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Query: UNIPROT:P06889 (
Mol
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630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The childhood-onset spinal muscular atrophies are a clinically heterogeneous group of autosomal recessive disorders characterized by selective degeneration of the anterior horn cells with subsequent weakness and atrophy of limb muscles. The disease locus has been mapped to a region of chromosome 5q13 characterized by genetic instability and DNA duplication. Among the duplicated genes in this region, SMNT (telomeric copy;
survival motor neuron
) is thought to be the major disease determining gene since it is missing in the majority of
SMA
patients and since small, intragenic mutations in the gene have been associated with the disorder. Approximately half of the severely affected SMA I patients are also missing both homologues of a neighboring gene, the neuronal apoptosis inhibitory protein (NAIP). These data indicate that loss of NAIP may affect disease severity and further, that the molecular events underlying the childhood-onset SMAs are complex, possibly involving multiple genes. We report a third multicopy gene in the
SMA
region, encoding the p44 subunit of basal transcription factor II (BTF2p44). One copy of this transcription-repair gene is deleted in at least 15% of all
SMA
cases.
Hum
Mol
Genet 1997 Feb
PMID:A multicopy transcription-repair gene, BTF2p44, maps to the SMA region and demonstrates SMA associated deletions. 906 43
Spinal muscular atrophy (SMA) is a frequent autosomal recessive neurodegenerative disorder leading to weakness and atrophy of voluntary muscles. The
survival motor neuron
gene (SMN) is a strong candidate for SMA and present in two highly homologous copies (telSMN and cenSMN) within the SMA region (5q11.2-q13.3). More than 90% of SMA patients show homozygous deletions of at least exon 7 of telSMN, whereas absence of cenSMN seems to have no clinical consequences. In 23 non-deleted SMA patients, we searched for intragenic mutations of the SMN genes in exons 1-7 and the promotor region by single strand conformation analysis. We identified two different missense mutations, S2621 and T2741, in exon 6 of telSMN in three independent SMA families, providing further evidence for the telSMN gene as a SMA determining gene. Both mutations, as well as two previously described mutations (Y272C and G279V) are located within a highly conserved interval from codon 258 to codon 279 which seems to be an important functional domain of the telSMN protein. Recently, this region has been shown to contain a tyrosine/glycine-rich motif, which is also present in various RNA binding proteins, suggesting a potential role of SMN in RNA metabolism. Missense mutations might be useful for in vivo and transgenic experiments and further investigations on understanding the function of the telSMN protein.
Hum
Mol
Genet 1997 May
PMID:Missense mutations in exon 6 of the survival motor neuron gene in patients with spinal muscular atrophy (SMA). 915 59
Lobular hepatic fibrosis and the presence of myofibroblasts were studied in heroin abusers, by quantitative automatic image analysis. Nineteen addicts (DA) and thirteen patients having stopped consumption (exDA) were compared to a non-addict group (CONTROL). Addicts, all anti-HIV and HBsAg negative, showed increased transaminase levels. Hepatitis C markers were ot available, at the time of biopsy. The surface of the centrolobular fibrosis, measured on picrosirius stained slides, was respectively 1.9 and 3.5 times larger in DA and exDA than in CONTROL (p < 0.0001). Immunolabelling with an alpha-smooth muscle actin antibody (alpha-SMA) revealed stellate cells in a perisinusoidal location, mainly in areas of matrix thickening in the space of Disse. Morphometric analysis of alpha-
SMA
expression showed significant differences between the three groups of patients, p < 0.0001 (CONTROL: 198.06 +/- 5.59 microns2; DA: 2227.91 +/- 88.02 microns2; exDA: 3469.10 +/- 154.98 microns2). The surface density of collagen and of alpha-
SMA
reactivity was also significantly different between these groups (p < 0.0001). These data strongly suggest that heroin is responsible for an early and progressive centrolobular liver fibrosis, occurring simultaneously with a myofibroblastic response. It might represent a reparative phenomenon arising from a direct vascular injury, leading to an impairment of blood-hepatocyte exchange.
Cell
Mol
Biol (Noisy-le-grand) 1997 Jun
PMID:Quantitative studies on liver fibrosis and alpha-smooth muscle actin expression in heroin abusers. 922 Jan 52
In order to investigate the spinal muscular atrophy (SMA) disease processes, the expression of the
survival motor neuron
gene (SMN) has been analyzed in human fetal tissues using RT-PCR and in situ hybridization. These studies allowed the detection of SMN RNA in all the examined tissues, with no significant variation between different developmental stages. In particular, SMN mRNA was detected in spinal cord (dorsal and ventral portions), skeletal muscle, lung, heart, kidney, liver, and spleen. Moreover, RT-PCR studies demonstrated that the expression pattern of SMN isoforms was similar to that observed in adult tissues. The present data confirm a housekeeping role for the SMN protein and may have implications on the search for early therapeutic strategies.
