Biopolis Dresden Imaging Platform

Insight into the ultrastructural organisation of sporulated oocysts of Eimeria nieschulzi (Coccidia, Apicomplexa).

Seemann E, Kurth T, Entzeroth R

Sporulated oocysts of Eimeria contain four sporocysts with two sporozoites each and a sporocyst residuum. The developing sporozoites are protected by the sporocyst wall and the robust double-layered oocyst wall. Because of problems with conventional fixatives, high-pressure freezing, followed by freeze substitution was used to achieve optimal ultrastructural preservation of oocysts, sporocysts and sporozoites. After embedding in Epon®, ultrathin sections were examined by electron microscopy to select specific oocyst regions for further investigation by electron tomography (ET). ET allows high-resolution three-dimensional views of subcellular structures within the oocysts and sporocysts. Analysis of several 300 nm sections by ET revealed a network of small tubular structures with a diameter of 70-120 nm inside the sporocysts which is decribed here for the first time. This network connects the residual body in a sporocyst with the endoplasmic reticulum (ER) of the surrounding sporozoites. The network consists of membrane-bound tubules that contain vesicles but no larger organelles like mitochondria. These tubules, named "sporocord", may have a function similar to an "umbilical cord" providing the sporozoites with metabolites for long-term survival. Small vesicular structures inside the ER of the sporozoites, multivesicular structures inside the residual bodies and vesicles in the tubules support this hypothesis.

Fig.6 taken from Seemann et al, 2012.
  • Parasitol. Res. 2012 Nov 07;111(5):2143-7
  • 2012
  • Cell Biology
  • 22955498
  • PubMed

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