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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)
Nucleokinesis has recently been suggested as a critical regulator of neuronal migration. Here we show that Disabled 1 (Dab1), which is required for neuronal positioning in mammals, regulates the nuclear position of postmitotic neurons in a phosphorylation-site dependent manner. Dab1 expression in the Drosophila visual system partially rescues nuclear position defects caused by a mutation in the Dynactin subunit Glued. Furthermore, we observed that a loss-of-function allele of
amyloid precursor protein
(
APP
)-like, a
kinesin
cargo receptor, enhanced the severity of a Dab1 overexpression phenotype characterized by misplaced nuclei in the adult retina. In mammalian neurons, overexpression of
APP
reduced the ability of Reelin to induce Dab1 tyrosine phosphorylation, suggesting an antagonistic relationship between
APP
family members and Dab1 function. This is the first evidence that signaling which regulates Dab1 tyrosine phosphorylation determines nuclear positioning through Dab1-mediated influences on microtubule motor proteins in a subset of neurons.
...
PMID:Mouse disabled 1 regulates the nuclear position of neurons in a Drosophila eye model. 1644 60
Emerging evidence suggests that not only beta-amyloid but also other
amyloid precursor protein
(
APP
) fragments, such as the beta-C-terminal fragment (betaCTF), might be involved in Alzheimer's disease (AD). Treatment of neurons with okadaic acid (OA), a protein phosphatase-2A inhibitor, has been used to induce tau phosphorylation and neuronal death to create a research model of AD. In this study, we analyzed axonopathy and
APP
regulation in cultured rat neurons treated with OA. After OA treatment, the neurons presented with axonal swellings filled with vesicles, microtubule fragments, and transport molecules such as
kinesin
and synapsin-I. Western blotting showed that intracellular
APP
levels were increased and immunocytochemistry using antibodies against the
APP
C-terminus showed that
APP
accumulated in the axonal swellings. This
APP
C-terminus immunoreactivity disappeared when neurons were cotreated with a beta-secretase inhibitor, but not with alpha- or gamma-secretase inhibitors, indicating that the accumulation was primarily composed of
APP
-betaCTF. These findings provide the first evidence that
APP
-betaCTF can accumulate in the axons of OA-treated neurons, and may suggest that
APP
-betaCTF is involved in the pathogenesis of AD.
...
PMID:BACE inhibitor reduces APP-beta-C-terminal fragment accumulation in axonal swellings of okadaic acid-induced neurodegeneration. 1648 Aug 87
Changes in the intracellular transport of
amyloid precursor protein
(
APP
) affect the extent to which
APP
is exposed to alpha- or beta-secretase in a common subcellular compartment and therefore directly influence the degree to which
APP
undergoes the amyloidogenic pathway leading to generation of beta-amyloid. As the presynaptic regions of neurons are thought to be the main source of beta-amyloid in the brain, attention has been focused on axonal
APP
trafficking.
APP
is transported along axons by a fast,
kinesin
-dependent anterograde transport mechanism. Despite the wealth of in vivo and in vitro data that have accumulated regarding the connection of
APP
to
kinesin
transport, it is not yet clear if
APP
is coupled to its specific motor protein via an intracellular interaction partner, such as the c-Jun N-terminal kinase-interacting protein, or by yet another unknown molecular mechanism. The cargo proteins that form a functional complex with
APP
are also unknown. Due to the long lifespan, and vast extent, of neurons, in particular axons, neurons are highly sensitive to changes in subcellular transport. Recent in vitro and in vivo studies have shown that variations in
APP
or tau affect mitochondrial and synaptic vesicle transport. Further, it was shown that this axonal dysfunction might lead to impaired synaptic plasticity, which is crucial for neuronal viability and function. Thus, changes in
APP
and tau expression may cause perturbed axonal transport and changes in
APP
processing, contributing to cognitive decline and neurodegeneration in Alzheimer's disease.
...
PMID:Subcellular trafficking of the amyloid precursor protein gene family and its pathogenic role in Alzheimer's disease. 1704 60
Alcadeinalpha (Alcalpha) is an evolutionarily conserved type I membrane protein expressed in neurons. We show here that Alcalpha strongly associates with kinesin light chain (K(D) approximately 4-8x10(-9) M) through a novel tryptophan- and aspartic acid-containing sequence. Alcalpha can induce
kinesin
-1 association with vesicles and functions as a novel cargo in axonal anterograde transport. JNK-interacting protein 1 (JIP1), an adaptor protein for
kinesin
-1, perturbs the transport of Alcalpha, and the
kinesin
-1 motor complex dissociates from Alcalpha-containing vesicles in a JIP1 concentration-dependent manner. Alcalpha-containing vesicles were transported with a velocity different from that of
amyloid beta-protein
precursor (APP)-containing vesicles, which are transported by the same
kinesin
-1 motor. Alcalpha- and APP-containing vesicles comprised mostly separate populations in axons in vivo. Interactions of Alcalpha with
kinesin
-1 blocked transport of APP-containing vesicles and increased beta-amyloid generation. Inappropriate interactions of Alc- and APP-containing vesicles with
kinesin
-1 may promote aberrant APP metabolism in Alzheimer's disease.
