We have shown previously that Rab6, a small, trans-Golgi-localized GTPase, acts upstream of the COG and ZW10/RINT1 retrograde tether complexes to maintain Golgi homeostasis. Here, we present evidence from the unbiased and high-resolution approach of electron microscopy and electron tomography that Rab6 is essential to the trans-Golgi trafficking of two morphological classes of coated vesicles; the larger corresponds to clathrin-coated vesicles and the smaller to COPI-coated vesicles. Based on the site of coated vesicle accumulation, cisternal dilation, and the normal kinetics of cargo transport from the ER to Golgi followed by delayed Golgi to cell surface transport, we suggest that Golgi function in cargo transport is preferentially inhibited at the trans-Golgi/TGN. The >50% increase in Golgi cisternae number in Rab6-depleted HeLa cells that we observed may well be coupled to the trans-Golgi accumulation of COPI-coated vesicles; depletion of the individual Rab6 effector, myosin IIA, produced an accumulation of uncoated vesicles with if anything a decrease in cisternal number. These results are the first evidence for a Rab6-dependent protein machine affecting Golgi-proximal, coated vesicle accumulation and likely transport at the trans-Golgi and the first example of concomitant cisternal proliferation and increased Golgi stack organization under inhibited transport conditions.
We used multiple approaches to investigate the coordination of trans and medial Rab proteins in the regulation of intra-Golgi retrograde trafficking. We reasoned that medially located Rab33b might act downstream of the trans Golgi Rab, Rab6, in regulating intra-Golgi retrograde trafficking. We found that knockdown of Rab33b, like Rab6, suppressed conserved oligomeric Golgi (COG) complex-or Zeste White 10 (ZW10)-depletion induced disruption of the Golgi ribbon in HeLa cells. Moreover, efficient GTP-restricted Rab6 induced relocation of Golgi enzymes to the endoplasmic reticulum (ER) was Rab33b-dependent, but not vice versa, suggesting that the two Rabs act sequentially in an intra-Golgi Rab cascade. In support of this hypothesis, we found that overexpression of GTP-Rab33b induced the dissociation of Rab6 from Golgi membranes in vivo. In addition, the transport of Shiga-like toxin B fragment (SLTB) from the trans to cis Golgi and ER required Rab33b. Surprisingly, depletion of Rab33b had little, if any, immediate effect on cell growth and multiplication. Furthermore, anterograde trafficking of tsO45G protein through the Golgi apparatus was normal. We suggest that the Rab33b/Rab6 regulated intra-Golgi retrograde trafficking pathway must coexist with other Golgi trafficking pathways. In conclusion, we provide the first evidence that Rab33b and Rab6 act to coordinate a major intra-Golgi retrograde trafficking pathway. This coordination may have parallels with Rab conversion/cascade events that regulate endosome, phagosome and exocytic processes.
327 Background: Platelets, anucleated cells that play a critical role in blood clotting, store proteins and small molecules in alpha-granules and dense granules, respectively, for secretion. Alpha-granules contain several proteins including von Willebrand factor and fibrinogen and dense granules contain serotonin. Rab4, a marker for the early endosomes has been implicated in regulating alpha granule secretions (Sirakawa et al, 2010). Previous fluorescence microscopy mapping of alpha-granule protein distributions suggested that there are either two different alpha-granule types or subdomains within a single granule population (Storrie and Seghal, 2007; Italiano et al, 2008). More recent work based on electron tomography (Kamykowski et al, manuscript in preparation) indicates that human platelets are comprised of one alpha granule population. We hypothesized that there was a single population of alpha-granules in which all fibrinogen is similarly compartmentalized. Hence, fibrinogen endocytocized by guinea pig megakaryocytes and platelets in vivo at 4 h (short label) and 24 h (long label) would map to the same location. Aims: We carried out several experiments to form a basis for future high-resolution (5 nm) electron tomography to establish packaging of HRP-conjugated fibrinogen or nanogold conjugated fibrinogen into platelet alpha-granules. (a) Using PD-10 columns, we prepared Cy3 conjugated fibrinogen. Using an in vivo guinea pig model to test the ability of guinea pig platelets to take up fluorescently labeled fibrinogen, we injected 10 mg/ml of Cy3 conjugated fibrinogen (short label, 4 h) and 10 mg/ml of commercially purchased AlexaFluor 488 conjugated fibrinogen (long label, 28 h) into guinea pigs. Platelets were then fixed, purified and confocal microscopy performed. (b) Using triple immunofluorescence, serotonin antibody was applied to fixed and purified resting state human and guinea pig platelets and immunofluorescence microscopy was performed to provide whole platelet information on the staining pattern of the dense granules in comparison to the alpha-granules and early endosomes. (c) Preliminary Electron Microscopy fixation conditions were also tested on guinea pig platelets. Results: For the uptake experiment, spinning-disk confocal microscopy was used to collect full platelet volume image stacks which were then deconvolved, pixel shift corrected for red and green channels and analyzed. Overlap of green and red fibrinogen conjugates was observed where the fluorescently tagged fibrinogens were taken up by structures presumed to be alpha-granules. For the triple labeling experiments, the distribution of serotonin, Rab4 and von Willebrand factor was observed in resting state platelets. Using spinning-disk confocal microscopy, full platelet volume image stacks were collected, deconvolved, pixel shift corrected for red, far red and green channels and analyzed. Serotonin antibody gave an abundant punctate staining pattern in both the triple-labeled human and guinea pig platelets. In both the human platelets and the guinea pig platelets, the serotonin positive punctate granules, presumed to be dense granules, had a more similar pattern to the von Willebrand factor positive punctate alpha granules, than to the Rab4 positive punctate granules, presumed to be the early endosomes. The triple label results were unexpected because previous electron microscopy studies have indicated that the dense granules in human platelets are fewer in number than the alpha-granules and fewer than the corresponding dense granules in guinea pig platelets. Results of the electron microscopy preparations are pending. Conclusions: Our results indicate that the guinea pig model, while its platelets are a much smaller size than human platelets, is a good system for loading alpha-granules with labeled proteins for electron tomography. The serotonin distribution results together with previous electron tomography also raise the question as to whether dense granules could be a specialized form of the alpha-granules. A summary of this research will be presented at the Promoting Minorities in Hematology event during the 2010 ASH meeting. Disclosures: No relevant conflicts of interest to declare.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
Contact Info
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
