Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have analyzed Ca2+ currents in two neuroblastoma-motor neuron hybrid cell lines that expressed normal or glutamine-expanded human androgen receptors (polyGln-expanded AR) either transiently or stably. The cell lines express a unique, low-threshold, transient type of Ca2+ current that is not affected by L-type Ca2+ channel blocker (PN 200-110), N-type Ca2+ channel blocker (omega-conotoxin GVIA) or P-type Ca2+ channel blocker (Agatoxin IVA) but is blocked by either Cd2+ or Ni2+. This pharmacological profile most closely resembles that of T-type Ca2+ channels [1-3]. Exposure to androgen had no effect on control cell lines or cells transfected with normal AR but significantly changed the steady-state activation in cells transfected with expanded AR. The observed negative shift in steady-state activation results in a large increase in the T-type Ca2+ channel window current. We suggest that Ca2+ overload due to abnormal voltage-dependence of transient Ca2+ channel activation may contribute to motor neuron toxicity in spinobulbar muscular atrophy (SBMA). This hypothesis is supported by the additional finding that, at concentrations that selectively block T-type Ca2+ channel currents, Ni2+ significantly reduced cell death in cell lines transfected with polyGln-expanded AR.
...
PMID:Increased T-type Ca2+ channel activity as a determinant of cellular toxicity in neuronal cell lines expressing polyglutamine-expanded human androgen receptors. 1072 29

Spinal bulbar muscular atrophy (SBMA) is one of a family of inherited neurodegenerative diseases caused by expansion of CAG encoding polyglutamine repeats; in SBMA the affected gene is the androgen receptor. To understand further the mechanisms that lead to neuronal cell death in SBMA, we generated SHSY5Y neuroblastoma cell lines that stably express identical levels of wild-type (19 polyglutamine repeat) or SBMA (52 polyglutamine repeat) androgen receptor. Parental SHSY5Y cells do not express detectable levels of the androgen receptor. In the absence of androgen, the transfected cell lines have similar phenotypes and growth characteristics to parental SHSY5Y cells. However, upon treatment with androgen, both cell lines undergo a marked dose-dependent loss of viability; this loss was significantly greater in cells expressing the SBMA receptor. Morphological analyses of the androgen treated cells revealed that cell death bore hallmarks of apoptosis involving altered nuclear morphology and cleavage of poly(ADP-ribose) polymerase and of caspase 3 in both wild-type and SBMA cell lines. The caspase inhibitor VAD-fmk was able to decrease loss of viability of both cell lines on exposure to androgen.
...
PMID:Androgen induced cell death in SHSY5Y neuroblastoma cells expressing wild-type and spinal bulbar muscular atrophy mutant androgen receptors. 1133

Spinal and bulbar muscular atrophy (SBMA) is a motor neuronopathy caused by a polyglutamine expansion in the androgen receptor that forms characteristic inclusions in affected neurons. In order to assess the role of ligand binding in androgen receptor aggregation, we examined the distribution of an androgen receptor with 51 glutamine residues in transfected mouse neuroblastoma cells treated with androgens and antiandrogens. Stimulation with testosterone of cells grown in depleted medium or exposed to tamoxifen, resulted in the aggregation of the expanded androgen receptor into characteristic cytoplasmic inclusions. By contrast, very few aggregates were obtained after treatment with cyproterone acetate and none after treatment with flutamide. Furthermore, aggregation was not correlated with an overt change in accumulation of smaller androgen receptor species. Differential modulation of polyglutamine-expanded androgen receptor aggregation by ligands in neuronal cells may partly explain the absence of an overt disease phenotype in female carriers of the SBMA mutation and define conditions to explore further the role of androgen receptor aggregation in the pathogenesis of SBMA.
...
PMID:Ligand-dependent aggregation of polyglutamine-expanded androgen receptor in neuronal cells. 1243 37

