Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The analysis of cDNA clones encoding novel variant forms of mouse kinectin, an endoplasmic reticulum (ER)-bound receptor for the motor protein kinesin, is reported. Kinesin and cytoplasmic dynein are involved in mediating the anterograde and retrograde movements of intracellular vesicles along the microtubule network. The amino acid sequence deduced from kinectin cDNA isolated from mouse spleen cell and testis libraries revealed a long signal peptide or transmembrane sequence, and a 328 amino acid residue globular N-terminal domain adjacent to a much larger 858-999-residue C-terminal coiled-coil rod domain. The C-terminal domain was composed of 18 coiled-coil regions formed from multiple contiguous heptad repeats which undergo alternative splicing as evidenced by the presence of at least five small (23-33 amino acid residue) insertion sequences scattered throughout. The inserts are present in any one of a number of combinations, generating an array of novel kinectin variants. Insert 5 contains a termination codon, producing a C-terminus that is highly homologous to that of human kinectin. Three out of five mouse kinectin clones lack insert 5, generating a novel eleven amino acid C-terminus encoded by sequence that extends past the insertion site. The existence of alternative C-termini may have functional relevance given that the C-termini are exposed for interaction with kinesin, whereas the globular N-terminus is embedded in the ER membrane. Alternative C-termini represent candidate modifications that could determine specificity of binding to kinesin or cytoplasmic dynein, and the switching of directionality of movement. The cDNA hybridized to 4.5 kb transcripts expressed in all mouse cell lines and tissues examined, which provides the first indication that the kinectins are very widely distributed. Mouse kinectin is 42% similar over a 203 amino acid region to the chicken extracellular cardiac morphogen ES/130, whose canine homologue containing an inserted sequence of 10 amino acids repeated 54 times in tandem, is a ribosome receptor expressed on the ER. Mouse kinectin shares 64 and 83% identity, respectively, with its M(r) 160000 chicken and human kinectin homologues. There is a two-fold molar excess of kinectin over kinesin in unextracted vesicles, suggesting that kinectin might be a dimer. The electrostatic properties of the coiled-coil region of mouse kinectin, together with the relative frequencies of residues in particular positions within the heptad repeats support this notion.
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PMID:Cloning of novel kinectin splice variants with alternative C-termini: structure, distribution and evolution of mouse kinectin. 891 5

Microtubules facilitate the maturation of phagosomes by favoring their interactions with endocytic compartments. Here, we show that phagosomes move within cells along tracks of several microns centrifugally and centripetally in a pH- and microtubule-dependent manner. Phagosome movement was reconstituted in vitro and required energy, cytosol and membrane proteins of this organelle. The activity or presence of these phagosome proteins was regulated as the organelle matured, with "late" phagosomes moving threefold more frequently than "early" ones. The majority of moving phagosomes were minus-end directed; the remainder moved towards microtubule plus-ends and a small subset moved bi-directionally. Minus-end movement showed pharmacological characteristics expected for dyneins, was inhibited by immunodepletion of cytoplasmic dynein and could be restored by addition of cytoplasmic dynein. Plus-end movement displayed pharmacological properties of kinesin, was inhibited partially by immunodepletion of kinesin and fully by addition of an anti-kinesin IgG. Immunodepletion of dynactin, a dynein-activating complex, inhibited only minus-end directed motility. Evidence is provided for a dynactin-associated kinase required for dynein-mediated vesicle transport. Movement in both directions was inhibited by peptide fragments from kinectin (a putative kinesin membrane receptor), derived from the region to which a motility-blocking antibody binds. Polypeptide subunits from these microtubule-based motility factors were detected on phagosomes by immunoblotting or immunoelectron microscopy. This is the first study using a single in vitro system that describes the roles played by kinesin, kinectin, cytoplasmic dynein, and dynactin in the microtubule-mediated movement of a purified membrane organelle.
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PMID:Molecular requirements for bi-directional movement of phagosomes along microtubules. 910 41

Cellular polarization depends upon the asymmetric transport of components within the cell, often along microtubule paths. Kinesin and cytoplasmic dynein are the most abundant microtubule motors powering the transport of membranous vesicles. Many additional proteins are needed to control motility and co-ordinate movements with other cellular activities. In this review we will summarize our understanding of the motors, motor associated proteins and their function within cells. We suggest a cyclic model for much of membrane trafficking in which the membrane anchor for the motors, kinectin, plays a central role. In such a model up-regulation of transport results in a faster cycling of kinectin between kinesin and cytoplasmic dynein-dependent transport.
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PMID:Microtubule motor complexes moving membranous organelles. 911 42

