The Sec24 subunit of the coat protein complex II (COPII) has been implicated in selecting newly synthesized cargo from the endoplasmic reticulum (ER) for delivery to the Golgi. The protozoan parasite, Trypanosoma brucei, contains two paralogs, TbSec24.1 and TbSec24.2, which were depleted using RNA interference in the insect form of the parasite. Depletion of either TbSec24.1 or TbSec24.2 resulted in growth arrest and modest inhibition of anterograde transport of the putative Golgi enzyme, TbGntB, and the secretory marker, BiPNAVRG-HA9. In contrast, depletion of TbSec24.1, but not TbSec24.2, led to reversible mislocalization of the Golgi stack proteins, TbGRASP and TbGolgin63. The latter accumulated in the ER. The localization of the COPI coatomer subunit, TbεCOP, and the trans Golgi network (TGN) protein, TbGRIP70, was largely unaffected, although the latter was preferentially lost from those Golgi that were not associated with the bilobe, a structure previously implicated in Golgi biogenesis. Together, these data suggest that TbSec24 paralogs can differentiate among proteins destined for the Golgi.
A novel organelle-like membrane specialization has been found in an epithelial cell line. Characteristically, the helical membrane arrays (referred to hereafter as TUHMAs) are organized around tubular, proteinaceous electron-dense cores of 80 nm in diameter. Depending on the cell status, up to 8 of these cores provide the basis for an intermingled membrane scaffold of an overall length of 3-5 microm. TUHMAs exist as single organelles in transient association with the nucleus, the rough endoplasmic reticulum, patches of annulate lamellae, and the Golgi complex. While most of the constituents are still unknown, evidence for an involvement of nucleoporins in TUHMA organization is presented, as shown by fluorescence immunochemistry. This should make TUHMAs more easily accessible for future studies on their structure and function.
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