Michael K. Shaw scite author profile

The 912 microtubule axoneme of flagella and cilia represents one of the most iconic structures built by eukaryotic cells and organisms. Both unity and diversity are present among cilia and flagella on the evolutionary as well as the developmental scale. Some cilia are motile, whereas others function as sensory organelles and can variously possess 912 and 910 axonemes and other associated structures 1 . How such unity and diversity are reflected in molecular repertoires is unclear. The flagellated protozoan parasite Trypanosoma brucei is endemic in sub-Saharan Africa, causing devastating disease in humans and other animals 2 . There is little hope of a vaccine for African sleeping sickness and a desperate need for modern drug therapies 3 . Here we present a detailed proteomic analysis of the trypanosome flagellum. RNA interference (RNAi)-based interrogation of this proteome provides functional insights into human ciliary diseases and establishes that flagellar function is essential to the bloodstream-form trypanosome. We show that RNAi-mediated ablation of various proteins identified in the trypanosome flagellar proteome leads to a rapid and marked failure of cytokinesis in bloodstream-form (but not procyclic insect-form) trypanosomes, suggesting that impairment of flagellar function may provide a method of disease control. A postgenomic meta-analysis, comparing the evolutionarily ancient trypanosome with other eukaryotes including humans, identifies numerous trypanosome-specific flagellar proteins, suggesting new avenues for selective intervention.Flagellum-mediated migration between the gut and salivary glands of its tsetse fly vector is essential for progression of the trypanosome life cycle. However, the necessity for motility in an extracellular bloodstream-form trypanosome is unclear. In both forms, a single attached flagellum emerges from a posterior flagellar pocket ( Fig. 1a) and comprises a membrane-bound axoneme and associated paraflagellar rod (PFR; Fig 1b). We isolated the structural axoneme and associated PFR and basal body from procyclic trypanosomes by a well-characterized procedure of detergent and high-salt treatment 4 . Bands and spots were cut from one- (Fig. 1c) and twodimensional gels and digested with trypsin, and the resulting peptides analysed by reverse-phase high-performance liquid chromatography coupled with tandem mass spectrometry. Bands and spots excised from ten representative gels were analysed, resulting in the identification of 522 nonredundant proteins.Further manual mass spectrometric validation confirmed 380 proteins (see Supplementary Methods and Supplementary Fig. 1 for peptide numbers and coverage). Highly basic proteins are known to contaminate microtubule preparations owing to charge interactions 4 , and we noted some highly basic ribosomal proteins as recognizable contaminants. To limit contamination, we filtered the data by using an isolectric point (pI) value of 10.2 as a cut-off (the pI of the most acidic ribosomal protein), and placed 49 proteins (30 of which were r...

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Coalignment of plasma membrane channels and protrusions (fibripositors) specifies the parallelism of tendon

Canty

Meadows

et al. 2004

291

313

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The functional properties of tendon require an extracellular matrix (ECM) rich in elongated collagen fibrils in parallel register. We sought to understand how embryonic fibroblasts elaborate this exquisite arrangement of fibrils. We show that procollagen processing and collagen fibrillogenesis are initiated in Golgi to plasma membrane carriers (GPCs). These carriers and their cargo of 28-nm-diam fibrils are targeted to previously unidentified plasma membrane (PM) protrusions (here designated “fibripositors”) that are parallel to the tendon axis and project into parallel channels between cells. The base of the fibripositor lumen (buried several microns within the cell) is a nucleation site of collagen fibrillogenesis. The tip of the fibripositor is the site of fibril deposition to the ECM. Fibripositors are absent at postnatal stages when fibrils increase in diameter by accretion of extracellular collagen, thereby maintaining parallelism of the tendon. Thus, we show that the parallelism of tendon is determined by the late secretory pathway and interaction of adjacent PMs to form extracellular channels.

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The Plastid of Toxoplasma gondii Is Divided by Association with the Centrosomes

et al. 2000

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Apicomplexan parasites harbor a single nonphotosynthetic plastid, the apicoplast, which is essential for parasite survival. Exploiting Toxoplasma gondii as an accessible system for cell biological analysis and molecular genetic manipulation, we have studied how these parasites ensure that the plastid and its 35-kb circular genome are faithfully segregated during cell division. Parasite organelles were labeled by recombinant expression of fluorescent proteins targeted to the plastid and the nucleus, and time-lapse video microscopy was used to image labeled organelles throughout the cell cycle. Apicoplast division is tightly associated with nuclear and cell division and is characterized by an elongated, dumbbell-shaped intermediate. The plastid genome is divided early in this process, associating with the ends of the elongated organelle. A centrin-specific antibody demonstrates that the ends of dividing apicoplast are closely linked to the centrosomes. Treatment with dinitroaniline herbicides (which disrupt microtubule organization) leads to the formation of multiple spindles and large reticulate plastids studded with centrosomes. The mitotic spindle and the pellicle of the forming daughter cells appear to generate the force required for apicoplast division in Toxoplasma gondii. These observations are discussed in the context of autonomous and FtsZ-dependent division of plastids in plants and algae.

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Three-dimensional cellular architecture of the flagellar pocket and associated cytoskeleton in trypanosomes revealed by electron microscope tomography

et al. 2009

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This study uses electron tomography linked to a variety of other EM methods to provide an integrated view of the flagellar pocket and basal body area of the African trypanosome procyclic trypomastigote. We reveal the pocket as an asymmetric membranous `balloon' with two boundary structures. One of these – the collar – defines the flagellum exit point. The other defines the entry point of the flagellum into the pocket and consists of both an internal transitional fibre array and an external membrane collarette. A novel set of nine radial fibres is described in the basal body proximal zone. The pocket asymmetry is invariably correlated with the position of the probasal body and Golgi. The neck region, just distal to the flagellum exit site, is a specialised area of membrane associated with the start of the flagellum attachment zone and signifies the point where a special set of four microtubules, nucleated close to the basal bodies, joins the subpellicular array. The neck region is also associated with the single Golgi apparatus of the cell. The flagellar exit point interrupts the subpellicular microtubule array with discrete endings of microtubules at the posterior side. Overall, our studies reveal a highly organised, yet dynamic, area of cytoplasm and will be informative in understanding its function.

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Michael K. Shaw

Flagellar motility is required for the viability of the bloodstream trypanosome

Coalignment of plasma membrane channels and protrusions (fibripositors) specifies the parallelism of tendon

The Plastid of Toxoplasma gondii Is Divided by Association with the Centrosomes

Three-dimensional cellular architecture of the flagellar pocket and associated cytoskeleton in trypanosomes revealed by electron microscope tomography

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