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Query: UMLS:C0002736 (
amyotrophic lateral sclerosis
)
19,048
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The SOD1G93A transgenic mouse strain which carries a human mutant Cu/Zn superoxide dismutase transgene array is a widely studied model of
amyotrophic lateral sclerosis
. These mice have been used in many breeding experiments to look for interactions with other loci, including transgenic and gene targeted mutations. Therefore, we decided to map the site of the transgene insertion as this may affect the outcome of such breeding experiments. In a fluorescence in situ hybridization experiment we determined that the SOD1G93A transgene insertion site lies on distal mouse chromosome 12. This chromosome also carries the 'Legs at odd angles' locus, which is an entirely unrelated mutation in the
dynein heavy chain
gene that we have been studying. We have analysed data from a SOD1G93AxLoa cross and determined that the site of the transgene insertion lies proximal of the
dynein heavy chain
gene on mouse chromosome 12.
...
PMID:The SOD1 transgene in the G93A mouse model of amyotrophic lateral sclerosis lies on distal mouse chromosome 12. 1603 35
In neurons, cytoplasmic dynein functions as a molecular motor responsible for retrograde axonal transport. An impairment of axonal transport is thought to play a key role in the pathogenesis of neurodegenerative diseases such as
amyotrophic lateral sclerosis
, the most frequent motor neuron disease in the elderly. In this regard, previous studies described two heterozygous mouse strains bearing missense point mutations in the
dynein heavy chain
1 gene that were reported to display late-onset progressive motor neuron degeneration. Here we show, however, that one of these mutant strains, the so-called Cra mice does not suffer from motor neuron loss, even in aged animals. Consistently, we did not observe electrophysiological or biochemical signs of muscle denervation, indicative of motor neuron disease. The "hindlimb clasping" phenotype of Cra mice could rather be due to the prominent degeneration of sensory neurons associated with a loss of muscle spindles. Altogether, these findings show that
dynein heavy chain
mutation triggers sensory neuropathy rather than motor neuron disease.
...
PMID:Mice with a mutation in the dynein heavy chain 1 gene display sensory neuropathy but lack motor neuron disease. 1895 79
Transport of material and signals between extensive neuronal processes and the cell body is essential to neuronal physiology and survival. Slowing of axonal transport has been shown to occur before the onset of symptoms in
amyotrophic lateral sclerosis
(
ALS
). We have previously shown that several familial
ALS
-linked copper-zinc superoxide dismutase (SOD1) mutants (A4V, G85R, and G93A) interacted and colocalized with the retrograde dynein-dynactin motor complex in cultured cells and affected tissues of
ALS
mice. We also found that the interaction between mutant SOD1 and the dynein motor played a critical role in the formation of large inclusions containing mutant SOD1. In this study, we showed that, in contrast to the dynein situation, mutant SOD1 did not interact with anterograde transport motors of the kinesin-1 family (KIF5A, B and C). Using dynein and kinesin accumulation at the sciatic nerve ligation sites as a surrogate measurement of axonal transport, we also showed that dynein mediated retrograde transport was slower in G93A than in WT mice at an early presymptomatic stage. While no decrease in KIF5A-mediated anterograde transport was detected, the slowing of anterograde transport of
dynein heavy chain
as a cargo was observed in the presymptomatic G93A mice. The results from this study along with other recently published work support that mutant SOD1 might only interact with and interfere with some kinesin members, which, in turn, could result in the impairment of a selective subset of cargos. Although it remains to be further investigated how mutant SOD1 affects different axonal transport motor proteins and various cargos, it is evident that mutant SOD1 can induce defects in axonal transport, which, subsequently, contribute to the propagation of toxic effects and ultimately motor neuron death in
ALS
.
...
