Starvation and Encystment in Colpoda steinii

SYNOPSIS. During starvation-induced encystment, Colpoda steinii loses some 30% of its nitrogen before synthesizing a glutamic acid-rich protein coat, which after 24 hr accounts for 18% of the cyst protein. Settling cells contain 29 ± 2 pg/cell of glutamic acid (free acid plus that released on hydrolysis) whilst encysted cells contain 51 ± 3 pg/cell, the coat glutamic acid being adequate to account for the increase. Thus substantial glutamic acid and protein biosynthesis occur during starvation. Assayed in homogenates, some relevant enzymes appeared to decrease rather than increase in activity as encystment proceeded. Intra-cellular proteolytic activity showed little alteration but ribonuclease, acid phosphatase, L-alanine: 2-oxoglutarate aminotransferase (E.C.2.6.1.2) and L-glutamate:NAPD oxidoreductase (E.C.1.4.1.4) were considerably reduced. The total carbohydrate content of the cell also increased during starvation.     

Mannuronan C-5 epimerases and cellular differentiation of Azotobacter vinelandii

Differentiation in Azotobacter vinelandii involves the encystment of the vegetative cell under adverse environmental circumstances and the germination of the resting cell into the vegetative state when growth conditions are satisfactory again. Morphologically, the encystment process involves the development of a protective coat around the resting cell. This coat partly consists of multiple layers of alginate, which is a co-polymer of β- d -mannuronic acid (M) and α- l -guluronic acid (G). Alginate contributes to coat rigidity by virtue of a high content of GG blocks. Such block structures are generated through a family of mannuronan C-5 epimerases that convert M to G after polymerization. Results from immunodetection and light microscopy, using stains that distinguish between different cyst components and types, indicate a correlation between cyst coat organization and the amount and appearance of mannuronan C-5 epimerases in the extracellular medium and attached to the cells. Specific roles of individual members of the epimerase family are indicated. Calcium and magnesium ions appear to have different roles in the structural organization of the cyst coat. Also reported is a new gene sharing strong sequence homology with parts of the epimerase-encoded R-modules. This gene is located within the epimerase gene cluster of Azotobacter vinelandii .     

EXOCYTOSIS OF LATEX BEADS DURING THE ENCYSTMENT OF ACANTHAMOEBA

Cells of Acanthamoeba castellanii (Neff) are known to form mature cysts characterized by a cellulose-containing cell wall when transferred to a nonnutrient medium. Amebas which engulfed latex beads before encystment formed mature cysts essentially devoid of bead material. The encystment of bead-containing cells appeared to be similar to that of control cells since no important differences between the two were observed with respect to cellular levels of glycogen or protein, cellulose synthetase activity, the amount of cyst wall polysaccharide formed, or the percentage of cysts formed. Actinomycin D and cycloheximide inhibited encystment as well as bead expulsion. Ultrastructural analysis revealed that the beads, which initially were contained in phagocytic vesicles, were released from the cell by fusion of vesicular membranes with the plasma membrane. Exocytosis was observed in cells after 3 hr of encystment, with most of the beads being lost before cyst wall formation. Each bead-containing vesicle involved in expulsion was conspicuously demarcated by an area of concentrated cytoplasm, which was more homogeneously granular than the surrounding cytoplasm. Beads were not observed in the cytoplasm of mature cysts but were occasionally found in the cyst wall.     

DNA-containing polygonal structures detected in somatic nuclei of Bursaria ovata during preparation to cryptobiosis