Biochem
Mol
Med 1997 Jun
PMID:Expression study of survival motor neuron gene in human fetal tissues. 923 4
The 38 kDa
survival motor neuron
(
SMN
) protein is encoded by two ubiquitously expressed genes: telomeric
SMN
(
SMN
(T)) and centromeric
SMN
(
SMN
(C)). Mutations in
SMN
(T), but not
SMN
(C), cause proximal spinal muscular atrophy (SMA), an autosomal recessive disorder that results in loss of motor neurons.
SMN
is found in the cytoplasm and nucleus. The nuclear form is located in structures termed gems. Using a panel of anti-
SMN
antibodies, we demonstrate that the
SMN
protein is expressed from both the
SMN
(T) and
SMN
(C) genes. Western blot analysis of fibroblasts from SMA patients with various clinical severities of SMA showed a moderate reduction in the amount of
SMN
protein, particularly in type I (most severe) patients. Immunocytochemical analysis of SMA patient fibroblasts indicates a significant reduction in the number of gems in type I SMA patients and a correlation of the number of gems with clinical severity. This correlation to phenotype using primary fibroblasts may serve as a useful diagnostic tool in an easily accessible tissue.
SMN
is expressed at high levels in brain, kidney and liver, moderate levels in skeletal and cardiac muscle, and low levels in fibroblasts and lymphocytes. In SMA patients, the
SMN
level was moderately reduced in muscle and lymphoblasts. In contrast,
SMN
was expressed at high levels in spinal cord from normals and non-SMA disease controls, but was reduced 100-fold in spinal cord from type I patients. The marked reduction of
SMN
in type I SMA spinal cords is consistent with the features of this motor neuron disease. We suggest that disruption of
SMN
(T) in type I patients results in loss of
SMN
from motor neurons, resulting in the degeneration of these neurons.
Hum
Mol
Genet 1997 Aug
PMID:The survival motor neuron protein in spinal muscular atrophy. 925 65
The
survival motor neuron
(
SMN
) gene is the putative disease gene for human spinal muscular atrophy (SMA), an autosomal recessive disorder characterized by progressive degeneration of lower motor neurons. Two copies of the gene, centromeric and telomeric, are present in the same 5q13 chromosomal region in humans. However, only the telomeric gene is affected in SMA. The
SMN
gene(s) encode(s) a novel protein of unknown function. To gain insights into the role of
SMN
in neurons, we have identified the
SMN
gene ortholog in the rat, and investigated
SMN
expression in the CNS of rat, monkey and humans by immunocytochemistry and in situ hybridization experiments. Antibodies against the
SMN
amino-terminus specifically recognized a single protein identical to the in vitro translation products of human and rat
SMN
cDNAs. The
SMN
gene transcript and product were widely but unevenly expressed throughout cerebral and spinal cord areas. The
SMN
protein was localized mainly in the cytoplasm of specific neuronal systems, and it was particularly expressed in lower motor neurons of newborn and adult animals. Likewise, a strong hybridization signal was detected in lamina IX of the spinal ventral horn. These results support the relevance of
SMN
for the motor neuron function and the pathogenetic role of the
SMN
gene in the neuronal degeneration associated with SMA.
Hum
Mol
Genet 1997 Oct
PMID:Expression of the SMN gene, the spinal muscular atrophy determining gene, in the mammalian central nervous system. 930 77
After Duchenne muscular dystrophy, spinal muscular atrophy (SMA) is the most common severe neuromuscular disease in childhood. Since 1995, homozygous deletions in exon 7 of the
survival motor neuron
(
SMN
) gene have been described in >90-95% of SMA patients. However, the presence of a highly homologous
SMN
copy gene complicates the detection of exon 7 deletions. This paper describes the adjustment and evaluation of an established
SMN
exon 7 polymerase chain reaction (PCR) protocol at the single cell level, and the first preimplantation genetic diagnosis (PGD) of SMA with this PCR protocol. To determine PCR efficiency and allelic loss, 200 leukocytes of normal individuals, SMA carriers and patients, and 25 blastomeres were tested. The PCR efficiency of the
SMN
exon 7 and the adjacent copy gene sequence, tested in the leukocytes, were 90% and 91% respectively. No allelic loss was detected. One out of 25 blastomeres tested revealed a negative PCR signal for the
SMN
exon 7 sequence. All 25 showed the copy gene sequence. PGD of SMA was offered to a couple with an affected child homozygous for the
SMN
exon 7 deletion. After intracytoplasmic sperm injection, four and five embryos could be genotyped for the
SMN
exon 7 in two cycles respectively. After embryo transfer in the second PGD cycle an ongoing gemelli pregnancy was achieved. This study demonstrates that PGD for SMA is feasible when a previous child is homozygous for the
SMN
exon 7 deletion.
