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Query: UNIPROT:P10636 (
tau protein
)
5,110
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An imbalance of tau isoforms containing either three or four microtubule-binding repeats causes frontotemporal dementia with parkinsonism linked to chromosome 17 (FTDP-17) in families with intronic mutations in the
MAPT
gene. Here we report equivalent imbalances at the mRNA and protein levels and increased total tau levels in the brains of subjects with Huntington's disease (HD) together with rod-like tau deposits along neuronal nuclei. These tau nuclear rods show an ordered filamentous ultrastructure and can be found filling the neuronal nuclear indentations previously reported in HD brains. Finally, alterations in serine/arginine-rich splicing factor-6 coincide with tau missplicing, and a role of tau in HD pathogenesis is evidenced by the attenuation of motor abnormalities of mutant
HTT
transgenic mice in tau knockout backgrounds.
...
PMID:Huntington's disease is a four-repeat tauopathy with tau nuclear rods. 2503 28
Huntington's disease is a neurodegenerative disorder caused by an abnormal CAG repeat expansion within exon 1 of the huntingtin gene
HTT
. While several genetic modifiers, distinct from the Huntington's disease locus itself, have been identified as being linked to the clinical expression and progression of Huntington's disease, the exact molecular mechanisms driving its pathogenic cascade and clinical features, especially the dementia, are not fully understood. Recently the microtubule associated protein tau,
MAPT
, which is associated with several neurodegenerative disorders, has been implicated in Huntington's disease. We explored this association in more detail at the neuropathological, genetic and clinical level. We first investigated tau pathology by looking for the presence of hyperphosphorylated tau aggregates, co-localization of tau with mutant
HTT
and its oligomeric intermediates in post-mortem brain samples from patients with Huntington's disease (n = 16) compared to cases with a known tauopathy and healthy controls. Next, we undertook a genotype-phenotype analysis of a large cohort of patients with Huntington's disease (n = 960) with a particular focus on cognitive decline. We report not only on the tau pathology in the Huntington's disease brain but also the association between genetic variation in tau gene and the clinical expression and progression of the disease. We found extensive pathological inclusions containing abnormally phosphorylated
tau protein
that co-localized in some instances with mutant
HTT
. We confirmed this related to the disease process rather than age, by showing it is also present in two patients with young-onset Huntington's disease (26 and 40 years old at death). In addition we demonstrate that tau oligomers (suggested to be the most likely neurotoxic tau entity) are present in the Huntington's disease brains. Finally we highlight the clinical significance of this pathology by demonstrating that the
MAPT
haplotypes affect the rate of cognitive decline in a large cohort of patients with Huntington's disease. Our findings therefore highlight a novel important role of tau in the pathogenic process and clinical expression of Huntington's disease, which in turn opens up new therapeutic avenues for this incurable condition.
...
PMID:The role of tau in the pathological process and clinical expression of Huntington's disease. 2600 95
Accumulating evidence suggests that misfolded
MAPT
(microtubule associated protein tau), the main component of neurofibrillary tangles in tauopathies, is subject to degradation by the autophagy-lysosomal pathway. Selective autophagy is a subtype of macroautophagy that requires cargo receptors, such as OPTN (optineurin) or SQSTM1, to recognize specific targets for their sequestration within the autophagosome and their eventual degradation by the lysosome, although their roles in targeting distinct
MAPT
species have not been fully investigated. Using cargo receptor knockout cell lines and a seeding-based cellular assay in which neurofibrillary tangle pathology can be modeled in vitro, we reveal that while OPTN primarily targets soluble
MAPT
expressed in physiological conditions, SQSTM1 predominantly degrades insoluble but not soluble mutant
MAPT
. Endogenous SQSTM1 colocalizes with misfolded and aggregated
MAPT
species in vitro and in vivo, and both this colocalization and its function in
MAPT