Supramolecular chromatin organization of the somatic nucleus (macronucleus--Ma) was studied in a free-living unicellular eukaryotic organism, the ciliate Bursaria ovata Beers 1952, at two late successive stages of its encystment (in the state of preparation to cryptobiosis). A modified Miller's method (Sergejeva et al., 1987) and the same technique in combination with high resolution DNA autoradiography were used. In chromatin spread preparations of Ma, not labeled by 3H-thymidine, numerous electron dense structures (rounded, stick-like and polygonal) were revealed, along with rarely occurring typical supramolecular chromatin structures, such as nucleosomic and not nucleosomic threads, nucleomeres, chromomeres, rosette-like looping chromatin, and electron dense chromonemes (Fig. 1). For DNA visualizing in the revealed polygonal structures, the vegetative cells (trophonts) of B. ovata were inoculated into the culture medium, containing 3H-thymidine and food (ciliates Paramecium caudatum). Here, the ciliates passed through 3-4 successive cell division cycles, thus progressively accumulating the radioactive DNA precursor in Ma. After washing the ciliates in 3H-thymidine-free culture medium, the process of their encystment was induced, and Ma were isolated by hand from the ciliates being at two late successive stages of encystment. Isolated Ma were dispersed in the low ionic solutions, as described elsewhere (Sergejeva et al., 1987). The carbon shadowed electron grids, that contained spread Ma preparations, were individually coated with photographic emulsion, according to the loop interference method (Angelier et al., 1976a; Bouteille, 1976). After a 6 month exposure at 4 degrees C, thymidine incorporation was revealed in fibril crowds, rosette-like structures (Fig. 2), and crystal-like plates of different size and morphology (Fig. 3). In all our experiments, non-specific localization of radioactive DNA precursor was not observed. The above data confirm undoubtedly our earlier assumption (Sergejeva et al., 1987; Sergejeva, Bobyleva, 1988) that the Ma chromatin of Bursaria may undergo crystallization during encystment, i.e. in the state of preparation to cryptobiosis. The present data enable us first to suggest that the looping rosette-like chromatin may be transformed into crystal-like structures ("exotic liquid crystal structures") by means of a peculiar loop packing within the limits of an individual resette (Fig. 2-4), these structural transformations taking place without any visible loop destruction. In this paper, we first describe new morphological types of polygonal plates, differing from those earlier reported elsewhere for the Ma of Bursaria (Sergejeva, Bobylova, 1988), and also from the plates earlier described in studies on liquid crystals both in vivo and in vitro (see: Gianonni et al., 1969; Lerman, 1974; Livolant, 1991: Leforestier et al., 1993, 1997, 1999). The technical approaches used in the present work enabled us to obtain, for the first time, a direct evidence of the presence of DNA in the crystallized structures of somatic nuclei of ciliates during their preparation to cryptobiosis, the DNA-containing polygonal structures being highly morphologically diverse. Further studies into the reasons of this diversity are needed.     

SEXUALITY AND CYST FORMATION IN THE DINOFLAGELLATE GONYAULAX TAMARENSIS: CYST YIELD IN BATCH CULTURES1

Encystment of the toxic dinoflagellate Gonyaulax tamarensis Lebour (var. excavata) was monitored in batch cultures exposed to a variety of nutritional and environmental treatments. Limitation by nitrogen (as ammonium or nitrate) or phosphorus (as phosphate) resulted in cyst formation. When the initial concentration of limiting nutrient was varied, total cyst yield (mL^?1) was directly proportional to the cell yield at all but the highest nutrient concentrations (where encystment was minimal). Encystment efficiency was relatively constant (0.1–0.2 cysts · cell^?1) over a 5-fold range of cell densities, indicating that 20 to 40% of the vegetative populations successfully encysted. Cyst formation was negligible in nutrient-replete medium, even with a significant reduction in growth rate due to non-optimal light, temperature, or to high batch culture cell densities. Low light levels did decrease cyst yield once encystment was initiated by nutrient limitation, but this was probably linked to smaller motile cell yield and not to a specific inhibition of encystment. In contrast, encystment was more sensitive to temperature than was growth rate: optimal cyst production occurred over a relatively narrow temperature range and no cysts were formed at [Page missing]     

HIGH ENCYSTMENT SUCCESS OF THE DINOFLAGELLATE SCRIPPSIELLA CF. LACHRYMOSA IN CULTURE EXPERIMENTS 1

Close to 100% encystment efficiency and a yield above 10⁵ cysts·mL ^{? 1} were routinely achieved in full strength f/2 medium‐based batch cultures (883 μM NO₃ ^? and 36 μM PO₄ ^{? 3}) of the marine dinoflagellate Scrippsiella cf. lachrymosa Lewis. Increases in cell density led to nutrient depletion in this enriched medium, which was the most likely cause for initiation of cyst formation. Lowering the concentration of either nutrient to 1/10 the initial levels decreased the encystment efficiency, whereas use of ammonium as the N source resulted in both low cell yield and low encystment efficiency. The mandatory dormancy period was ca. 60 days and was not affected by cold dark storage of the cysts. Cysts produced in the initial phase of sexual reproduction were relatively large (length 47 μm, width 31 μm) with a heavy calcareous cover. Cysts produced thereafter lacked apparent calcareous cover and were smaller (length 29 μm, width 19 μm). The decrease of cyst volume (by a factor of 0.24–0.4) suggested strong resource limitation during the course of encystment. However, after the mandatory dormancy period, germination success of the smaller cysts was higher (80%), compared with the larger cysts that had been produced initially (50%). Germling survival (74%) was independent of cyst type but was enhanced by higher nutrient concentration during incubation. The ratio of initial nutrient concentration in the medium to the cyst yield was used as a proxy to estimate the cellular nutrient quota. The conservative estimates of 9 pmol N·cyst ^{? 1} and 0.4 pmol P·cyst ^{? 1} obtained in this manner are at the low end of the range of previous published estimates for other dinoflagellate cysts. Given the high encystment observed in laboratory experiments, we have no reason to assume an inherently lower encystment success in dinoflagellate field populations. Our results do not challenge the low nutrient paradigm for dinoflagellate sexuality. We believe that the high encystment success and cyst yield of this particular species is at least partly due to its ability to achieve very high cell densities in cultures, which evidently leads to nutrient depletion even in f/2 medium.     

