EC:3.6.4.4 - FACTA Search

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Query: EC:3.6.4.4 (kinesin)
5,033 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

P0071 (plakophilin-4) is a member of the p120ctn subfamily of armadillo proteins that are essential for cell contact formation. Additionally, p0071 plays a role in cytokinesis, in which it regulates local activation of RhoA together with Ect2. Because spatiotemporal regulation is required for progression through cytokinesis, we analyzed when and how p0071 is targeted to the midbody to induce RhoA activation. We show that Ect2 precedes p0071 accumulation at the midbody and that targeting is mediated by different motor proteins. p0071 interacted with the kinesin-II family member KIF3b, and knockdown of KIF3b interfered with p0071 midbody recruitment whereas Ect2 or RhoA localization was not affected in these cells. Moreover, knockdown of KIF3b induced a similar phenotype as the p0071 knockdown, with reduced actin and phospho-myosin-light-chain accumulation at the midbody and decreased levels of active RhoA during cytokinesis. The lack of RhoA activation in KIF3b-deficient cells was not rescued by overexpression of wild-type p0071 but was substantially ameliorated by a p0071-MKLP1-motor-domain fusion protein that was targeted to the furrow independently of KIF3. These data indicate that p0071 and Ect2 are transported via distinct motors and identify a novel pathway implicating KIF3 in the regulation of actin organization during cytokinesis.
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PMID:Targeting of p0071 to the midbody depends on KIF3. 1933 49

Mammalian left-right determination is a good example of how multiple cell biological processes coordinate in the formation of a basic body plan, but until recently its mechanism was totally elusive. In the past 10 years, molecular genetic studies of kinesin and dynein motor proteins, live-cell imaging techniques, and theoretical studies of fluid mechanics revealed unexpected mechanisms of left-right determination. The leftward movement of fluid at the ventral node, called nodal flow, is the central process in symmetry breaking on the left-right axis. Nodal flow is autonomously generated by the rotation of posteriorly tilted cilia that are built by transport via the KIF3 motor on cells of the ventral node. Recent evidence suggests that nodal flow transports sheathed lipidic particles, called nodal vesicular parcels (NVPs), to the left edge of the node, which results in the activation of the noncanonical Hedgehog signaling pathway, an asymmetric elevation in intracellular Ca(2+), and changes in gene expression. This chapter reviews techniques for the observation of nodal cilia movement and nodal flow in living vertebrate embryos.
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PMID:Observation of nodal cilia movement and measurement of nodal flow. 2040 91

The sensory outer segments (OS) of vertebrate retinal photoreceptors, which detect photons of light, resemble the distal segments of Caenorhabditis elegans sensory cilia, which detect chemical ligands that influence the chemotactic movements of the animal. Based on fluorescence microscopy assays performed in sensory cilia of living, transgenic "wild type" and mutant C. elegans, combined with in vitro motility assays using purified motors, we have proposed that two types of kinesin-2 motor, heterotrimeric kinesin-II and homodimeric OSM-3, cooperate to build amphid and phasmid sensory cilia on chemosensory neurons. Specifically, we propose that these motors function together in a redundant manner to build the axoneme core (aka middle segments (MS)), whereas OSM-3 alone serves to build the distal segments (DS). Furthermore, our data suggest that these motors accomplish this by driving two sequential steps of anterograde transport of cargoes consisting of IFT-particles, retrograde dynein motors, and ciliary tubulin subunits, from the transition zone to the tips of the axonemal microtubules (MTs). Homologs of kinesin-II (KIF3) and OSM-3 (KIF17) are also proposed to contribute to the assembly of vertebrate photoreceptors, although how they do so is currently unclear. Here I review our work on kinesin-2 motors, intraflagellar transport (IFT) and cilium biogenesis in C. elegans sensory cilia, and comment on its possible relevance to current research on vertebrate photoreceptor cilia assembly and function.
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PMID:Kinesin-2 motors transport IFT-particles, dyneins and tubulin subunits to the tips of Caenorhabditis elegans sensory cilia: relevance to vision research? 2277 29

Multiple proteins are targeted to photoreceptor outer segments (OSs) where they function in phototransduction. Intraflagellar transport (IFT), a highly conserved bidirectional transport pathway occurring along the microtubules of the ciliary axoneme has been implicated in OS trafficking. The canonical anterograde motor for IFT is the heterotrimeric kinesin II or KIF3 complex. Previous work from our laboratory has demonstrated a role for an additional kinesin 2 family motor, the homodimeric KIF17. To gain a better understanding of KIF17 function in photoreceptor OS we utilized transgenic zebrafish expressing zfKIF17-GFP to assess the localization and dynamics of zfKIF17. Our data indicate that both endogenous KIF17 and KIF17-GFP are associated with the axoneme of zebrafish cones at both early (5dpf) and late (21 dfp) stages of development. Strikingly, KIF17-GFP accumulates at the OS distal tip in a phenomenon referred to as "tipping". Tipping occurs in the large majority of photoreceptors and also occurs when mammalian KIF17-mCherry is expressed in ciliated epithelial cells in culture. In some cases KIF17-GFP is shed with the OS tip as part of the disc shedding process. We have also found that KIF17-GFP moves within the OS at rates consistent with those observed for IFT and other kinesins.
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PMID:Analysis of KIF17 distal tip trafficking in zebrafish cone photoreceptors. 2309 49