Kinectin has been characterized as the first known receptor for the molecular motor kinesin, which is critically involved in microtubule-based vesicle transport and membrane trafficking. Here we identify kinectin as a target for caspase-mediated proteolysis during apoptosis. Treatment of cells with diverse apoptotic stimuli including TNF, anti-Fas, anticancer drugs, gamma-radiation or ceramide leads to rapid proteolytic cleavage of the 160-kDa form of kinectin to a 120-kDa fragment. Evidence is provided that kinectin cleavage is mediated by caspase 7.
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PMID:Caspase 7-induced cleavage of kinectin in apoptotic cells. 977 92

Kinectin, an integral membrane protein (160 kDa), was identified as a kinesin-binding protein. Analysis of the predicted amino acid sequence of kinectin cDNA indicated an alpha-helical coiled-coil structure from amino acid 320 to 1310. A 120-kDa kinectin has been observed consistently, and N-terminal sequencing showed that 232 amino acids were missing from the N terminus of full-length kinectin. 120-kDa kinectin was distributed in the supernatant and a low density fraction of vesicles, whereas both forms were in the high density fraction of vesicles. In the electron microscope, the 120-kDa form appeared as a linear molecule of 133 nm in length. In hydrodynamic studies, the cytosolic 120-kDa kinectin was a dimer. Monoclonal antibody molecules (anti-kinectin KR160.9) bound asymmetrically to kinectin often with two antibodies/kinectin, indicative of a parallel coiled-coil. Metabolic labeling with [3H]myristic acid showed that both the 120- and 160-kDa kinectin are myristoylated in chick embryo fibroblasts. The myristoylation of 120-kDa kinectin may provide a mechanism for linking it to a low density fraction of vesicles. Immunoprecipitation with a 160-kDa kinectin-specific antibody brought down the 120-kDa kinectin. Thus, we suggest that kinectin is an extended parallel coiled-coil dimer, often a heterodimer.
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PMID:Ultrastructural and biochemical properties of the 120-kDa form of chick kinectin. 982 36

The movements of intracellular cargo along microtubules within cells are often saltatory or of short duration. Further, calculations of the fraction of membrane vesicles that are moving at any period, indicate that active motor complexes are rare. From observations of normal vesicle traffic in cells, there appears to be position-dependent activation of motors and a balance of traffic in the inward and outward directions. In-vitro binding of motors to cargo is observed under many conditions but motility is not. Multi-component complexes appear to be involved in producing active organelle movements by a graded activation system that is highly localized in the cell. The basis of the activation of motility of the organelle motor complexes is still unknown but phosphorylation has been implicated in many systems. In the case of the motor-binding protein, kinectin, it has been linked to active organelle movements powered by conventional kinesin. From the coiled-coil structure of kinectin and the coiled-coil tail of kinesin, it is postulated that a coiled-coil assembly is responsible for the binding interaction. Many other cargoes are transported but the control of transport will be customized for each function, such as axonemal rafts or cytoskeletal complexes. Each function will have to be analyzed separately and motor activity will need to be integrated into the specific aspects of the function.
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PMID:Motor and cargo interactions. 1023 59

The critical role of microtubules in vectorial delivery of post-Golgi carrier vesicles to the apical cell surface has been established for various polarized epithelial cell types. In the present study we used secretory granules of the rat and chicken pancreas, termed zymogen granules, as model system for apically bound post-Golgi carrier vesicles that underlie the regulated exocytotic pathway. We found that targeting of zymogen granules to the apical cell surface requires an intact microtubule system which contains its colchicine-resistant organizing center and, thus, the microtubular minus ends close to the apical membrane domain. Purified zymogen granules and their membranes were found to be associated with cytoplasmic dynein intermediate and heavy chain and to contain the major components of the dynein activator complex, dynactin, i.e. p150Glued, p62, p50, Arp1, and beta-actin. Kinesin heavy chain and the kinesin receptor, 160 kD kinectin, were not detected as components of zymogen granules. Immunofluorescence staining showed a zymogen granule-like distribution for dynein and dynactin (p150Glued, p62, p50, Arpl) in the apical cytoplasm, whereas kinesin and kinectin were largely concentrated in the basal half of the cells in a pattern similar to the distribution of calreticulin, a component of the endoplasmic reticulum. Secretory granules of non-polarized chromaffin cells of the bovine adrenal medulla, that are assumed to underlie microtubular plus end targeting from the Golgi apparatus to the cell periphery, were not found to be associated with dynein or dynactin. To our knowledge, this is the first demonstration of major components of the dynein-dynactin complex associated with the membrane of a biochemically and functionally well-defined organelle which is considered to underlie a vectorial minus end-driven microtubular transport critically involved in precise delivery of digestive enzymes to the apically located acinar lumen.
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PMID:Cytoplasmic dynein and dynactin as likely candidates for microtubule-dependent apical targeting of pancreatic zymogen granules. 1035 Feb 15