clearance require both the LC3-interacting region (LIR) motif and also the PB1 self-polymerization domain of SQSTM1. Further, pathogenic
MAPT
accumulation reduces basal macroautophagy/autophagy in vitro and is associated with a compensatory upregulation of the lysosomal pathway in vivo. Finally, increased expression of SQSTM1 in
MAPT
transgenic mouse brains ameliorates
MAPT
pathology and prion-like spreading. Our results uncover distinct properties of selective autophagy receptors in targeting different
MAPT
species, implicate compromised autophagy as a potential underlying factor in mutant
MAPT
deposition, and demonstrate a potent and specific role of SQSTM1 in targeted clearance of pathogenic
MAPT
, through which it blocks neurofibrillary tangle accumulation and pathological spreading. Abbreviations: AAV: adeno-associated virus; AD: Alzheimer disease; ALP: autophagy-lysosomal pathway; ALS: amyotrophic lateral sclerosis; CALCOCO2/NDP52: calcium binding and coiled-coil domain 2; FTD: frontotemporal dementias; HD: Huntington disease;
HTT
: huntingtin; LIR: LC3-interacting region; NBR1: autophagy cargo receptor; NFE2L2/Nrf2: nuclear factor, erythroid derived 2, like 2; NFTs: neurofibrillary tangles;
MAPT
: microtubule associated protein tau; OPTN: optineurin; p-
MAPT
: hyperphosphorylated
MAPT
; PFA: paraformaldehyde; TARDBP/TDP-43: TAR DNA binding protein; TAX1BP1 Tax1: binding protein 1; ThioS: thioflavin-S; UBA: ubiquitin-associated.
...
PMID:The cargo receptor SQSTM1 ameliorates neurofibrillary tangle pathology and spreading through selective targeting of pathological MAPT (microtubule associated protein tau). 3029 Jul 7
In eukaryotes, most proteins are degraded through one of the 2 major proteolytic pathways: the ubiquitin-proteasome system (UPS) and macroautophagy/autophagy. Existing evidence suggests that these processes are critical to human physiology and pathology. Our study revealed a negative feedback system between proteasomal activity and autophagic flux in cells. We demonstrated that proteasome activation achieved by USP14 (ubiquitin specific peptidase 14) inhibition delays the fusion of autophagosomes with the lysosome. A new molecular circuit involving UVRAG (UV radiation resistance associated) was uncovered as a key linker between the systems, adding complexity to the regulatory crosstalk. These findings clearly demonstrate that the surveillance mechanisms for protein homeostasis and cell survival are not separate, but a coordinated system. We also found that proteasome activation promotes the clearance of
MAPT
(microtubule associated protein tau), while facilitating the aggregation of mutant
HTT
(huntingtin) in cells, indicating that the biochemical property of a protein might play a role in its response to degradation signals. Collectively, our results present novel mechanistic insights into the reciprocal communication between the UPS and autophagy, highlighting that while a strategy upregulating either the UPS or autophagy holds great potential, it may have caveats originating from the intrinsic feedback regulation between them.
...
PMID:Negative-feedback coordination between proteasomal activity and autophagic flux. 3002 Nov 69
Expansions of trinucleotide or hexanucleotide repeats lead to several neurodegenerative disorders, including Huntington disease [caused by expanded CAG repeats (CAGr) in the
HTT
gene], and amyotrophic lateral sclerosis [ALS, possibly caused by expanded GGGGCC repeats (G4C2r) in the C9ORF72 gene], of which the molecular mechanisms remain unclear. Here, we demonstrated that lowering the Drosophila homologue of
tau protein
(dtau) significantly rescued in vivo neurodegeneration, motor performance impairments, and the shortened life-span in Drosophila expressing expanded CAGr or expanded G4C2r. Expression of human tau (htau4R) restored the disease-related phenotypes that had been mitigated by the loss of dtau, suggesting an evolutionarily-conserved role of tau in neurodegeneration. We further revealed that G4C2r expression increased tau accumulation by inhibiting autophagosome-lysosome fusion, possibly due to lowering the level of BAG3, a regulator of autophagy and tau. Taken together, our results reveal a novel mechanism by which expanded G4C2r causes neurodegeneration via an evolutionarily-conserved mechanism. Our findings provide novel autophagy-related mechanistic insights into C9ORF72-ALS and possible entry points to disease treatment.
...
PMID:Tau Accumulation via Reduced Autophagy Mediates GGGGCC Repeat Expansion-Induced Neurodegeneration in Drosophila Model of ALS. 3250 Mar 77