Entamoeba invadens: the requirement for galactose ligands during encystment

During periods of stress, trophozoites of Entamoeba invadens (strain IP-1) undergo a process of differentiation (encystment) that results in a dormant cyst with a chitin-containing cyst wall. Encystment can be induced by resuspension of trophozoites from growth medium into a diluted glucose-free medium (47% LG) containing 5% adult bovine serum (ABS). ABS is thought to be a source of gal-terminated ligands that are required for high levels of encystment. After resuspension of trophozoites in 47% LG, encystment cultures were examined every 2h for responses to the (i) addition of 10mM free-galactose, (ii) resuspension of cells to serum-free medium, (iii) and dilution of encysting cultures to cell densities below that known to support full encystment (from 5 x 10(5) to 1 x 10(4)cells/ml). The role of serum components (and the gal-terminated ligand asialofetuin; ASF) adsorbed onto the surface upon which encystment proceeds, and their effect on the multi-cellular aggregation patterns formed during encystment, were also investigated. The addition of free-galactose reduced the levels of encystment (compared with the control) even when added at 10h after resuspension of trophozoites in 47% LG. The requirement for the presence of ABS during encystment was lost within 6h, with levels of encystment of cells washed free of serum reaching 80% of the control. The ability of cells to encyst when diluted to a cell density below that normally thought to support encystment reached over 50% by 8h. Efficient encystment could be obtained in 47% LG in the absence of ABS or ASF using pre-treated glass culture tubes. Encystment (47% LG; 5% ABS) using ultra low attachment plates was poor, suggesting attachment of cells to a surface via gal-terminated ligands was important for efficient encystment. The results suggest that ABS is probably not the only source of gal-terminated ligands necessary for high levels of encystment in 47% LG. While serum may provide a source of ligands which enhance the levels of encystment initially, other gal-terminated ligands possibly released by the encysting cells are still required for the completion of the encystment process and the formation of mature cysts. In addition, the gal-terminated ligands necessary for encystment efficiency may be adsorbed onto the glass surface of culture tubes and aid the initial aggregation process, as well as be involved in cell signaling during the encystment process.     

DNA synthesis in growth and encystment of Acanthamoeba castellanii.

Differentiation of Acanthamoeba castellanii into dormant cysts occurs spontaneously in stationary phase cultures, or can be induced experimentally by starvation. Although no further increase in cell density occurred after induction in either case, incorporation of [H]thymidine into DNA continued at a reduced rate through the period when differentiated products (cyst wall components) were formed. No net accumulation of DNA occurred during differentiation, indicating that the DNA synthesis occurring at this time was balanced by breakdown. When either 5-fluorodeoxyuridine (FUdR) or hydroxyurea was added to exponentially growing cultures, growth was terminated and the subsequent spontaneous encystment was delayed in comparison with untreated stationary phase cultures. A similar delay was observed for experimentally induced encystment of FUdR-pretreated cells. In all cases, delay of encystment was correlated with inhibition of 32PO4 incorporation into DNA, and unexpectedly also into RNA. Addition of FUdR at zero-time of experimental induction of cells not previously exposed to FUdR, on the other hand, had no effect on encystment or on 32PO4 incorporation. The delay of encystment produced by FUdR and hydroxyurea, therefore, appeared to reflect a requirement for normal synthesis of DNA and/or RNA not only during encystment, but also during the period of exponential growth just before encystment induction.     