Microtubuli play an important role in the organization of organelles and membrane traffic. They are present in melanocytic dendrites through which melanosomes are transported towards keratinocytes. Besides the actin-based motility systems, microtubuli-associated motor proteins also play a critical role in melanosome movement, as has recently been confirmed in mouse melanocytes. We investigated the in vitro expression of two forms of human conventional kinesin and its receptor kinectin in normal human epidermal melanocytes, keratinocytes, and dermal fibroblasts by reverse transcription polymerase chain reaction and northern blot analysis. In an attempt to gain insight into the subcellular distribution of kinesin and kinectin in melanocytes, double immunofluorescent staining and immunogold electron microscopy were performed. In all studied skin cells ubiquitous and neuronal kinesin are expressed, as well as the kinectin receptor. Immunofluorescent staining shows distinct but partially overlapping distributions for kinesin heavy chain and melanosomes, suggesting that kinesin is associated with some but not all of the melanosomes. Similar observations for kinectin indicate that this receptor can colocalize with melanosomes, which was confirmed by immunoelectron microscopy. The latter technique allowed us to demonstrate a close association between kinesin heavy chain, microtubuli, and melanosomes. The combined data from reverse transcription polymerase chain reaction, northern blot analysis, double immunofluorescent staining, and immunogold electron microscopy suggest that kinesins and kinectin have an important role in microtubuli-based melanosome transport in human melanocytes.
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PMID:Kinesin and kinectin can associate with the melanosomal surface and form a link with microtubules in normal human melanocytes. 1069 99

Intracellular organelle motility involves motor proteins that move along microtubules or actin filaments. One of these motor proteins, kinesin, was proposed to bind to kinectin on membrane organelles during movement. Whether kinectin is the kinesin receptor on organelles with a role in organelle motility has been controversial. We have characterized the sites of interaction between human kinectin and conventional kinesin using in vivo and in vitro assays. The kinectin-binding domain on the kinesin tail partially overlaps its head-binding domain and the myosin-Va binding domain. The kinesin-binding domain on kinectin resides near the COOH terminus and enhances the microtubule-stimulated kinesin-ATPase activity, and the overexpression of the kinectin-kinesin binding domains inhibited kinesin-dependent organelle motility in vivo. These data, when combined with other studies, suggest a role for kinectin in organelle motility.
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PMID:Kinectin-kinesin binding domains and their effects on organelle motility. 1091 41

Melanocytic dendrites consist of a central core of microtubules (MT) and a subcortical actin network. In previous reports we showed the presence of MT-associated motor proteins kinesin and cytoplasmic dynein on the melanosomal surface, forming a link with MT (Vancoillie et al. J Invest Dermatol 2000;114:421-429; Vancoillie et al. Br J Dermatol 2000;143:258-306). We could also demonstrate the association of kinectin, the kinesin receptor, with melanosomes. The interaction of cytoplasmic dynein with its cargoes is thought to be indirectly mediated by dynactin, a complex that binds to the dynein intermediate chain. Therefore, in this study, we investigated the in vitro expression of dynactin subunits P150Glued and P50 in normal human epidermal melanocytes, keratinocytes, and dermal fibroblasts by reverse transcription-polymerase chain reaction and northern blot analysis. In an attempt to gain an insight into the subcellular localization of dynactin, immunofluorescence and immunoelectron microscopy (IEM) studies were performed. The two isoforms of P150Glued and P50 are expressed in all studied skin cells. Immunofluorescence staining shows punctate distributions for P150Glued and P50 in melanocytes. P150Glued shows a clear centrosomal staining and accentuation in the dendrite tips. P50 is also accentuated in the perinuclear area and dendrite tips. Immunofluorescence double-labeling with a melanosome marker showed apparent colocalization of both P150Glued and P50 with melanosomes. By IEM, P50 is detected on the surface of the majority of melanosomes in melanocytes. The colocalization of different subunits of the dynactin complex with melanosomes is consistent with the earlier finding of cytoplasmic dynein association with melanosomes and supports the hypothesis that this complex could form a link between cytoplasmic dynein and the melanosomal membrane.
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PMID:Colocalization of dynactin subunits P150Glued and P50 with melanosomes in normal human melanocytes. 1115 97


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