Hairy cell leukemia is a rare cancer of the blood. The occurrence of hairy cell leukemia with another very rare genetic disorder makes us question whether it is just a coincidence. This article reports the first case of hairy cell leukemia in a patient with situs inversus totalis in western literature. There have been studies into the pathogenesis of situs inversus totalis that suggest it is caused by the failure of embryonic cells to properly rotate during embryogenesis. On the molecular level, the nodal cilia, which are responsible for embryonic rotation, are built by transport through the KIF3 complex - a kinesin superfamily of molecular motors. The KIF3 complex is also responsible for N-cadherin movement in cells. Furthermore, it is well known that these cell adhesion molecules play an important role in carcinogenesis and its progression. This report attempts to link the rare conditions and propose a possible genetic relationship between the two.
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PMID:Hairy cell leukemia in a patient with situs inversus totalis: an extremely rare combination. 2364 3

In Caenorhabditis elegans, homodimeric [kinesin family (KIF) 17, osmotic avoidance abnormal-3 (OSM-3)] and heterotrimeric (KIF3) kinesin-2 motors are required to establish sensory cilia by intraflagellar transport (IFT) where KIF3 and KIF17 cooperate to build the axoneme core and KIF17 builds the distal segments. However, the function of KIF17 in vertebrates is unresolved. We expressed full-length and motorless KIF17 constructs in mouse rod photoreceptors using adeno-associated virus in Xenopus laevis rod photoreceptors using a transgene and in ciliated IMCD3 cells. We found that tagged KIF17 localized along the rod outer segment axoneme when expressed in mouse and X. laevis photoreceptors, whereas KIF3A was restricted to the proximal axoneme. Motorless KIF3A and KIF17 mutants caused photoreceptor degeneration, likely through dominant negative effects on IFT. KIF17 mutant lacking the motor domain translocated to nuclei after exposure of a C-terminal nuclear localization signal. Germ-line deletion of Kif17 in mouse did not affect photoreceptor function. A rod-specific Kif3/Kif17 double knockout mouse demonstrated that KIF17 and KIF3 do not act synergistically and did not prevent rhodopsin trafficking to rod outer segments. In summary, the nematode model of KIF3/KIF17 cooperation apparently does not apply to mouse photoreceptors in which the photosensory cilium is built exclusively by KIF3.
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PMID:Kinesin family 17 (osmotic avoidance abnormal-3) is dispensable for photoreceptor morphology and function. 2622 57

We here report a novel function of the armadillo protein p0071 (also known as PKP4) during transport mediated by the KIF3 transport complex. Secretion of chromogranin A and matrix metallopeptidase 9 from pancreatic neuroendocrine tumor cells or pancreatic cancer cells, respectively, was substantially reduced following knockdown of p0071. Vesicle tracking indicated that there was impaired directional persistence of vesicle movement upon p0071 depletion. This suggests a disturbed balance between plus- and minus-end directed microtubule transport in cells lacking p0071. p0071 directly interacts with the KIF3 motor subunit KIF3B. Our data indicate that p0071 also interacts with the kinesin cargo adaptor protein KAP3 (also known as KIFAP3) acting as a stabilizing linker between KIF3B and its KAP3 cargo-binding entity. Thus, p0071 is required for directional vesicle movement and secretion of different KIF3-transported carriers, thereby regulating the transport of intracellular membrane vesicles along microtubules.
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PMID:The armadillo protein p0071 controls KIF3 motor transport. 2880 88

Kinesins constitute a protein superfamily that belongs to the motor protein group. Kinesins move along microtubules to exert their various functions, which include intracellular transportation, mitosis, and cell formation. Kinesins are responsible for the transport of various membrane organelles, protein complexes, mRNA and other material, as well as the regulation of intracellular molecular signal pathways. Cumulative studies have also indicated that kinesins are related to the development of a variety of human diseases. At present, there are 14 subfamilies of the kinesin superfamily (KIFs), comprising 45 members. KIF3 is the most common expression in KIFs. KIF3 is a complex composed of a KIF3A/3B heterodimer and a kinesin-related protein, known as KAP3. These complexes are organelles and protein complexes involved in membrane binding in various tissues and transport within cells (nerve cells, melanocytes, epithelial cells, etc.). As a member of the KIF3 subfamily, KIF3B is an essential protein that can regulate cell migration, and proliferation and has critical biological functions. During mitosis, KIF3B is responsible for vesicle transport and membrane expansion, thus regulating cell migration. In recent years, more and more attention has been paid to the relationship between KIF3B and the occurrence and development of diseases. This article reviews the recent advances in the study of KIF3B and its related diseases.
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PMID:Research progress on KIF3B and related diseases. 3170 Sep 28

Low-density lipoprotein receptor (LDLR) in hepatocytes plays a key role in plasma clearance of circulating LDL and in whole body cholesterol homeostasis. The trafficking of LDLR is highly regulated in clathrin-dependent endocytosis, endosomal recycling and lysosomal degradation. Current studies focus on its endocytosis and degradation. However, the detailed molecular and cellular mechanisms underlying its endosomal recycling are largely unknown. We found that BLOS1, a shared subunit of BLOC-1 and BORC, is involved in LDLR endosomal recycling. Loss of BLOS1 leads to less membrane LDLR and impairs LDL clearance from plasma in hepatocyte-specific BLOS1 knockout mice. BLOS1 interacts with kinesin-3 motor KIF13A, and BLOS1 acts as a new adaptor for kinesin-2 motor KIF3 to coordinate kinesin-3 and kinesin-2 during the long-range transport of recycling endosomes (REs) to plasma membrane along microtubule tracks to overcome hurdles at microtubule intersections. This provides new insights into RE's anterograde transport and the pathogenesis of dyslipidemia.
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PMID:BLOS1 mediates kinesin switch during endosomal recycling of LDL receptor. 3317 93

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