急纤虫营养细胞和休眠细胞的中间纤维-核骨架体系

利用生化分级抽提、DGD包埋—去包埋透射电镜术和SDS—PAGE凝胶电泳,研究了膜状急纤虫营养细胞和休眠细胞内中间纤维—核骨架体系的分化特征及其蛋白组成。观察到营养细胞中,位于细胞质不同区域的中间纤维形成网状,其网络的密度不同;核骨架中,核纤层位于细胞核周缘,薄层状,厚约50nm;核内骨架由较致密的纤维网络组成。休眠细胞内该结构体系依然存在,但位于细胞内不同层次的纤维网比营养细胞的同种结构要致密得多,这可能与纤毛虫脱分化时细胞大范围的收缩有关;休眠细胞的包囊壁中层壁存在相当于中间纤维的网络结构。SDS—PAGE电泳图谱显示,休眠细胞内该体系的蛋白组成发生了较明显的变化,其中保留了营养细胞的部分蛋白条带,丢失了部分条带,同时还产生了一些特异性条带。分析表明,膜状急纤虫的中间纤维—核骨架体系是细胞在营养条件下和休眠状态下都稳定存在的结构;而纤毛虫形成休眠细胞后中间纤维—核骨架体系及蛋白组成上的变化提示,细胞在休眠状态下,基因的表达水平与营养细胞是不同的。     

Major Role for Cysteine Proteases during the Early Phase of Acanthamoeba castellanii Encystment

Acanthamoeba castellanii is a facultative pathogen that has a two-stage life cycle comprising the vegetatively growing trophozoite stage and the dormant cyst stage. Cysts are formed when the cell encounters unfavorable conditions, such as environmental stress or food deprivation. Due to their rigid double-layered wall, Acanthamoeba cysts are highly resistant to antiamoebic drugs. This is problematic as cysts can survive initially successful chemotherapeutic treatment and cause relapse of the disease. We studied the Acanthamoeba encystment process by using two-dimensional gel electrophoresis (2DE) and found that most changes in the protein content occur early in the process. Truncated actin isoforms were found to abound in the encysting cell, and the levels of translation elongation factor 2 (EF2) were sharply decreased, indicating that the rate of protein synthesis must be low at this stage. In the advanced stage of encystment, however, EF2 levels and the trophozoite proteome were partly restored. The protease inhibitors PMSF (phenylmethylsulfonyl fluoride) and E64d [(2S,3S)-trans-epoxysuccinyl-l-leucylamido-3-methylbutane ethyl ester] inhibited the onset of encystment, whereas the protein synthesis inhibitor cycloheximide was ineffective. Changes in the protein profile, similar to those of encysting cells, could be observed with trophozoite homogenates incubated at room temperature for several hours. Interestingly, these changes could be inhibited significantly by cysteine protease inhibitors but not by inhibitors against other proteases. Taken together, we conclude that the encystment process in A. castellanii is of a bipartite nature consisting of an initial phase of autolysis and protein degradation and an advanced stage of restoration accompanied by the expression of encystment-specific genes.The bacteriovorous Acanthamoeba spp. occur ubiquitously in the environment (27) and have a two-stage life cycle consisting of the replicating and feeding trophozoite stage and the dormant, double-walled, cyst stage (16). Cysts are formed in order to survive in an inhospitable environment and are able to persist in a wide variety of habitats (4, 17). Indeed, the ubiquity of Acanthamoeba is made possible by the extreme resistance of the cyst against desiccation, temperature changes, chemicals, radiation, and prolonged starvation. Also, various antiamoebic agents, such as benzalkonium chloride and propamidine isethionate, have no effect on cysts (9, 13, 29). Since acanthamoebae are facultative pathogens that can cause Acanthamoeba keratitis (AK) and granulomatous amoebic encephalitis (GAE), encystment is also of medical relevance (16). An often occurring complication in the treatment of AK is the presence of viable cysts that remain in the corneal stroma after initial successful therapy, as these can eventually excyst again and lead to recurrent infections (23).According to Weisman (31), the encystment process comprises three phases: induction, wall synthesis, and dormancy. During the induction phase, trophozoites begin to lose their amoeboid appearance and become round. The first wall that is formed gives rise to the exocyst; this wall is 0.3 to 0.5 μm thick and consists mostly of acid-insoluble proteins. The endocyst is formed after the appearance of a well-defined layer whose major component is cellulose (31). Cell wall synthesis is usually accompanied by a decrease in cytoplasmic mass of approximately 80% through a gradual dehydration of the amoeba, thereby causing retraction of the protoplast from the cell wall (2). Rather early, autolysosomes appear and remain in the cytoplasm throughout the whole encystment process. In light of these dramatic changes in the cell''s physiology, it is surprising that the encysting cell can stop and revert the process until 15 h after induction (30). Afterwards, however, cells become committed to the completion of the encystment process.At the molecular level, a number of factors involved in the encystment process have been characterized thus far. For example, cyst-specific protein 21 (Csp21) is a cyst wall protein found in group II acanthamoebae and was reported to be synthesized approximately 12 h after induction (6). The expression of the respective gene is repressed under normal growth conditions via one or more repressor elements between the TATA box and nucleotide (nt) +63 (3). Furthermore, encystment requires serine protease activity (5, 20) and autophagy proteins (22), all of which are suggested to be involved in autolytic processes, and glycogen phosphorylase, which is necessary for the breakdown of glycogen (14). The glucose-1-phosphate that is thereby liberated is subsequently used for the buildup of cellulose in the cyst wall.In the search for additional factors, there have been several successful attempts in the past years to screen encysting Acanthamoeba castellanii for genes specifically expressed during encystment at the mRNA level (19, 21) as well as at the protein level (1, 24). However, there is still a lack of information on the extent of cellular reorganization during the encystment process at the protein level. In this study, we therefore aimed to monitor the encystment process in PAT06, a new clinical isolate of A. castellanii (10), by using two-dimensional gel electrophoresis (2DE) and to analyze the developmental and molecular processes at the proteomic level.     

