$If host is refractory, insistent parasite goes berserk: Trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus$

If host is refractory, insistent parasite goes berserk: Trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus

Here we characterized the development of the trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus using light and electron microscopy. This parasite has been previously reported to occur in the host hemolymph, which is rather typical for dixenous trypanosomatids transmitted to a p...

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Veröffentlicht in:	PloS one 2020-01, Vol.15 (1), p.e0227832-e0227832
Hauptverfasser:	Frolov, Alexander O, Malysheva, Marina N, Ganyukova, Anna I, Spodareva, Viktoria V, Králová, Jana, Yurchenko, Vyacheslav, Kostygov, Alexei Y
Format:	Artikel
Sprache:	eng
Schlagworte:	Aggressive behavior Amastigotes Animals Bacteria Basal lamina Biodegradation Biological research Biology and Life Sciences Coreidae Coreus marginatus Deoxyribonucleic acid Disease Resistance DNA Electron microscopy Enterocytes Epimastigotes Epithelium Euglenozoa Infections - immunology Euglenozoa Infections - parasitology Euglenozoa Infections - veterinary Food vacuoles Golgi apparatus Hemolymph Hemolymph - parasitology Heteroptera - immunology Heteroptera - parasitology Host-Parasite Interactions - physiology Host-parasite relationships Infection Infections Insects Intestinal Mucosa - diagnostic imaging Intestinal Mucosa - parasitology Intestinal Mucosa - ultrastructure Intestine Life Cycle Stages - physiology Life cycles Life sciences Medicine and Health Sciences Microorganisms Microscopy Microscopy, Electron Midgut Parasites Parasitic diseases Physiological aspects Rectum Rostrum Saliva Segments Tropical diseases Trypanosoma Trypanosomatina - growth & development Trypanosomatina - pathogenicity Trypanosomatina - ultrastructure Vacuoles Vertebrates Zoology
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description	Here we characterized the development of the trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus using light and electron microscopy. This parasite has been previously reported to occur in the host hemolymph, which is rather typical for dixenous trypanosomatids transmitted to a plant or vertebrate with insect's saliva. In addition, C. marginatus has an unusual organization of the intestine, which makes it refractory to microbial infections: two impassable segments isolate the anterior midgut portion responsible for digestion and absorption from the posterior one containing symbiotic bacteria. Our results refuted the possibility of hemolymph infection, but revealed that the refractory nature of the host provokes very aggressive behavior of the parasite and makes its life cycle more complex, reminiscent of that in some dixenous trypanosomatids. In the pre-barrier midgut portion, the epimastigotes of B. raabei attach to the epithelium and multiply similarly to regular insect trypanosomatids. However, when facing the impassable constricted region, the parasites rampage and either fiercely break through the isolating segments or attack the intestinal epithelium in front of the barrier. The cells of the latter group pass to the basal lamina and accumulate there, causing degradation of the epitheliocytes and thus helping the epimastigotes of the former group to advance posteriorly. In the symbiont-containing post-barrier midgut segment, the parasites either attach to bacterial cells and produce cyst-like amastigotes (CLAs) or infect enterocytes. In the rectum, all epimastigotes attach either to the cuticular lining or to each other and form CLAs. We argue that in addition to the specialized life cycle B. raabei possesses functional cell enhancements important either for the successful passage through the intestinal barriers (enlarged rostrum and well-developed Golgi complex) or as food reserves (vacuoles in the posterior end).
doi_str_mv	10.1371/journal.pone.0227832
