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Qt6rc7w7h2.Pdf UC Irvine UC Irvine Previously Published Works Title Extensive flagellar remodeling during the complex life cycle of Paratrypanosoma, an early-branching trypanosomatid. Permalink https://escholarship.org/uc/item/6rc7w7h2 Journal Proceedings of the National Academy of Sciences of the United States of America, 114(44) ISSN 0027-8424 Authors Skalický, Tomáš Dobáková, Eva Wheeler, Richard J et al. Publication Date 2017-10-16 DOI 10.1073/pnas.1712311114 License https://creativecommons.org/licenses/by/4.0/ 4.0 Peer reviewed eScholarship.org Powered by the California Digital Library University of California Extensive flagellar remodeling during the complex life cycle of Paratrypanosoma, an early-branching trypanosomatid Tomáš Skalickýa,b,1,2, Eva Dobákováa,1, Richard J. Wheelerc,1, Martina Tesarováa, Pavel Flegontova,d, Dagmar Jirsováa,3, Jan Votýpkaa,e, Vyacheslav Yurchenkoa,d,f, Francisco J. Ayalag,4, and Julius Lukeša,b,4 aInstitute of Parasitology, Biology Centre, Czech Academy of Sciences, 37005 Ceské Budejovice, Czech Republic; bFaculty of Science, University of South Bohemia, 37005 Ceské Budejovice, Czech Republic; cSir William Dunn School of Pathology, University of Oxford, Oxford, OX1 3RE, United Kingdom; dLife Science Research Centre, Faculty of Science, University of Ostrava, 71000 Ostrava, Czech Republic; eDepartment of Parasitology, Faculty of Science, Charles University, 12844 Prague, Czech Republic; fInstitute of Environmental Technologies, Faculty of Science, University of Ostrava, 71000 Ostrava, Czech Republic; and gDepartment of Ecology and Evolutionary Biology, University of California, Irvine, CA, 92697 Contributed by Francisco J. Ayala, September 18, 2017 (sent for review July 11, 2017; reviewed by Mark Carrington and Paul A. Michels) Paratrypanosoma confusum is a monoxenous kinetoplastid flagel- for transmission, immune evasion, and cell division (7) of Trypa- late that constitutes the most basal branch of the highly diverse nosoma brucei. Recently further flagellar functions, including pro- parasitic trypanosomatids, which include human pathogens Trypa- duction of extracellular vesicles that may mediate host interaction nosoma and Leishmania. This makes Paratrypanosoma uniquely in- (8) and parasite–parasite interaction by membrane exchange or formative for the evolution of obligatory parasitism from free-living fusion (9), have been described. In the juxtaform morphological lifestyle and the evolution of human parasitism in some trypanoso- superclass (trypo- and epimastigotes), the flagellum is laterally at- matid lineages. It has typical promastigote morphology but also tached to the cell by an extended flagellum attachment zone forms surface-attached haptomonads and amastigotes. Haptomo- (FAZ). Alternatively, in the liberform morphological superclass, nads form by attachment to a surface via a large bulge at the base the flagellum may protrude from the flagellar pocket without an of the flagellum, which is then remodeled into a thin attachment pad extended attachment (pro-, opistho-, and choanomastigotes) (10). associated with flagellum shortening. Promastigotes and haptomo- Here we report that Paratrypanosoma and stercorarian trypano- nads multiply by binary division, and the progeny of a haptomonad Trypanosoma cruzi Trypanosoma grayi can either remain attached or grow a flagellum and resume swim- somes, including and ,retain ming. Whole genome sequencing and transcriptome profiling, in more ancestral genes than other trypanosomatid clades. Despite – combination with analysis of the cell ultrastructure, reveal how the having liberform morphology, Paratrypanosoma has flagellum cell cell surface and metabolism are adapted to parasitism and how char- attachment via a small FAZ in the flagellar pocket similar to acteristic cytoskeletal features are conserved. Our data demonstrate Leishmania (11). It also has a complex cytostome architecture that surface attachment by the flagellum and the flagellar pocket, a similar to T. cruzi (12)butlostinT. brucei and Leishmania Leishmania-like flagellum attachment zone, and a Trypanosoma cruzi-like cytostome are ancestral features, while evolution of extant Significance trypanosomatids, including the human parasites, is associated with genome streamlining and diversification of membrane proteins. Kinetoplastids are a group of protists with unique morphology and molecular features. Many have developed a parasitic life- trypanosomatid | evolution | flagellar remodeling | haptomonads | style and are economically and medically important causative cytostome agents of serious crop, animal, and human diseases. Evolu- tionarily, Paratrypanosoma confusum sits between parasitic inetoplastid flagellates are diverse and widespread protists, trypanosomatids