Mol
Hum Reprod 1998 Sep
PMID:Preimplantation genetic diagnosis of spinal muscular atrophy. 978 49
Earlier work from this laboratory showed that abnormal fibroblast phenotypes isolated from fibrotic human lung produce factor(s) capable of inducing apoptosis and necrosis of alveolar epithelial cells in vitro [B. D. Uhal, I. Joshi, A. True, S. Mundle, A. Raza, A. Pardo, and M. Selman. Am. J. Physiol. 269 (Lung Cell.
Mol
. Physiol. 13): L819-L828, 1995]. To determine whether epithelial cell death is associated with proximity to abnormal fibroblasts in vivo, the spatial distribution of epithelial cell loss, DNA fragmentation, and myofibroblasts was examined in the same tissue specimens used previously for fibroblast isolation. Paraffin sections of normal and fibrotic human lung were subjected to in situ end labeling (ISEL) of fragmented DNA and simultaneous immunolabeling of alpha-smooth muscle actin (alpha-SMA); replicate samples were subjected to electron microscopy and detection of collagens by the picrosirius red technique. Normal human lung exhibited very little labeling except for positive alpha-
SMA
immunoreactivity of smooth muscle surrounding bronchi and vessels. In contrast, fibrotic human lung exhibited moderate to heavy ISEL of interstitial, cuboidal epithelial, and free alveolar cells. ISEL of the alveolar epithelium was not distributed uniformly but was most intense immediately adjacent to underlying foci of alpha-
SMA
-positive fibroblast-like interstitial cells. Both electron microscopy and picrosirius red confirmed epithelial cell apoptosis, necrosis, and cell loss adjacent to foci of collagen accumulation surrounding fibroblast-like cells. These results demonstrate that the cuboidal epithelium of the fibrotic lung contains dying as well as proliferating cells and support the hypothesis that alveolar epithelial cell death is induced by abnormal lung fibroblasts in vivo as it is in vitro.
...
PMID:Alveolar epithelial cell death adjacent to underlying myofibroblasts in advanced fibrotic human lung. 984 57
Mast cells are widely distributed in human tissues, including the human uterus. However, the function of mast cells in uterine smooth muscle has not been clearly established. Mast cells possess secretory granules containing such substances as heparin, serotonin, histamine and many cytokines. To help establish the role of mast cells in the human myometrium, the action of heparin was investigated using smooth muscle cells (SMC) from normal myometrium and from leiomyoma. The proliferation of cultured myometrial and leiomyomal SMC was inhibited by heparin treatment. Flow cytometric analysis showed that the population in the G1 phase of the cell cycle increased under heparin treatment. Western blotting analysis showed that markers of SMC differentiation such as alpha-smooth muscle actin (alpha-SMA), calponin h1 and cyclin-dependent kinase inhibitor p27 were induced by heparin, whereas cell-cycle-related gene products from the G1 phase of the cell cycle, such as cyclin E and cdk2, were not changed. Taken together, these results indicate that heparin inhibits the proliferation of myometrial and leiomyomal SMC through the induction of alpha-
SMA
, calponin h1 and p27. We suggest that heparin from mast cells may induce differentiation in uterine SMC and may influence tissue remodelling and reconstruction during physiological and pathophysiological events.
Mol
Hum Reprod 1999 Feb
PMID:Heparin inhibits proliferation of myometrial and leiomyomal smooth muscle cells through the induction of alpha-smooth muscle actin, calponin h1 and p27. 1006 69
Spinal muscular atrophy (SMA) is a common autosomal recessive disorder that results in the degeneration of spinal motor neurons. SMA is caused by alterations of the
survival motor neuron
( SMN ) gene which encodes a novel protein of hitherto unclear function. The SMN protein associates with ribonucleoprotein particles involved in RNA processing and exhibits an RNA-binding capacity. We have isolated the zebrafish Danio rerio and nematode Caenorhabditis elegans orthologues and have found that the RNA-binding capacity is conserved across species. Purified recombinant SMN proteins from both species showed selectivity to poly(G) homopolymer RNA in vitro, similar to that of the human protein. Studying deletions of the zebrafish SMN protein, we defined an RNA-binding element in exon 2a, which is highly conserved across species, and revealed that its binding activity is modulated by protein domains encoded by exon 2b and exon 3. Finally, the deleted recombinant zebrafish protein mimicking an SMA frameshift mutation showed a dramatic change in vitro in the formation of the RNA-protein complexes. These observations indicate that the RNA-binding capacity of SMN is an evolutionarily conserved function and further support the view that defects in RNA metabolism most likely account for the pathogenesis of SMA.
Hum
Mol
Genet 1999 May
PMID:The RNA-binding properties of SMN: deletion analysis of the zebrafish orthologue defines domains conserved in evolution. 1019 66
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