Neuronal apoptosis inhibitory protein (NAIP) has been linked to the inherited disease, spinal muscular atrophy (SMA), which occurs in children with degeneration of the motorneurons. In the nervous system, NAIP is expressed by specific classes of neurons including spinal motorneurons. Recently, NAIP was shown to interact with hippocalcin, which belongs to the neuronal calcium sensor (NCS) protein family. Here we have studied this interaction in more detail, using deletions and a mutagenesis of the third baculovirus inhibitory repeat (BIR) motif in NAIP, and functional assays for neuronal death. The results showed that specific amino acids and the zinc finger domain in BIR3 are needed for efficient interaction of NAIP with hippocalcin. Cotransfections of NAIP-BIR3 and hippocalcin resulted in translocation and colocalisation of the two proteins in neuroblastoma cells. This was accompanied by an enhanced resistance towards cell death induced by high levels of calcium. In contrast, expression of NAIP-BIR3 and hippocalcin in sympathetic neurons did not protect against death induced by nerve growth factor (NGF) withdrawal. The results demonstrate a functional interaction of hippocalcin with NAIP-BIR3, which in neuroblastoma cells leads to rescue of cells after high intracellular calcium, but which in sympathetic neurons had no significant effect. The results indicate that NAIP in conjunction with hippocalcin can affect the survival of some, but not all neural cells, and this interaction may play a role in the neurodegenerative processes in SMA, and possible other human disorders.
...
PMID:Neuronal apoptosis inhibitory protein: Structural requirements for hippocalcin binding and effects on survival of NGF-dependent sympathetic neurons. 1244 69

Spinal and bulbar muscular atrophy is a motor neuronopathy caused by a polyglutamine expansion in the androgen receptor (AR). Only males are affected as the development of pathology requires high levels of circulating androgens. Androgens promote aggregation of the AR into characteristic intracellular inclusions. As a potential factor contributing to the protection of female carriers, we assessed the effects of estrogens on AR aggregation in transfected neuronal cells using a filter retardation assay. Pre-treatment of mouse neuroblastoma Neuro2a cells expressing an AR with 51 glutamine residues with 10 microM 17beta- or 17alpha-estradiol prevented induction of AR aggregation by testosterone. Western blot analysis showed that the protective effects of estrogens occurred in the absence of a change in AR processing. We conclude that estrogens protect polyglutamine-expanded AR from aggregation through a non-genomic mechanism possibly involving estrogen binding to the AR.
...
PMID:Protective effects of estrogens on polyglutamine-expanded androgen receptor aggregation in mice. 1296 12

Spinal and bulbar muscular atrophy (SBMA) is a neurodegenerative disorder caused by a polyglutamine repeat (polyQ) expansion within the human androgen receptor (AR). Unlike other neurodegenerative diseases caused by abnormal polyQ expansion, the onset of SBMA depends on androgen binding to mutant human polyQ-AR proteins. This is also observed in Drosophila eyes ectopically expressing the polyQ-AR mutants. We have genetically screened mediators of androgen-induced neurodegeneration caused by polyQ-AR mutants in Drosophila eyes. We identified Rbf (Retinoblastoma-family protein), the Drosophila homologue of human Rb (Retinoblastoma protein), as a neuroprotective factor. Androgen-dependent association of Rbf or Rb with AR was remarkably potentiated by aberrant polyQ expansion. Such potentiated Rb association appeared to attenuate recruitment of histone deacetyltransferase 1 (HDAC1), a corepressor of E2F function. Either overexpression of Rbf or E2F deficiency in fly eyes reduced the neurotoxicity of the polyQ-AR mutants. Induction of E2F function by polyQ-AR-bound androgen was suppressed by Rb in human neuroblastoma cells. We conclude that abnormal expansion of polyQ may potentiate innate androgen-dependent association of AR with Rb. This appears to lead to androgen-dependent onset of SBMA through aberrant E2F transactivation caused by suppressed histone deacetylation.
...
PMID:Aberrant E2F activation by polyglutamine expansion of androgen receptor in SBMA neurotoxicity. 1923 73