PMID:Effects of ALS-related SOD1 mutants on dynein- and KIF5-mediated retrograde and anterograde axonal transport. 2051 Mar 58
We present a case of a patient with clinically definite
ALS
, who had earlier suffered from Kartagener syndrome, which is characterized by the triad comprising chronic sinusitis, bronchiectasis, and situs inversus. Recent linkage and mutational analyses identified several genes that are responsible for Kartagener syndrome. Most of them encode subunits of axonemal dyneins, highlighting the importance of dynein motors to ciliary motility. Recent data indicate that defects in cytoplasmic dynein-mediated retrograde axonal transport are involved in the etiology of
ALS
. Genes encoding the
dynein heavy chain
of cytoplasmic and outer arm axonemal dyneins are reported to have similar sequences in their central and 3'-end regions. Although a causal link between
ALS
and Kartagener syndrome has not yet been definitely established, the precise relationship between disrupted axonemal dynein function in Kartagener syndrome and motor neuron death should be investigated.
...
PMID:Amyotrophic lateral sclerosis in a patient with Kartagener syndrome. 2055 Apr 87
Mutations causing genetic forms of Parkinson's disease or hereditary neuropathies have been recently shown to affect key molecular players involved in the recycling of defective mitochondria, most notably PARKIN, PINK1, Mitofusin 2 or
dynein heavy chain
. Interestingly, the same pathways are also indirectly targeted by multiple other mutations involved in familial forms of
amyotrophic lateral sclerosis
, Huntington's disease or Alzheimer's disease. These recent genetic results strongly reinforce the notion that defective mitochondrial physiology might cause neurodegeneration. Mitochondrial dysfunction has however been observed in virtually every neurodegenerative disease and appears not restricted to the most vulnerable neuronal populations affected by a given disease. Thus, the mechanisms linking defective mitochondrial quality control to death of selective neuronal populations remain to be identified. This review provides an update on the most recent literature on mitochondrial quality control and its impairment during neurodegenerative diseases.
...
PMID:Mitochondrial quality control in neurodegenerative diseases. 2395 38
The contribution of genetic variants to sporadic
amyotrophic lateral sclerosis
(
ALS
) remains largely unknown. Either recessive or de novo variants could result in an apparently sporadic occurrence of
ALS
. In an attempt to find such variants we sequenced the exomes of 44
ALS
-unaffected-parents trios. Rare and potentially damaging compound heterozygous variants were found in 27% of
ALS
patients, homozygous recessive variants in 14% and coding de novo variants in 27%. In 20% of patients more than one of the above variants was present. Genes with recessive variants were enriched in nucleotide binding capacity, ATPase activity, and the
dynein heavy chain
. Genes with de novo variants were enriched in transcription regulation and cell cycle processes. This trio study indicates that rare private recessive variants could be a mechanism underlying some case of sporadic
ALS
, and that de novo mutations are also likely to play a part in the disease.
...
PMID:Exome sequencing of case-unaffected-parents trios reveals recessive and de novo genetic variants in sporadic ALS. 2577 95
Valosin-containing protein (VCP), also called p97, is an evolutionarily conserved and ubiquitously expressed ATPase with diverse cellular functions. Dominant mutations in
VCP
are found in a late-onset multisystem degenerative proteinopathy. The neurological manifestations of the disorder include frontotemporal dementia (FTD) and
amyotrophic lateral sclerosis
(
ALS
). In these patients, long motor neuron axons could be particularly susceptible to defects in axonal transport. However, whether VCP has a physiological function in maintaining axonal transport and whether this role is impaired by disease-causing mutations remains elusive. Here, by employing live-imaging methods in
Drosophila
larval axons and performing genetic interaction experiments, we discover that VCP regulates the axonal transport of mitochondria. Downregulation of
VCP
enhances the retrograde transport of mitochondria and reduces the density of mitochondria in larval axons. This unidirectional motility phenotype is rescued by removing one copy of the retrograde motor
dynein heavy chain
(
DHC
)
, or elevating
Miro
which facilitates anterograde mitochondrial movement by interacting with the anterograde motor kinesin heavy chain (KHC). Importantly,
Miro
upregulation also significantly improves ATP production of
VCP
mutant larvae. We investigate human
VCP
pathogenic mutations in our fly system. We find that expressing these mutations affects mitochondrial transport in the same way as knocking down
VCP
. Our results reveal a new role of VCP in mediating axonal mitochondrial transport, and provide evidence implicating impaired mitochondrial motility in the pathophysiology of VCP-relevant neurodegenerative diseases.
...
PMID:
Drosophila
VCP/p97 Mediates Dynein-Dependent Retrograde Mitochondrial Motility in Axons. 3237 11
