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Query: UMLS:C0040822 (
tremor
)
18,428
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The objective of this study was to analyze a sample of unrelated individuals with autosomal dominant essential
tremor
(ET) for a genetic association with loci in a candidate region (
ETM2
) on chromosome 2p24.1 that harbors a disease gene for ET. ET is a common movement disorder that is genetically linked to
ETM2
in four large families. It is unknown whether this candidate locus is associated with dominantly inherited ET in other individuals. Based on information from previous genetic linkage studies, a linkage disequilibrium study was designed to compare individuals with a family history of ET (n=45) with normal controls (n=70). Three unreported dinucleotide polymorphic loci (etm1240, etm1231, and etm1234) were identified on a physical map of the
ETM2
interval in a region of no recombination. The study sample was tested for allele frequency differences by the CLUMP program and haplotypes were analyzed by the FASTEHPLUS program. The allele frequencies were significantly different between ET cases and the control samples for the loci etm1231 (P< or =0.0419) and etm1234 (P<0.0001). A haplotype formed by the loci etm1231 and etm1234 occurred with a frequency of 29% in cases (n=45) and 9% in a white newborn sample (P<0.0001, n=35). The haplotype was not found in normal individuals older than 60 years without
tremor
(P=0.0063, n=35). This study provides evidence that an ancestral haplotype on chromosome 2p24.1 segregates with the ET disease phenotype in individuals with a family history of the disorder and will facilitate the search for a causative gene.
...
PMID:Haplotype analysis of the ETM2 locus in familial essential tremor. 1276 58
A gene for autosomal dominant familial essential
tremor
maps to a 9.1 cM interval flanked by loci D2S224 and D2S405 (
ETM2
) on human chromosome 2p24.3-p24.2. The recombinatorial boundaries of the interval were refined on a radiation hybrid map to a 123 cR minimal critical region (MCR) between D2S224 and D2S2221. High-throughput non-isotopic screening of bacterial artificial chromosomes (BACs) was used to assemble a physical map of the region. A scaffold BAC map of 31 overlapping clones was ordered by their sequence tagged site (STS) content using PCR and Southern blotting. A complementary 3.9 Mb integrated physical map of the human
ETM2
region was constructed by identifying GenBank contigs that contained seven BAC DNA sequences and common STSs. Thirty-three transcripts including five known genes (MATN3, LAPTM4A, SDC1, PUM2, and APOB) were identified in the MCR and ordered on an integrated contig by PCR and virtual mapping. This physical map will provide a template for genomic sequencing and the identification of a gene for essential
tremor
.
...
PMID:Integrated physical map of the human essential tremor gene region (ETM2) on chromosome 2p24.3-p24.2. 1510 95
An ancestral haplotype on chromosome 2p24.1 described in an American sample with familial essential
tremor
(ET) was analyzed in a different ethnic sample from Singapore. Six polymorphic loci (etm1240, etm1231, etm1234, APOB, etm1241, and etm1242) in a 274-kb interval within an ET gene candidate region (
ETM2
) were analyzed in Singaporean individuals with a family history of ET (n = 52) and compared to Singaporean controls older than age 65 (n = 49). The allele frequencies were significantly different between cases and controls for the loci etm1234 (p = 0.0001) and APOB (p = 0.0320). An extended haplotype formed by the loci etm1231, etm1234, and APOB occurred with a frequency of 31% in Singaporean cases and in 1.8% of elderly Singaporean controls (p = 0.0005). Haplotype studies in two different population samples suggest that a disease locus for ET lies near or within the 100-kb interval between the loci etm1231 and APOB.
...
PMID:Haplotype analysis at the ETM2 locus in a Singaporean sample with familial essential tremor. 1535 39
The causative genes for essential
tremor
(ET), one of the most common genetic neurological disorders, have eluded scientists despite intensive search. Two gene loci linked to ET, one on chromosome 3q13 and another on chromosome 2p24.1, have been identified, and a missense mutation in the
HS1-BP3
gene on the 2p has been suggested as the cause of the disorder in about 10% of American ET patients. Therefore, the genetic basis for the vast majority of familial ET is still unknown. In this issue of the JCI, the gene coding for the gamma-aminobutyric acidA (GABA(A)) receptor alpha1 subunit is suggested as a potential candidate gene for ET, as mice lacking the gene express a phenotype that overlaps with some clinical characteristics of the human condition.