...
PMID:The novel cargo Alcadein induces vesicle association of kinesin-1 motor components and activates axonal transport. 1733 54
Kinesin is a microtubule-associated motor protein that transports Alzheimer-associated
amyloid precursor protein
(
APP
) in neurons. In animal models, impaired
kinesin
-mediated
APP
transport seems to enhance formation of the neurotoxic 42 amino acid fragment of beta-amyloid (A beta 42). In man, one study suggests that a polymorphism (rs8702, 56,836G>C) in the kinesin light chain 1 gene (KNS2) may affect the risk of Alzheimer's disease (AD). To further assess KNS2 as a susceptibility gene for AD we analyzed 802 patients with sporadic AD and 286 controls, 134 longitudinally followed patients with mild cognitive impairment (MCI) and 39 cognitively stable controls for the rs8702 polymorphism. The rs8702 polymorphism did not influence risk of AD (p=0.46). However, rs8702 interacted with APOE epsilon 4 carrier status in AD (p=0.006) and influenced cerebrospinal fluid levels of hyperphosphorylated tau in MCI patients who converted to AD during follow-up (p=0.018). These findings support earlier indications that genetic variability in the KNS2 gene may play a role during early stages of AD pathogenesis.
...
PMID:Kinesin gene variability may affect tau phosphorylation in early Alzheimer's disease. 1761 42
Impaired axonal transport may promote pathogenesis in neurodegenerative disorders, such as Alzheimer's disease (AD). We previously showed that tau,
amyloid precursor protein
(
APP
), and intracellular
amyloid beta-protein
(Abeta) accumulate in the nerve-ending fraction of aged monkey brains, perhaps because of impaired axonal transport. In the present study, we assessed age-related changes of axonal transport motor proteins in aged monkey brains. Western blotting showed that
kinesin
, dynein, and dynactin (DYN) localizations dramatically changed with aging, and dynein level in nerve-ending fractions increased significantly. Coimmunoprecipitation analyses showed that DYN-dynein intermediate chain (DIC) interactions decreased, suggesting that age-related attenuation of this interaction may cause the impairment of dynein function. Moreover, RNAi-induced down-regulation of DIC in human neuroblastoma cells caused endogenous tau and
APP
to accumulate, and their subcellular localizations were also affected. Our findings suggest that aging attenuates DYN-DIC interaction, representing one of the risk factors for age-related impaired dynein function and even for accumulation of disease proteins.
...
PMID:Aging attenuates dynactin-dynein interaction: down-regulation of dynein causes accumulation of endogenous tau and amyloid precursor protein in human neuroblastoma cells. 1762 3
Long-distance organelle transport toward axon terminals, critical for neuron development and function, is driven along microtubules by kinesins [1, 2]. The biophysics of force production by various kinesins is known in detail. However, the mechanisms of in vivo transport processes are poorly understood because little is known about how motor-cargo linkages are controlled. A c-Jun N-terminal kinase (JNK)-interacting protein (JIP1) has been identified previously as a linker between
kinesin
-1 and certain vesicle membrane proteins, such as Alzheimer's
APP protein
and a reelin receptor ApoER2 [3, 4]. JIPs are also known to be scaffolding proteins for JNK pathway kinases [5, 6]. Here, we report evidence that a Drosophila ubiquitin-specific hydrolase and a JNK signaling pathway that it modulates can regulate a JIP1-
kinesin
linkage. The JNK pathway includes a MAPKKK (Wallenda/DLK), a MAPKK (Hemipterous/MKK7), and the Drosophila JNK homolog Basket. Genetic tests indicate that those kinases are required for normal axonal transport. Biochemical tests show that activation of Wallenda (DLK) and Hemipterous (MKK7) disrupts binding between
kinesin
-1 and APLIP1, which is the Drosophila JIP1 homolog. This suggests a control mechanism in which an activated JNK pathway influences axonal transport by functioning as a
kinesin
-cargo dissociation factor.
...
