Analogs of the Golgi complex in microsporidia: structure and avesicular mechanisms of function-Reference-Cited by-同舟云学术

Analogs of the Golgi complex in microsporidia: structure and avesicular mechanisms of function

Published:2007-04-01 Issue:7 Volume:120 Page:1288-1298
ISSN:1477-9137
Container-title:Journal of Cell Science
language:en
Short-container-title:

Author:

Beznoussenko Galina V.¹,Dolgikh Viacheslav V.²,Seliverstova Elena V.³,Semenov Petr B.²,Tokarev Yuri S.²,Trucco Alvar¹,Micaroni Massimo¹,Di Giandomenico Daniele¹,Auinger Peter⁴,Senderskiy Igor V.²,Skarlato Sergei O.⁵,Snigirevskaya Ekaterina S.⁵,Komissarchik Yan Yu.⁵,Pavelka Margit⁴,De Matteis Maria A.¹,Luini Alberto¹,Sokolova Yuliya Ya.⁵,Mironov Alexander A.¹

Affiliation:

1. Department of Cell Biology and Oncology, Consorzio Mario Negri Sud, Via Nazionale, 66030 Santa Maria Imbaro (Chieti), Italy

2. Laboratory of Microbiological Control, All-Russian Institute for Plant Protection, Russian Academy of Agricultural Sciences, Shosse Podbelskogo, 3, 189620, St. Petersburg-Pushkin, Russia

3. Laboratory of Renal Physiology, Sechenov Institute of Evolutionary Physiology and Biochemistry, 44 Moris Torez Prospekt, St. Petersburg, Russia

4. Institute of Histology and Embryology, University of Vienna, Schwarzspanierstrafle 17, A-1090 Vienna, Austria

5. Institute of Cytology, Russian Academy of Sciences, Tikhoretsky Av., 4, 194064, St. Petersburg, Russia

Abstract

Microsporidia are obligatory intracellular parasites, most species of which live in the host cell cytosol. They synthesize and then transport secretory proteins from the endoplasmic reticulum to the plasma membrane for formation of the spore wall and the polar tube for cell invasion. However, microsporidia do not have a typical Golgi complex. Here, using quick-freezing cryosubstitution and chemical fixation, we demonstrate that the Golgi analogs of the microsporidia Paranosema (Antonospora) grylli and Paranosema locustae appear as 300-nm networks of thin (25- to 40-nm diameter), branching or varicose tubules that display histochemical features of a Golgi, but that do not have vesicles. Vesicles are not formed even if membrane fusion is inhibited. These tubular networks are connected to the endoplasmic reticulum, the plasma membrane and the forming polar tube, and are positive for Sec13, γCOP and analogs of giantin and GM130. The spore-wall and polar-tube proteins are transported from the endoplasmic reticulum to the target membranes through these tubular networks, within which they undergo concentration and glycosylation. We suggest that the intracellular transport of secreted proteins in microsporidia occurs by a progression mechanism that does not involve the participation of vesicles generated by coat proteins I and II.

Publisher

The Company of Biologists

Subject

Cell Biology

Link

http://journals.biologists.com/jcs/article-pdf/120/7/1288/1508322/1288.pdf

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