Factors which control encystment in Pleurotricha lanceolata ...

Penn, Amos Benkov Kuan-chin,

January 1934

Thesis (Ph. D.)--Johns Hopkins University, 1933. / Vita. "Sonderabdruck aus dem Archiv für protistenkunde, bd. 84, 1934." "Literature cited": p. 30-32.

Studies of Encystment and Germination in Azotobacter Vinelandii

Cagle, Gerald Dean

05 1900

Light and electron microscopy were employed to study the encystment and germination processes in Azotobacter. Data obtained from frozen-etched replicas and chemically fixed cells revealed that as encystment occurs, the cells become rounded, and lose their motility.

Azotobacter vinelandii

Azotobacter

encystment

germination

Lysosomal activity during population growth and encystment in the soil amoeba, Acanthamoeba castallanii /

Martin, Scott McClung

January 1973

No description available.

Biology

Acanthamoeba castellanii

Encystment

Lysosomes

Protein secretion and encystation in Acanthamoeba

De Obeso Fernandez Del Valle, Alvaro

January 2018

Free-living amoebae (FLA) are protists of ubiquitous distribution characterised by their changing morphology and their crawling movements. They have no common phylogenetic origin but can be found in most protist evolutionary branches. Acanthamoeba is a common FLA that can be found worldwide and is capable of infecting humans. The main disease is a life altering infection of the cornea named Acanthamoeba keratitis. Additionally, Acanthamoeba has a close relationship to bacteria. Acanthamoeba feeds on bacteria. At the same time, some bacteria have adapted to survive inside Acanthamoeba and use it as transport or protection to increase survival. When conditions are adverse, Acanthamoeba is capable of differentiating into a protective cyst. This study had three objectives. First, isolate and identify new FLA and Acanthamoeba strains. Second, identify encystation factors of Acanthamoeba. Third, identify and characterise new potential antimicrobial proteins produced by Acanthamoeba. The isolation of environmental amoebae was performed, and several strains of Acanthamoeba were identified from previously known genotypes. Also, two new species of FLA were identified: Allovahlkampfia minuta and Leptomyxa valladaresi. The dynamics of encystment were studied in different strains of Acanthamoeba. RNAseq was used to study gene expression during differentiation and identify differentially expressed genes. We identified different encystment factors including at least two encystment related proteases. A new antimicrobial zymogram was developed that identified antimicrobial proteins being secreted by Acanthamoeba. A 33 kDa protease was found to be able to lyse bacteria. We created DNA constructs encoding the protease and a lysozyme from Acanthamoeba for heterologous expression. The genes were successfully cloned. However, bacteria were not able to produce the proteins most probably due to their antimicrobial characteristics. Further studies are required regarding encystment and antimicrobial factors identified. Such experiments should help elucidate critical factors of Acanthamoeba's biology that could help treat several infections.

In vitro and in vivo studies on the immunobiology of encysting Giardia lamblia trophozoites

Campbell, John Darren

January 1993

Gerbils, experimentally infected with Giardia lamblia trophozoites, had trophozoites and encysting trophozoites in all 3 equal sections of the small intestine and in the colon at necropsy. Cysts were found in the second and third sections of the small intestine and in the colon. WB strain derived trophozoites (WB, D1, WB-C6, and V1) differed in levels of encystation in vitro but not in gerbils. Passage in gerbils increased the in vitro encystation levels of WB and D1 but decreased that of WB-C6 and V1. No differences were found in the total protein profiles or isoenzyme patterns of these G. lamblia populations. Immunization of mice with in vitro cysts produced monoclonal antibodies (mAbs) recognizing cyst protein antigens. In Immunofluorescence (IFA), mAb 5A4.G6 recognized cyst walls. This mAb reacted with a 38 kD band on Western blots. IFA results showed that mAb 8C5.C11 reacts with vesicles in encysting trophozoites and with cyst walls. It recognized 26, 28, 42 and 46 kD bands in Western blots. When mAb 8C5.C11 and Guinea pig complement were added to 0-9 hour encysting cultures, the numbers of cysts produced were significantly reduced compared to control. MAb 5A4.G6 did not affect in vitro encystation.

Giardia lamblia.

Giardiasis -- Immunological aspects.

Encystment (Zoology)

In vitro and in vivo studies on the immunobiology of encysting Giardia lamblia trophozoites

Campbell, John Darren

January 1993

No description available.

Giardiasis -- Immunological aspects.

Giardia lamblia.

Encystment (Zoology)

Changes in nuclear and mitochondrial DNA levels and metabolism during ageing and encystment in Acanthamoeba castellanii /

King, Louis Earl

January 1980

No description available.

