Microtubule polyglutamylation is important for regulating cytoskeletal architecture and motility in <i>Trypanosoma brucei</i>

Jentzsch, Jana; Sabri, Adal; Speckner, Konstantin; Lallinger-Kube, Gertrud; Weiß, Matthias; Ersfeld, Klaus

doi:10.1242/jcs.248047

Cited by 8 publications

(25 citation statements)

References 83 publications

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“…While the PAVE complex does not appear to bind to post-translational modifications on the C-terminal tail of tubulin, other subpellicular components may use them to localize to different regions of the array and then form associations with core crosslink-associated proteins such as TbAIR9. Tubulin post-translational modifications such as polyglutamylation and tyrosination have different distribution patterns along the array and may serve as landmarks for recruiting specific MAPs (16,39,59,60).…”

Section: Discussionmentioning

confidence: 99%

TheTrypanosoma bruceisubpellicular microtubule array is organized into functionally discrete subdomains defined by microtubule associated proteins

Sinclair

Huynh

Sladewski

et al. 2020

Preprint

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Microtubules are inherently dynamic cytoskeletal polymers whose length and activity can be altered to perform essential functions in eukaryotic cells, such as providing tracks for intracellular trafficking and forming the mitotic spindle. Microtubules can be bundled to create more stable structures that collectively propagate force, such as in the flagellar axoneme, which provides motility. The subpellicular microtubule array of the protist parasite Trypanosoma brucei, the causative agent of African sleeping sickness, is a remarkable example of a highly specialized microtubule bundle, comprising a single microtubule layer that is crosslinked to each other and the plasma membrane. The array microtubules appear to be highly stable and remain intact throughout the cell cycle, but very little is known about the pathways that tune microtubule properties in trypanosomatids. Here, we show that the subpellicular microtubule array is organized into subdomains that consist of differentially localized array-associated proteins. We characterize the localization and function of the array-associated protein PAVE1, which is a component of the inter-microtubule crosslinking fibrils present within the posterior subdomain. PAVE1 functions to stabilize these microtubules to produce the tapered cell posterior. PAVE1 and the newly identified PAVE2 form a complex that binds directly to the microtubule lattice. TbAIR9, which localizes to the entirety of the subpellicular array, is necessary for retaining PAVE1 within the posterior subdomain, and also maintains array-associated proteins in the middle and anterior subdomains of the array. The arrangement of proteins within the array is likely to tune the local properties of the array microtubules and create the asymmetric shape of the cell, which is essential for parasite viability.Author summaryMany parasitic protists use arrays of microtubules that contact the inner leaflet of the plasma membrane, typically known as subpellicular microtubules, to shape their cells into forms that allow them to efficiently infect their hosts. While subpellicular arrays are found in a wide range of parasites, very little is known about how they are assembled and maintained. Trypanosoma brucei, which is the causative agent of human African trypanosomiasis, has an elaborate subpellicular array that produces the helical shape of the parasite, which is essential for its ability to move within crowded and viscous solutions. We have identified a series of proteins that have a range of localization patterns within the array, which suggests that the array is regulated by subdomains of array-associated proteins that may tune the local properties of the microtubules to suit the stresses found at different parts of the cell body. Among these proteins are the first known components of the inter-microtubule crosslinks that are thought to stabilize array microtubules, as well as a potential regulator of the array subdomains. These results establish a foundation to understand how subpellicular arrays are built, shaped, and maintained, which has not previously been appreciated.

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Section: Discussionmentioning

confidence: 99%

TheTrypanosoma bruceisubpellicular microtubule array is organized into functionally discrete subdomains defined by microtubule associated proteins

Sinclair

Huynh

Sladewski

et al. 2020

Preprint

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“…The intracellular contents of these protrusions appear to be comparable to the rest of the cell and they are also surrounded by subpellicular MTs. Interestingly, these protrusions are reminiscent of the 'glove phenotype' observed upon depletion of two TTLL enzymes, which are responsible for post-translational modifications appending the C-terminal tails of α-and β-tubulin (Jentzsch et al, 2020). However, we can now only speculate about the nature of these posterior extrusions.…”

Section: Discussionmentioning

confidence: 94%

“…5C and S3C); the latter antibody was used previously to visualize the basal bodies, where it additionally cross-reacts with TbRP2 (Andre et al, 2014). Upon depletion of either TTLL, polyglutamylation was decreased and α-tubulin tyrosination increased in the posterior end, from which the protrusions emerged (Jentzsch et al, 2020). We did not observe either of these changes in post-translational modifications upon TbPH1/TbKifX2 silencing by observing them on individual cells by IFA (Fig.…”

Section: Depletion Of Tbph1 and Tbkifx2 Causes Prominent Morphological Defects To The Posterior End Of T Bruceimentioning

confidence: 91%

“…5C). Upon depletion of either TTLL, polyglutamylation was decreased and α-tubulin tyrosination increased in the posterior end, from which the protrusions emerged [53]. We did not observe either of these changes in posttranslational modifications upon TbPH1/TbKifX2 silencing by observing them on individual cells by IFA (S5D Fig.…”