The cell nucleus contains two closely related structures, Cajal bodies (CBs) and gems. CBs are the first site of accumulation of newly assembled splicing snRNPs (small nuclear ribonucleoproteins) following their import into the nucleus, before they form their steady-state localization in nuclear splicing speckles. Gems are the nuclear site of accumulation of survival motor neurons (SMNs), an insufficiency of which leads to the inherited neurodegenerative condition, spinal muscular atrophy (SMA). SMN is required in the cytoplasm for the addition of core, Sm, proteins to new snRNPs and is believed to accompany snRNPs to the CB. In most cell lines, gems are indistinguishable from CBs, although the structures are often separate in vivo. The relationship between CBs and gems is not fully understood, but there is evidence that symmetrical dimethylation of arginine residues in the CB protein coilin brings them together in HeLa cells. During neuronal differentiation of the human neuroblastoma cell line SH-SY5Y, CBs and gems increase their colocalization, mimicking changes seen during foetal development. This does not result from alterations in the methylation of coilin, but from increased levels of SMN. Expression of exogenous SMN results in an increased efficiency of snRNP transport to nuclear speckles. This suggests different mechanisms are present in different cell types and in vivo that may be significant for the tissue-specific pathology of SMA.
...
PMID:The SMN protein is a key regulator of nuclear architecture in differentiating neuroblastoma cells. 1973 67

Spinal and bulbar muscular atrophy (SBMA) is a late-onset lower motor neuron disease caused by the expansion of a trinucleotide CAG repeat, which encodes a polyglutamine tract in androgen receptor (AR). Although it is commonly held that the pathogenic polyglutamine proteins accumulate in neurons and thereby induce transcriptional dysregulation, the downstream molecular events have remained elusive. Here, we examined whether TGF-beta signaling is dysregulated in SBMA. Nuclear translocation of phosphorylated Smad2/3, a key step in TGF-beta signaling, is suppressed in the spinal motor neurons of male transgenic mice carrying the mutant human AR. A similar finding was also observed in the motor neurons, but not in Purkinje cells, of SBMA patients. The pathogenic AR, the causative protein of SBMA, inhibits the transcription of TGF-beta receptor type II (TbetaRII) via abnormal interactions with NF-Y and p300/CBP-associated factor. Furthermore, overexpression of TbetaRII dampens polyglutamine-induced cytotoxicity in a neuroblastoma cell line expressing the pathogenic AR. The present study thus indicates that disruption of TGF-beta due to the transcriptional dysregulation of TbetaRII is associated with polyglutamine-induced motor neuron damage in SBMA.
...
PMID:Disrupted transforming growth factor-beta signaling in spinal and bulbar muscular atrophy. 2041 Jan 22

Childhood spinal muscular atrophy is caused by a reduced expression of the survival motor neuron (SMN) protein. SMN has been implicated in the axonal transport of beta-actin mRNA in both primary and transformed neuronal cell lines, and loss of this function could account, at least in part, for spinal muscular atrophy onset and pathological specificity. Here we have utilised a targeted screen to identify mRNA associated with SMN, Gemin2 and Gemin3 in the cytoplasm of a human neuroblastoma cell line, SHSY5Y. Importantly, we have provided the first direct evidence that beta-actin mRNA is present in SMN cytoplasmic complexes in SHSY5Y cells.
...
PMID:SMN, Gemin2 and Gemin3 associate with beta-actin mRNA in the cytoplasm of neuronal cells in vitro. 2062 Jan 47

Although advances in understanding of the pathogenesis of amyotrophic lateral sclerosis (ALS) and spinal muscular atrophy (SMA) have suggested attractive treatment strategies, delivery of agents to motor neurons embedded within the spinal cord is problematic. We have designed a strategy based on the specificity of botulinum toxin, to direct entry of viral vectors carrying candidate therapeutic genes into motor neurons. We have engineered and expressed fusion proteins consisting of the binding domain of botulinum toxin type A fused to streptavidin (SAv). This fusion protein will direct biotinylated viral vectors carrying therapeutic genes into motor nerve terminals where they can enter the acidified endosomal compartments, be released and undergo retrograde transport, to deliver the genes to motor neurons. Both ends of the fusion proteins are shown to be functionally intact. The binding domain end binds to mammalian nerve terminals at neuromuscular junctions, ganglioside GT1b (a target of botulinum toxin), and a variety of neuronal cells including primary chick embryo motor neurons, N2A neuroblastoma cells, NG108-15 cells, but not to NG CR72 cells, which lack complex gangliosides. The streptavidin end binds to biotin, and to a biotinylated Alexa 488 fluorescent tag. Further studies are in progress to evaluate the delivery of genes to motor neurons in vivo, by the use of biotinylated viral vectors.
...
PMID:Strategy for treating motor neuron diseases using a fusion protein of botulinum toxin binding domain and streptavidin for viral vector access: work in progress. 2206 80


1 2 Next >>

---