Growth of Entamoeba invadens in sediments with metabolically repressed bacteria leads to multicellularity and redefinition of the amoebic cell system
Extracellular signaling and mechanisms of cell differentiation in Entamoeba are misunderstood. The main reason is the popular use of axenic media, which do not correspond to the natural habitats of Entamoeba. The axenic environment lacks the exogenous activators and repressors provided by natural ha...
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| Published in | Romanian archives of microbiology and immunology Vol. 72; no. 1; pp. 25 - 48 |
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| Main Author | |
| Format | Journal Article |
| Language | English Romanian |
| Published |
Romania
01.01.2013
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Extracellular signaling and mechanisms of cell differentiation in Entamoeba are misunderstood. The main reason is the popular use of axenic media, which do not correspond to the natural habitats of Entamoeba. The axenic environment lacks the exogenous activators and repressors provided by natural habitats. Absent bacterial commensals understanding of the development of the amoebic cell system remains deficient. The present Aa(Sm) culture method using mixed sediments of antibiotically repressed Aerobacter aerogens and amoebae was developed to model in vitro extracellular signaling that induce multicellularity in cultures of E. invadens. Repressed oxygen consuming sediment bacteria supply E. invadens the hypoxic environment needed for differentiation and development. The amoebae themselves alter the environment by consuming the bacteria by phagocytosis thus reversing hypoxia. Exogenous activators are in this manner down regulated and suppressed. This feedback effect controls amoebic development and differentiation. Co-existing cell types and cell fractions with different life spans and cell cycle length could be identified. Aa(Sm) long term cultures contain continuous and non-continuous self renewing cell lines producing quiescent and terminally differentiated daughter cells (precysts) by asymmetric division. This culturing method helps to understand the intimate relationship between hypoxic environments and the multicellular behaviour of E. invadens and the interrelations existing between the distinct cell types. |
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| AbstractList | Extracellular signaling and mechanisms of cell differentiation in Entamoeba are misunderstood. The main reason is the popular use of axenic media, which do not correspond to the natural habitats of Entamoeba. The axenic environment lacks the exogenous activators and repressors provided by natural habitats. Absent bacterial commensals understanding of the development of the amoebic cell system remains deficient. The present Aa(Sm) culture method using mixed sediments of antibiotically repressed Aerobacter aerogens and amoebae was developed to model in vitro extracellular signaling that induce multicellularity in cultures of E. invadens. Repressed oxygen consuming sediment bacteria supply E. invadens the hypoxic environment needed for differentiation and development. The amoebae themselves alter the environment by consuming the bacteria by phagocytosis thus reversing hypoxia. Exogenous activators are in this manner down regulated and suppressed. This feedback effect controls amoebic development and differentiation. Co-existing cell types and cell fractions with different life spans and cell cycle length could be identified. Aa(Sm) long term cultures contain continuous and non-continuous self renewing cell lines producing quiescent and terminally differentiated daughter cells (precysts) by asymmetric division. This culturing method helps to understand the intimate relationship between hypoxic environments and the multicellular behaviour of E. invadens and the interrelations existing between the distinct cell types. |
| Author | Niculescu, Vladimir F |
| Author_xml | – sequence: 1 givenname: Vladimir F surname: Niculescu fullname: Niculescu, Vladimir F email: besnea@aol.com organization: Institute for Zoology and Department of Biology III, University of Tübingen, Germany. besnea@aol.com |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/23947012$$D View this record in MEDLINE/PubMed |
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| SubjectTerms | Ecosystem Entamoeba - growth & development Entamoeba - microbiology Enterobacter aerogenes - metabolism Geologic Sediments - microbiology Oxygen - metabolism Serratia marcescens - metabolism |
| Title | Growth of Entamoeba invadens in sediments with metabolically repressed bacteria leads to multicellularity and redefinition of the amoebic cell system |
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