Section: Depletion Of Tbph1 and Tbkifx2 Causes Prominent Morphological Defects To The Posterior End Of T Bruceimentioning

confidence: 93%

“…). This effect of TbPH1/TbKifX2-depletion resembled that of two tubulin-tyrosine-ligase-like (TTLL) proteins, which post-translationally modify the C-terminal tails of α-and β-tubulin by addition of polyglutamate side chains [53]. Upon depletion of either TTLL, protrusions were observed emanating from the posterior end, which prompted the authors to name this morphological change the 'glove' phenotype.…”

Section: Depletion Of Tbph1 and Tbkifx2 Causes Prominent Morphological Defects To The Posterior End Of T Bruceimentioning

confidence: 96%

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Kinetoplastid-specific X2-family kinesins interact with a kinesin-like pleckstrin homology domain protein that localizes to the trypanosomal microtubule quartet

Benz

Müller

Vancová

et al. 2021

Preprint

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Kinesins are motor proteins found in all eukaryotic lineages that move along microtubule tracks to mediate numerous cellular processes such as mitosis and intracellular transport of cargo. In trypanosomatids, the kinesin protein superfamily has undergone a prominent expansion, giving these protists one of the most diverse kinesin repertoires. This has led to the emergence of two trypanosomatid-restricted groups of kinesins. Here, we characterize in Trypanosoma brucei TbKifX2, a hitherto orphaned kinesin that belongs to one of these groups. TbKifX2 tightly interacts with TbPH1, a kinesin-like protein named after a pleckstrin homology (PH) domain present within its carboxy terminal tail. TbKifX2 recruits TbPH1 to the microtubule quartet (MtQ), a characteristic cytoskeletal structure that is part of the multipartite flagellum attachment zone (FAZ) and extends from the basal body to the anterior of the cell body. The proximal proteome of TbPH1 is comprised of four proteins that localize to the FAZ, consistent with the notion that the TbKifX2/TbPH1 complex binds the MtQ along its whole length. Simultaneous ablation of both TbKifX2 and TbPH1 leads to the formation of prominent protrusions from the cell posterior. Thus, we have attributed a morphogenesis role to these two trypanosomatid-restricted proteins, and their remarkably specific localization to the MtQ in a microtubule-rich cell. We hypothesize that the putative TbKifX2/TbPH1 complex transports a cytokinesis auxiliary factor(s) along the MtQ to or from the T. brucei posterior. The cohort of proteins found in proximity to TbPH1 may represent one of these factors directly or be involved in their trafficking during cell division in trypanosomatids.

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Anomalous diffusion analysis reveals cooperative locomotion of adult parasitic nematodes in sex-mixed groups

Leben,

Rausch,

Elomaa

et al. 2024

Preprint

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Parasitic worms are widespread throughout the world and causing agents of chronic infections in humans and animals. The majority of these pathogens parasitize the gut of the infected hosts, however very little is known about the locomotion of the worms dwelling the gut. We studied the movement of Heligmosomoides bakeri (previously Heligmosomoides polygyrus), a natural infection of rodents and usually used as animal model to study the roundworm infections. We investigated the locomotion of H. bakeri in simplified environments mimicking key physical features of the intestinal lumen, i.e. various medium viscosities, and a periodical intestinal villi topography. The non-periodical nematode motion in these settings could be described by anomalous diffusion theory. Fascinatingly, an oriented, super-diffusive locomotion of nematodes in sex-mixed groups were detected, in the sense of a cooperative migration stimulated by mating and reproduction, while individual nematodes moved randomly, following a diffusive motion regime. High mucus-like medium viscosity and villi topography, representing physical constraints of nematode locomotion, slowed down but did not prevent this cooperative migration. Additionally, the mean displacement rate of nematodes in sex-mixed groups of 6*10-4 mm/s in viscous mucus-like medium are in good agreement with estimates of nematode migration velocities between 10-4 to 10-3 mm/s in the gut. Thus, our data indicate the intestinal nematodes motion to be non-periodic and random but triggered to be oriented by kin of the different sex.

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Microtubule polyglutamylation is important for regulating cytoskeletal architecture and motility in Trypanosoma brucei

Cited by 8 publications

References 83 publications

TheTrypanosoma bruceisubpellicular microtubule array is organized into functionally discrete subdomains defined by microtubule associated proteins

TheTrypanosoma bruceisubpellicular microtubule array is organized into functionally discrete subdomains defined by microtubule associated proteins

Kinetoplastid-specific X2-family kinesins interact with a kinesin-like pleckstrin homology domain protein that localizes to the trypanosomal microtubule quartet

Anomalous diffusion analysis reveals cooperative locomotion of adult parasitic nematodes in sex-mixed groups

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