On dormancy strategies in tardigrades

In this review we analyze the dormancy strategies of metazoans inhabiting “hostile to life” habitats, which have a strong impact on their ecology and in particular on the traits of their life history. Tardigrades are here considered a model animal, being aquatic organisms colonizing terrestrial habitats. Tardigrades evolved a large variety of dormant stages that can be ascribed to diapause (encystment, cyclomorphosis, resting eggs) and cryptobiosis (anhydrobiosis, cryobiosis, anoxibiosis). In tardigrades, diapause and cryptobiosis can occur separately or simultaneously, consequently the adoption of one adaptive strategy is not necessarily an alternative to the adoption of the other. Encystment and cyclomorphosis are characterized by seasonal cyclic changes in morphology and physiology of the animals. They share several common features and their evolution is strictly linked to the molting process. A bet-hedging strategy with different patterns of egg hatching time has been observed in a tardigrade species. Four categories of eggs have been identified: subitaneous, delayed-hatching, abortive and diapause resting eggs, which needs a stimulus to hatch (rehydration after a period of desiccation). Cryptobiotic tardigrades are able to withstand desiccation (anhydrobiosis) and freezing (cryobiosis) at any stage of their life-cycle. This ability involves a complex array of factors working at molecular (bioprotectans), physiological and structural levels. Animal survival and the accumulation of molecular damage are related to the time spent in the cryptobiotic state, to the abiotic parameters during the cryptobiotic state, and to the conditions during initial and final phases of the process. Cryptobiosis evolved independently at least two times in tardigrades, in eutardigrades and in echiniscoids. Within each evolutionary line, the absence of cryptobiotic abilities is more related to selective pressures to local habitat adaptation than to phylogenetic relationships. The selective advantages of cryptobiosis (e.g. persistency in “hostile to life” habitats, reduction of competitors, parasites and predators, escaping in time from stressful conditions) could explain the high tardigrade species diversity and number of specimens found in habitats that dry out compared to freshwater habitats.     

Cyst and encystment in protozoan parasites: optimal targets for new life-cycle interrupting strategies?

Certain protozoan parasites use survival strategies to reside outside the host such as the formation of cysts. This dormant and resistant stage results from the complex process of encystment that involves diverse molecular and cellular modifications. The stimuli and changes associated with cyst biogenesis are a matter of ongoing studies in human and animal protozoan parasites such as amoeba and Giardia species because blocking every step in the encystment pathway should, in theory, interrupt their life cycles. The present review thoroughly examines this essential process in those protozoan parasites and discusses the possibility of using that information to develop new kinds of anti-parasite specific and life cycle-interrupting drugs, aimed at holding back the dissemination of these infections.     

Rapid Growth of Acanthamoeba In Defined Media; Induction of Encystment By Glucose-Acetate Starvation

Defined media are described that support 14-20 h generation times for Acanthamoeba castellanii and A. rhysodes in monolayer cultures. the media differ in minor ways from previously described media, but the growth rates are greatly improved over previously reported values. Maximum growth rates were observed for A, castellanii in a complex medium containing 21 amino acids, but near-maximum rates could be achieved in relatively simple media containing 9 amino acids. Growth occurred with 6 amino acids, as reported by others, but generation times exceeded 30 h. Amitosis was a common problem during early subcultures in defined media, but became infrequent after repeated transfers. Synchronous encystment resulting in 70-80% cyst formation could be induced in the defined media by glucose and acetate starvation. the rate of encystment varied with cell density at the time of starvation and was optimal at initial densities of 400-800 amebae/mm2.