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However, when facing the impassable constricted region, the parasites rampage and either fiercely break through the isolating segments or attack the intestinal epithelium in front of the barrier. The cells of the latter group pass to the basal lamina and accumulate there, causing degradation of the epitheliocytes and thus helping the epimastigotes of the former group to advance posteriorly. In the symbiont-containing post-barrier midgut segment, the parasites either attach to bacterial cells and produce cyst-like amastigotes (CLAs) or infect enterocytes. In the rectum, all epimastigotes attach either to the cuticular lining or to each other and form CLAs. 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Academic</collection><collection>PubMed Central (Full Participant titles)</collection><collection>DOAJ Directory of Open Access Journals</collection><jtitle>PloS one</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Frolov, Alexander O</au><au>Malysheva, Marina N</au><au>Ganyukova, Anna I</au><au>Spodareva, Viktoria V</au><au>Králová, Jana</au><au>Yurchenko, Vyacheslav</au><au>Kostygov, Alexei Y</au><au>Oliveira, Pedro L.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>If host is refractory, insistent parasite goes berserk: Trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2020-01-16</date><risdate>2020</risdate><volume>15</volume><issue>1</issue><spage>e0227832</spage><epage>e0227832</epage><pages>e0227832-e0227832</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>Here we characterized the development of the trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus using light and electron microscopy. This parasite has been previously reported to occur in the host hemolymph, which is rather typical for dixenous trypanosomatids transmitted to a plant or vertebrate with insect's saliva. In addition, C. marginatus has an unusual organization of the intestine, which makes it refractory to microbial infections: two impassable segments isolate the anterior midgut portion responsible for digestion and absorption from the posterior one containing symbiotic bacteria. Our results refuted the possibility of hemolymph infection, but revealed that the refractory nature of the host provokes very aggressive behavior of the parasite and makes its life cycle more complex, reminiscent of that in some dixenous trypanosomatids. In the pre-barrier midgut portion, the epimastigotes of B. raabei attach to the epithelium and multiply similarly to regular insect trypanosomatids. However, when facing the impassable constricted region, the parasites rampage and either fiercely break through the isolating segments or attack the intestinal epithelium in front of the barrier. The cells of the latter group pass to the basal lamina and accumulate there, causing degradation of the epitheliocytes and thus helping the epimastigotes of the former group to advance posteriorly. In the symbiont-containing post-barrier midgut segment, the parasites either attach to bacterial cells and produce cyst-like amastigotes (CLAs) or infect enterocytes. In the rectum, all epimastigotes attach either to the cuticular lining or to each other and form CLAs. We argue that in addition to the specialized life cycle B. raabei possesses functional cell enhancements important either for the successful passage through the intestinal barriers (enlarged rostrum and well-developed Golgi complex) or as food reserves (vacuoles in the posterior end).</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>31945116</pmid><doi>10.1371/journal.pone.0227832</doi><tpages>e0227832</tpages><orcidid>https://orcid.org/0000-0003-1444-3104</orcidid><orcidid>https://orcid.org/0000-0002-1516-437X</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Aggressive behavior Amastigotes Animals Bacteria Basal lamina Biodegradation Biological research Biology and Life Sciences Coreidae Coreus marginatus Deoxyribonucleic acid Disease Resistance DNA Electron microscopy Enterocytes Epimastigotes Epithelium Euglenozoa Infections - immunology Euglenozoa Infections - parasitology Euglenozoa Infections - veterinary Food vacuoles Golgi apparatus Hemolymph Hemolymph - parasitology Heteroptera - immunology Heteroptera - parasitology Host-Parasite Interactions - physiology Host-parasite relationships Infection Infections Insects Intestinal Mucosa - diagnostic imaging Intestinal Mucosa - parasitology Intestinal Mucosa - ultrastructure Intestine Life Cycle Stages - physiology Life cycles Life sciences Medicine and Health Sciences Microorganisms Microscopy Microscopy, Electron Midgut Parasites Parasitic diseases Physiological aspects Rectum Rostrum Saliva Segments Tropical diseases Trypanosoma Trypanosomatina - growth & development Trypanosomatina - pathogenicity Trypanosomatina - ultrastructure Vacuoles Vertebrates Zoology
title	If host is refractory, insistent parasite goes berserk: Trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus
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