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Query: UMLS:C0040822 (
tremor
)
18,428
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The quaking viable mice have myelination defects and develop a characteristic
tremor
10 d after birth. The quaking gene encodes at least five alternatively spliced
QUAKING
(
QKI
) isoforms that differ in their C-terminal 8--30-amino-acid sequence. The reason for the existence of the different
QKI
isoforms and their function are unknown. Here we show that only one
QKI
isoform,
QKI
-7, can induce apoptosis in fibroblasts and primary rat oligodendrocytes. Heterodimerization of the
QKI
isoforms results in the nuclear translocation of
QKI
-7 and the suppression of apoptosis. The unique C-terminal 14 amino acids of
QKI
-7 confers the ability to induce apoptosis to heterologous proteins such as the green fluorescent protein and a
QKI
-related protein, Caenorhabditis elegans GLD-1. Thus, the unique C-terminal sequences of
QKI
-7 may function as a life-or-death 'sensor' that monitors the balance between the alternatively spliced
QKI
isoforms. Moreover, our findings suggest that nuclear translocation is a novel mechanism of inactivating apoptotic inducers.
...
PMID:Nuclear translocation controlled by alternatively spliced isoforms inactivates the QUAKING apoptotic inducer. 1129 9
Quaking viable (Qk(v)) mice have developmental defects that result in their characteristic
tremor
. The quaking (Qk) locus expresses alternatively spliced RNA-binding proteins belonging to the STAR family. To characterize the RNA binding specificity of the
QKI
proteins, we selected for RNA species that bound
QKI
from random pools of RNAs and defined the
QKI
response element (QRE) as a bipartite consensus sequence NACUAAY-N(1-20)-UAAY. A bioinformatic analysis using the QRE identified the three known RNA targets of
QKI
and 1,430 new putative mRNA targets, of which 23 were validated in vivo. A large proportion of the mRNAs are implicated in development and cell differentiation, as predicted from the phenotype of the Qk(v) mice. In addition, 24% are implicated in cell growth and/or maintenance, suggesting a role for
QKI
in cancer.
...
PMID:Target RNA motif and target mRNAs of the Quaking STAR protein. 1604 88
The quaking viable mouse mutation (qk(v)) is a deletion including the 5' regulatory region of the quaking gene (Qki), which causes body
tremor
and severe dysmyelination in mouse. The function of the human quaking gene, called quaking homolog KH domain RNA-binding (mouse) (
QKI
), is not well known. We have previously shown that
QKI
is a new candidate gene for schizophrenia. Here we show that human
QKI
mRNA levels can account for a high proportion (47%) of normal interindividual mRNA expression variation (and covariation) of six oligodendrocyte-related genes (PLP1, MAG, MBP, TF, SOX10, and CDKN1B) in 55 human brain autopsy samples from individuals without psychiatric diagnoses. In addition, the tightly coexpressed myelin-related genes (PLP1, MAG, and TF) have decreased mRNA levels in 55 schizophrenic patients, as compared with 55 control individuals, and most of this difference (68-96%) can be explained by variation in the relative mRNA levels of
QKI
-7kb, the same
QKI
splice variant previously shown to be down-regulated in patients with schizophrenia. Taken together, our results suggest that
QKI
levels may regulate oligodendrocyte differentiation and maturation in human brain, in a similar way as in mouse. Moreover, we hypothesize that previously observed decreased activity of myelin-related genes in schizophrenia might be caused by disturbed
QKI
splicing.
...
PMID:Human QKI, a potential regulator of mRNA expression of human oligodendrocyte-related genes involved in schizophrenia. 1664 Oct 98
Alternative splicing of the qkI transcript generates multiple isoforms of the selective RNA-binding protein
QKI
, which play key roles in controlling the homeostasis of their mRNA targets.
QKI
deficiency in oligodendrocytes of homozygous quakingviable (qkV/qkV) mutant mice results in severe hypomyelination, indicating the essential function of
QKI
in myelinogenesis. However, the molecular mechanisms by which
QKI
controls myelination remain elusive. We report here that
QKI
-6 is the most abundant isoform in brain and is preferentially reduced in the qkV/qkV mutant during normal myelinogenesis. To test whether
QKI
-6 is the predominant isoform responsible for advancing CNS myelination, we developed transgenic mice that express Flag-
QKI
-6 specifically in the oligodendroglia lineage, driven by the proteolipid protein (PLP) promoter. When introduced into the qkV/qkV mutant, the
QKI
-6 transgene rescues the severe
tremor
and hypomyelination phenotype. Electron microscopic studies further revealed that the Flag-
QKI
-6 transgene is sufficient for restoring compact myelin formation with normal lamellar periodicity and thickness. Interestingly, Flag-
QKI
-6 preferentially associates with the mRNA encoding the myelin basic protein (MBP) and rescues MBP expression from the beginning of myelinogenesis. In contrast, Flag-
QKI
-6 binds the PLP mRNA with lower efficiency and has a minimal impact on PLP expression until much later, when the expression level of
QKI
-6 in the transgenic animal significantly exceeds what is needed for normal myelination. Together, our results demonstrate that
QKI
-6 is the major isoform responsible for CNS myelination, which preferentially promotes MBP expression in oligodendrocytes.
...
PMID:Rescuing qkV dysmyelination by a single isoform of the selective RNA-binding protein QKI. 1707 55
The quaking viable (qk(v)) mice have attracted attention because of their characteristic
tremor
caused by their dysmyelination. In the central nervous system, qk(v) mice fail to develop mature myelinating oligodendrocytes and display uncompacted myelin. The genetic defect in the qk(v) mice prevents the proper expression of alternatively spliced KH-type
QKI
RNA binding proteins. Thus qk(v) mice provide a unique animal model linking RNA binding proteins to defects in oligodendrocyte cell fate and myelination. The fact that
QKI
proteins are modified post-translationally makes them Signal Transduction Activiators of RNA (STAR) proteins. We have used a gain-of-function approach with the ectopic expression of the separate
QKI
isoforms using adenoviruses and retroviruses to determine their separate roles in cell fate and myelination. Herein, we discuss the recent advances in characterizing the
QKI
KH-type proteins as glial cell fate and myelin egulators.
...
PMID:QUAKING KH domain proteins as regulators of glial cell fate and myelination. 1713 40