...
PMID:Genetic mouse models of essential tremor: are they essential? 1576 50
A positive family history is present in many patients with essential
tremor
(ET), but twin studies and segregation analysis have suggested that ET is not entirely a genetic disorder. Two genetic loci have been identified in autosomal dominant (AD) ET and polymorphisms in the DRD3 and
HS1-BP3
genes have been proposed as the possible susceptibility factors for ET. There is also evidence for further genetic heterogeneity. We evaluated 4 unrelated large kindreds with ET with an apparent AD mode of transmission. Each kindred spanned at least 3 generations and contained at least 13 living affected subjects who met criteria for definitive ET. None of the pedigrees had evidence for inheritance of ET from both parents. Known genetic ET loci were excluded in these families. We detected a preferential transmission of ET in every kindred and the proportion of affected offspring varied from 75% to 90% (P < 0.05) in the generations with complete ascertainment. Our data indicate that non-Mendelian preferential transmission of an affected allele is a feature in many ET kindreds with multiple affected members and an apparent AD mode of inheritance. ET may have a complex etiology. Additional genetic models need to be considered, including an interaction of susceptibility genes and environmental risk factors.
...
PMID:Familial essential tremor with apparent autosomal dominant inheritance: should we also consider other inheritance modes? 1672 53
Familial essential
tremor
(FET) is a common hereditary movement disorder with phenotypic variability and genetic heterogeneity. To date, linkage analyses revealed three loci associated to essential
tremor
(ET) (ETM1 on 3q13,
ETM2
on 2p22-25, and a locus on 6p23). We performed a genetic analysis of these candidate chromosomal regions in a fifth-generation Italian kindred with autosomal-dominant ET. Of the 22 clinically evaluated family members, nine were affected by ET. The genetic study indicates that the ET in this family is not associated to any of the known ET loci. These findings support evidence of further genetic heterogeneity for such disease.
...
PMID:Further evidence of genetic heterogeneity in familial essential tremor. 1770 85
In the present study, we characterized the function of
HS1-binding protein 3
(
HS1BP3
), which is mutated in essential
tremor
and may be involved in lymphocyte activation. We found that
HS1BP3
localized to the mitochondria and endoplasmic reticulum partially. Overexpression of
HS1BP3
induced apoptosis in HEK293T and HeLa cell lines. When these cell lines were transfected with
HS1BP3
, they exhibited nuclear DNA condensation, externalization of phosphatidylserine (PS), and cleavage of poly ADP ribose polymerase (PARP). Furthermore, suppression of
HS1BP3
or HS1 expression attenuates
HS1BP3
induced apoptosis. In addition,
HS1BP3
enhanced activator protein 1 (AP-1)-mediated transcription in a dose-dependent manner. Therefore, we conclude that
HS1BP3
regulates apoptosis via HS1 and stimulates AP-1-mediated transcription.
...
PMID:Human HS1BP3 induces cell apoptosis and activates AP-1. 2169 50
Essential tremor (ET) is a prevalent condition manifesting with progressive action
tremor
. Although ET was traditionally viewed as a sporadic disease, a significant proportion of cases report a positive family history of
tremor
. Autosomal dominant inheritance can be demonstrated in many families. Previously, genome-wide linkage studies in families mapped three loci for ET, hereditary essential
tremor
-1 (ETM1),
ETM2
and ETM3. However, no causal mutation has been replicated in candidate genes within these loci, including dopamine D3 receptor (DRD3) and
HS1-binding protein 3
(
HS1BP3
). Recently, the first genome-wide association study in ET followed by replication studies conducted in diverse populations identified a significant association between the leucine-rich repeat and Ig domain containing 1 gene (LINGO1) SNP rs9652490 and risk for ET Although further novel variants were indentified in LINGO1 and its paralog LINGO2 that may be associated with risk for ET, the pathogenic mechanisms involved remain elusive. Given the possibility that ET as a complex trait may be influenced by the combined effects of rare variants, novel high-throughput technologies sequencing all exons across the genome (exome sequencing) or the whole genome (genome sequencing) may become crucial in understanding/deciphering the genetic background of ET.
...
PMID:Genetics of essential tremor. 2216 13