and free-living bodonids and therefore is Kbest known for serious human diseases caused by the trypa- uniquely informative for study of the emergence of parasitism. nosomatid genera Trypanosoma and Leishmania.Mostkineto- It is morphologically very flexible, as it forms three distinct life plastids are successful parasites, infecting a wide range of hosts stages that can be studied separately. Particularly interesting is and with unique and numerous adaptations to the host environ- the haptomonad stage in which it rebuilds its flagellum into an ment. It is proposed that disease-causing trypanosomatids with extensive adhesive plaque. As an adaptation to parasitism, two-host (dixenous) life cycles (an insect vector and the mam- Paratrypanosoma lost a plethora of enzymes involved in malian or plant host) evolved from flagellates parasitizing solely breakdown of macromolecules and the capacity of receptor- MEDICAL SCIENCES insects (1). The earliest known branch of the trypanosomatid mediated endocytosis but has gained surface proteins and clade, predating its diversification, is Paratrypanosoma confusum, membrane transporters to obtain nutrients from the host. which infects mosquites (2). The free-living clade closest to try- Author contributions: F.J.A. and J.L. designed research; T.S., E.D., M.T., D.J., J.V., and V.Y. panosomatids is the genus Bodo (3, 4) performed research; T.S., R.J.W., P.F., and J.L. analyzed data; and T.S., R.J.W., P.F., F.J.A., Emergence of monoflagellated parasitic trypanosomatids from and J.L. wrote the paper. the biflagellated bacteriovorous Bodo involved halving of the Reviewers: M.C., University of Cambridge; and P.A.M., The University of Edinburgh. number of genes (3, 4). To identify further features associated with The authors declare no conflict of interest. the evolution of parasitism, we analyzed the morphology of Para- Published under the PNAS license. trypanosoma and its adaptation to different in vitro environments. 1T.S., E.D., and R.J.W. contributed equally to this work. Combined with analysis of the genome and transcriptome, this 2Present address: Central European Institute of Technology, Masaryk University, 62500 allowed identification of genes potentially associated with these Brno, Czech Republic. features. The single flagellum of trypanosomatids is a highly flexible 3Present address: Faculty of Forestry and Wood Technology, Mendel University in Brno, structure used for locomotion, attachment, and sensing. Its struc- 61300 Brno, Czech Republic. ture is subject to substantial restructuring during the life cycle to 4To whom correspondence may be addressed. Email: [email protected] or [email protected]. adapt to different functions (5, 6) and is intimately associated with This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10. the vital flagellar pocket structure. Flagellar motility is also required 1073/pnas.1712311114/-/DCSupplemental. www.pnas.org/cgi/doi/10.1073/pnas.1712311114 PNAS | October 31, 2017 | vol. 114 | no. 44 | 11757–11762 A formed extensive thin attachment plaques on plastic substrates K (Fig. 1 B–E). We have also observed these morphologies in the gut e t N Cytostome of the Culex quinquefasciatus host. On semisolid agar, Para- o g i t trypanosoma attained a third morphology: an amastigote without a s a noticeable free flagellum (Fig. 1A). These morphologies are typical m o Bulge of monoxenous trypanosomatids: haptomonads during surface at- r P tachment in the gut of the invertebrate host, and amastigotes when Flagellum excreted. All Paratrypanosoma morphologies lack an extended N FAZ, typical of the liberform morphological superclass (11). d K We have been unable to ascertain the relation of axenic culture a n cell morphologies to the Paratrypanosoma life cycle, which is not o m well understood. In C. quinquefasciatus mosquitoes infected either o t p by feeding on sugar or blood meal, Paratrypanosoma was detected a = H in the gut and/or crop on the first (100% specimens, n 8), second (100%, n = 9), and third day postinfection (90%, n = 10) but not after defecation. Gaining and retention of the infection from third or fourth instar larvae through pupation to adult mosquitos were e t tested by addition of promastigotes into water containing the larvae, o g i where the promastigotes survive for at least 2 d. The adult mosqui- t s = a toes of both sexes were never infected (n 80). This may suggest m defective infectivity of the culture-adapted parasites. Paratrypanosoma A N fail to survive at 37 °C for more than a few hours, suggesting a K monoxenous lifestyle. We also attempted to infect four BALB/c mice by a combination of s.c. and i.p. injection of 107 promastigotes, BChowever 1–4 wk postinfection parasites were detected neither by cultivation nor
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