Biology

Acanthamoeba castellanii

Encystment

Cell cycle

The Infectivity of Naegleria fowleri Cysts in vivo and in vitro, and Mediation of Encystment by cAMP

Evdokiou, Anna L

01 January 2019

The free-living amoeba and causative agent of Primary Amoebic Meningoencephalitis, Naegleria fowleri, has three life stages: the trophozoite, the flagellate, and the cyst. This study examined the ability of the cyst to attach to, excyst upon, and destroy cell cultures grown to confluent monolayers, and to cause Primary Amoebic Meningoencephalitis in a murine animal model. The co-culture of cysts with P388D.1, CHME3, Vero, human nasal epithelial, and rat primary mixed glial cells resulted in destruction of the monolayer of all cell types once the cysts attached and excysted. One day post exposure to cysts, the mixed glial cells exhibited a two-fold increase in lactate dehydrogenase (LDH) release compared to cells without cysts, and on day eight post exposure, showed a nearly four-fold increase in LDH. In this study, the cysts of N. fowleri were shown not to be infective in vivo in a murine model using B6C3F1 male mice. The mediation of the encystment process by the intracellular concentration of the secondary messenger cAMP, as described in other closely related genera and species of amoeba, was also investigated. Encystment of N. fowleri was shown to be mediated at least in part by the secondary messenger cAMP by treating cultures of the trophozoite with 100 uM dipyridamole, an inhibitor of cAMP-specific phosphodiesterases. Dipyridamole (100 μM) increased the rate of encystment by nearly two-fold compared to 0.1% DMSO by the end of a five day period of observation. This suggests that cAMP is an essential mediator of the encystment process within Naegleria fowleri.

Naegleria fowleri

amoeba

cyst

encystment

cAMP

Primary Amoebic Meningoencephalitis

Microbiology

Encystment of Acanthamoeba and Evaluating the Biobus Program

Trevisan, Brandi C

18 August 2010

Acanthamoeba are ubiquitous protists that play an environmental role in regulating microbial diversity; they also occasionally cause infections of the eye (Acanthamoeba keratitis) and brain (granulomatous amoebic encephalitis). These organisms exhibit two distinct phenotypes. The trophozoite form dominates in favorable conditions, in which the Acanthamoeba move through the extension of pseudopodia, engulfing microbes and other particles. During stressful conditions, the Acanthamoeba undergo a process of encystment, in which they build a double cell wall and become relatively inactive. The cyst form can survive years until more favorable conditions arise, at which point they may excyst. For this study, multiple laboratory encystment methods were compared to determine the percent encystment and the different viabilities of laboratory-produced cysts. Furthermore, four different encystment genes were targeted for development of a primer library for reverse-transcription, polymerase chain reaction expression studies. The library was developed using sequences accessed from various databases, including NCBI and EMBL; primers were screened through polymerase chain reaction, and those primers producing positive results were used to further screen cellular RNA that was extracted from encysting cells over various time points during the encystment process, and using various encystment media. Using these methods, target gene involvement in the encystment process was compared between species and encystment methods. These studies lay the foundation for quantitative gene expression analysis, and provide the basis for comparison of various encystment methods.

Acanthamoeba

Acanthamoeba keratitis

Cysts

Encystment

RT-PCR

Trophozoites

Biology, general

Extreme-Tolerance Mechanisms in Meiofaunal Organisms: A Case Study With Tardigrades, Rotifers and Nematodes

Rebecchi, Lorena, Boschetti, Chiara, Nelson, Diane R.

01 July 2020

To persist in extreme environments, some meiofaunal taxa have adopted outstanding resistance strategies. Recent years have seen increased enthusiasm for understanding extreme-resistance mechanisms evolved by tardigrades, nematodes and rotifers, such as the capability to tolerate complete desiccation and freezing by entering a state of reversible suspension of metabolism called anhydrobiosis and cryobiosis, respectively. In contrast, the less common phenomenon of diapause, which includes encystment and cyclomorphosis, is defined by a suspension of growth and development with a reduction in metabolic activity induced by stressful environmental conditions. Because of their unique resistance, tardigrades and rotifers have been proposed as model organisms in the fields of exobiology and space research. They are also increasingly considered in medical research with the hope that their resistance mechanisms could be used to improve the tolerance of human cells to extreme stress. This review will analyse the dormancy strategies in tardigrades, rotifers and nematodes with emphasis on mechanisms of extreme stress tolerance to identify convergent and unique strategies occurring in these distinct groups. We also examine the ecological and evolutionary consequences of extreme tolerance by summarizing recent advances in this field.

anhydrobiosis

cryptobiosis

desiccation

diapause

dormancy

encystment

Biological Sciences