Sara Pestana scite author profile

Rab and Arl guanine nucleotide‐binding (G) proteins regulate trafficking pathways essential for the formation, function and composition of primary cilia, which are sensory devices associated with Sonic hedgehog (Shh) signalling and ciliopathies. Here, using mammalian cells and zebrafish, we uncover ciliary functions for Rab35, a multitasking G protein with endocytic recycling, actin remodelling and cytokinesis roles. Rab35 loss via siRNAs, morpholinos or knockout reduces cilium length in mammalian cells and the zebrafish left‐right organiser (Kupffer's vesicle) and causes motile cilia‐associated left‐right asymmetry defects. Consistent with these observations, GFP‐Rab35 localises to cilia, as do GEF (DENND1B) and GAP (TBC1D10A) Rab35 regulators, which also regulate ciliary length and Rab35 ciliary localisation. Mammalian Rab35 also controls the ciliary membrane levels of Shh signalling regulators, promoting ciliary targeting of Smoothened, limiting ciliary accumulation of Arl13b and the inositol polyphosphate 5‐phosphatase (INPP5E). Rab35 additionally regulates ciliary PI(4,5)P2 levels and interacts with Arl13b. Together, our findings demonstrate roles for Rab35 in regulating cilium length, function and membrane composition and implicate Rab35 in pathways controlling the ciliary levels of Shh signal regulators.

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Notch/Her12 signalling modulates, motile/immotile cilia ratio downstream of Foxj1a in zebrafish left-right organizer

Tavares

Jacinto

Sampaio

et al. 2017

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Foxj1a is necessary and sufficient to specify motile cilia. Using transcriptional studies and slow-scan two-photon live imaging capable of identifying the number of motile and immotile cilia, we now established that the final number of motile cilia depends on Notch signalling (NS). We found that despite all left-right organizer (LRO) cells express foxj1a and the ciliary axonemes of these cells have dynein arms, some cilia remain immotile. We identified that this decision is taken early in development in the Kupffer’s Vesicle (KV) precursors the readout being her12 transcription. We demonstrate that overexpression of either her12 or Notch intracellular domain (NICD) increases the number of immotile cilia at the expense of motile cilia, and leads to an accumulation of immotile cilia at the anterior half of the KV. This disrupts the normal fluid flow intensity and pattern, with consequent impact on dand5 expression pattern and left-right (L-R) axis establishment.

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Pkd2 Affects Cilia Length and Impacts LR Flow Dynamics and Dand5

Jacinto

Sampaio

Roxo-Rosa

et al. 2021

Front. Cell Dev. Biol.

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The left-right (LR) field recognizes the importance of the mechanism involving the calcium permeable channel Polycystin-2. However, whether the early LR symmetry breaking mechanism is exclusively via Polycystin-2 has not been tested. For that purpose, we need to be able to isolate the effects of decreasing the levels of Pkd2 protein from any eventual effects on flow dynamics. Here we demonstrate that curly-up (cup) homozygous mutants have abnormal flow dynamics. In addition, we performed one cell stage Pkd2 knockdowns and LR organizer specific Pkd2 knockdowns and observed that both techniques resulted in shorter cilia length and abnormal flow dynamics. We conclude that Pkd2 reduction leads to LR defects that cannot be assigned exclusively to its putative role in mediating mechanosensation because indirectly, by modifying cell shape or decreasing cilia length, Pkd2 deficit affects LR flow dynamics.

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Zebrafish Motile Cilia as a Model for Primary Ciliary Dyskinesia

Pinto

Rasteiro

Bota

et al. 2021

IJMS

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Zebrafish is a vertebrate teleost widely used in many areas of research. As embryos, they develop quickly and provide unique opportunities for research studies owing to their transparency for at least 48 h post fertilization. Zebrafish have many ciliated organs that include primary cilia as well as motile cilia. Using zebrafish as an animal model helps to better understand human diseases such as Primary Ciliary Dyskinesia (PCD), an autosomal recessive disorder that affects cilia motility, currently associated with more than 50 genes. The aim of this study was to validate zebrafish motile cilia, both in mono and multiciliated cells, as organelles for PCD research. For this purpose, we obtained systematic high-resolution data in both the olfactory pit (OP) and the left–right organizer (LRO), a superficial organ and a deep organ embedded in the tail of the embryo, respectively. For the analysis of their axonemal ciliary structure, we used conventional transmission electron microscopy (TEM) and electron tomography (ET). We characterised the wild-type OP cilia and showed, for the first time in zebrafish, the presence of motile cilia (9 + 2) in the periphery of the pit and the presence of immotile cilia (still 9 + 2), with absent outer dynein arms, in the centre of the pit. In addition, we reported that a central pair of microtubules in the LRO motile cilia is common in zebrafish, contrary to mouse embryos, but it is not observed in all LRO cilia from the same embryo. We further showed that the outer dynein arms of the microtubular doublet of both the OP and LRO cilia are structurally similar in dimensions to the human respiratory cilia at the resolution of TEM and ET. We conclude that zebrafish is a good model organism for PCD research but investigators need to be aware of the specific physical differences to correctly interpret their results.

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Fluid extraction from the left-right organizer uncovers mechanical properties needed for symmetry breaking

Sampaio

Pestana

Guerrero

et al. 2022

Preprint

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Humans and other vertebrates define body axis left-right asymmetry in the early stages of embryo development. The mechanism behind left-right establishment is not fully understood. Although it is known that the symmetry break occurs in a dedicated organ called the left-right organizer (LRO) and involves motile cilia generating fluid flow therein, it has been a matter of debate whether the process of symmetry breaking relies on a chemosensory or a mechanosensory mechanism. Novel tailored manipulations for LRO fluid extraction in living zebrafish embryos allowed us to pinpoint a decisive developmental period for breaking left-right symmetry during development. This critical time-window was narrowed to one hour and is characterized by a mild counterclockwise flow. The experimental challenge in our approach consisted of emptying the LRO of any potential fluid, abrogating simultaneously flow force and chemical determinants. Our findings revealed an unprecedented recovery capacity of the embryo to re-inflate and re-circulate the fluid inside the LRO exposing unknown properties of this transient organ. Live extraction and replacement of LRO fluid while changing dilution or viscosity demonstrated that early left-right patterning depends on fluid flow mechanics rather than on the nature of the fluid content. Our results advocate for a mechanosensory mechanism ruling left-right early development.TeaserZebrafish uses mechanosensation during one-hour time-window to initiate left-right development

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Sara Pestana

Rab35 controls cilium length, function and membrane composition

Notch/Her12 signalling modulates, motile/immotile cilia ratio downstream of Foxj1a in zebrafish left-right organizer

Pkd2 Affects Cilia Length and Impacts LR Flow Dynamics and Dand5

Zebrafish Motile Cilia as a Model for Primary Ciliary Dyskinesia

Fluid extraction from the left-right organizer uncovers mechanical properties needed for symmetry breaking

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