PMID:Control of a kinesin-cargo linkage mechanism by JNK pathway kinases. 1787 49
Islet-brain 1 [IB1; also termed c-Jun N-terminal kinase (JNK)-interacting protein 1 (JIP-1] is involved in the apoptotic signaling cascade of JNK and functions as a scaffold protein. It organizes several MAP kinases and the microtubule-transport motor protein
kinesin
and relates to other signal-transducing molecules such as the
amyloid precursor protein
. Here we have identified IB1/JIP-1 using different antibodies that reacted with either a monomeric or a dimeric form of IB1/JIP-1. By immunoelectron microscopy, differences in the subcellular localization were observed. The monomeric form was found in the cytoplasmic compartment and is associated with the cytoskeleton and with membranes, whereas the dimeric form was found in addition in nuclei. After treatment of mouse brain homogenates with alkaline phosphatase, the dimeric form disappeared and the monomeric form decreased its molecular weight, suggesting that an IB1/JIP-1 dimerization is phosphorylation dependent and that IB1 exists in several phospho- forms. N-methyl-D-aspartate receptor activation induced a dephosphorylation of IB1/JIP-1 in primary cultures of cortical neurons and reduced homodimerization. In conclusion, these data suggest that IB1/JIP-1 monomers and dimers may differ in compartmental localization and thus function as a scaffold protein of the JNK signaling cascade in the cytoplasm or as a transcription factor in nuclei.
...
PMID:Phosphorylation-dependent dimerization and subcellular localization of islet-brain 1/c-Jun N-terminal kinase-interacting protein 1. 1766 63
Alcadeins (Alcs) constitute a family of neuronal type I membrane proteins, designated Alc(alpha), Alc(beta), and Alc(gamma). The Alcs express in neurons dominantly and largely colocalize with the Alzheimer
amyloid precursor protein
(
APP
) in the brain. Alcs and
APP
show an identical function as a cargo receptor of
kinesin
-1. Moreover, proteolytic processing of Alc proteins appears highly similar to that of
APP
. We found that
APP
alpha-secretases ADAM 10 and ADAM 17 primarily cleave Alc proteins and trigger the subsequent secondary intramembranous cleavage of Alc C-terminal fragments by a presenilin-dependent gamma-secretase complex, thereby generating "APP p3-like" and non-aggregative Alc peptides (p3-Alcs). We determined the complete amino acid sequence of p3-Alc(alpha), p3-Alc(beta), and p3-Alc(gamma), whose major species comprise 35, 37, and 31 amino acids, respectively, in human cerebrospinal fluid. We demonstrate here that variant p3-Alc C termini are modulated by FAD-linked presenilin 1 mutations increasing minor beta-amyloid species Abeta42, and these mutations alter the level of minor p3-Alc species. However, the magnitudes of C-terminal alteration of p3-Alc(alpha), p3-Alc(beta), and p3-Alc(gamma) were not equivalent, suggesting that one type of gamma-secretase dysfunction does not appear in the phenotype equivalently in the cleavage of type I membrane proteins. Because these C-terminal alterations are detectable in human cerebrospinal fluid, the use of a substrate panel, including Alcs and
APP
, may be effective to detect gamma-secretase dysfunction in the prepathogenic state of
Alzheimer disease
subjects.
...
PMID:Alcadein cleavages by amyloid beta-precursor protein (APP) alpha- and gamma-secretases generate small peptides, p3-Alcs, indicating Alzheimer disease-related gamma-secretase dysfunction. 1986 13
The
amyloid precursor protein
(
APP
) is anterogradely transported by conventional
kinesin
in a distinct transport vesicle, but both the biochemical composition of such a vesicle and the specific
kinesin
-1 motor responsible for transport are poorly defined.
APP
may be sequentially cleaved by beta- and gamma-secretases leading to accumulation of beta-amyloid (Abeta) peptides in brains of Alzheimer's disease patients, whereas cleavage of
APP
by alpha-secretases prevents Abeta generation. Here, we demonstrate by time-lapse analysis and immunoisolations that
APP
is a cargo of a vesicle containing the kinesin heavy chain isoform
kinesin
-1C, the small GTPase Rab3A, and a specific subset of presynaptic protein components. Moreover, we report that assembly of
kinesin
-1C and
APP
in this vesicle type requires Rab3A GTPase activity. Finally, we show cleavage of
APP
in transport vesicles by alpha-secretase activity, likely mediated by ADAM10. Together, these data indicate that maturation of
APP
transport vesicles, including recruitment of conventional
kinesin
, requires Rab3 GTPase activity.
...
PMID:APP anterograde transport requires Rab3A GTPase activity for assembly of the transport vesicle. 1992 87
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