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Disease
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Target Concepts:
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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Palmitoyl protein thioesterase (PPT) 1 is an enzyme involved in deacylation of palmitoylated proteins. A deficiency in PPT1 results in a genetic disease, infantile
neuronal ceroid lipofuscinosis
, associated with massive death of cortical neurons. The role of PPT1 in neuronal survival and apoptosis was studied in human
neuroblastoma
(LA-N-5) cells overexpressing PPT1. Overexpression of PPT1 was shown both by the 200-350% increase in depalmitoylating activity over basal level (as determined by an in vitro PPT assay) and by western blot analysis of transiently expressed epitope-tagged PPT1. Overexpressed PPT1 showed the same acidic pH optimum (pH 4.0) as the endogenous enzyme, when assayed with a P0-derived octapeptide substrate, and reduced the growth rate by 30%. LA-N-5 cells underwent apoptosis, as evidenced by increased caspase 3-like activity and increased DNA fragmentation, when challenged with either C2-ceramide or a phosphatidylinositol 3-kinase inhibitor (LY294002). Overexpression of PPT1 inhibited this C2-ceramide- or LY294002-mediated activation of caspase-3 by 50%. There was also a concomitant decrease in DNA fragmentation and cell death. Consistent with increased resistance to apoptosis, we found increased phosphorylation of the antiapoptotic protein Akt (protein kinase B) in PPT1-overexpressing cells. p21Ras is known to be dynamically palmitoylated and depalmitoylated and is involved in both growth and cell death. The C2-ceramide-induced membrane association of p21Ras was reduced by 30-50% in PPT1-overexpressing cells compared with control. PPT overexpression also led to reduced membrane association of another palmitoylated protein, GAP-43, a neuron-specific protein. Our studies suggest that protein palmitoylation could be a physiological regulator of apoptosis.
...
PMID:Palmitoyl protein thioesterase 1 protects against apoptosis mediated by Ras-Akt-caspase pathway in neuroblastoma cells. 1073 4
Although the CLN3 gene associated with the disease process in subjects with the juvenile form of
neuronal ceroid lipofuscinosis
was discovered in 1995, our knowledge of the physiological function of its gene product, CLN3 protein, is still incomplete. To gain more insight into the structural properties and function of CLN3 protein we studied at present: i) how the naturally occurring point mutations Arg334Cys and Leu101Pro affect the biological properties of CLN3 protein, and ii) whether depletion of CLN3 protein synthesis by using an antisense approach induces a distinct phenotype in cells of neuronal origin in vitro. Here we report that although both CLN3 mutant proteins are targeted to lysosomes, thus similar to wild-type CLN3 protein, they are devoid of the biological activity of wild-type CLN3 protein such as its effect on lysosomal pH or intracellular processing of amyloid-beta protein precursor and cathepsin D in vitro. The Leu101Pro mutation affected significantly the maturation and stability of CLN3 protein. The Arg334Cys mutation influenced mildly the maturation and turnover of CLN3 protein, but at the same time abolished the function of CLN3 protein in vitro, which suggests that the Arg334 may constitute a part of the active site of CLN3 protein. In addition, we show that depletion of CLN3 protein synthesis in human
neuroblastoma
cells in vitro induces outgrowth of long cellular processes and formation of cellular aggregates and affects the viability of these cells. This finding suggests that CLN3 protein is implicated in biological processes associated with the differentiation of cells of neuronal origin.
...
PMID:CLN3 disease process: missense point mutations and protein depletion in vitro. 1158 14
Juvenile neuronal
ceroid-lipofuscinosis
(JNCL) or Batten/Spielmeyer-Vogt-Sjogren disease (OMIM #204200) is one of a group of nine clinically related inherited neurodegenerative disorders (CLN1-9). JNCL results from mutations in CLN3 on chromosome 16p12.1. The neuronal loss in Batten disease has been shown to be due to a combination of apoptosis and autophagy suggesting that CLN3P, the defective protein, may have an anti-neuronal death function. PANDER (PANcreatic-DERived factor) is a novel cytokine that was recently cloned from pancreatic islet cells. PANDER is specifically expressed in the pancreatic islets, small intestine, testis, prostate, and neurons of the central nervous system, and has been demonstrated to induce apoptosis. In this study, we over-expressed CLN3P in SH-SY5Y
neuroblastoma
cells and monitored the effects on PANDER-induced apoptosis. CLN3P significantly increased the survival rate of the SH-SY5Y cells in this system. This study provides additional evidence that the function of CLN3P is related to preventing neuronal apoptosis.
...
PMID:Over-expression of CLN3P, the Batten disease protein, inhibits PANDER-induced apoptosis in neuroblastoma cells: further evidence that CLN3P has anti-apoptotic properties. 1651 73
CLN1 disease (OMIM #256730) is an early childhood
ceroid-lipofuscinosis
associated with mutated
CLN1
, whose product Palmitoyl-Protein Thioesterase 1 (PPT1) is a lysosomal enzyme involved in the removal of palmitate residues from S-acylated proteins. In neurons, PPT1 expression is also linked to synaptic compartments. The aim of this study was to unravel molecular signatures connected to
CLN1
. We utilized SH-SY5Y
neuroblastoma
cells overexpressing wild type
CLN1
(SH-p.wtCLN1) and five selected CLN1 patients' mutations. The cellular distribution of wtPPT1 was consistent with regular processing of endogenous protein, partially detected inside Lysosomal Associated Membrane Protein 2 (LAMP2) positive vesicles, while the mutants displayed more diffuse cytoplasmic pattern. Transcriptomic profiling revealed 802 differentially expressed genes (DEGs) in SH-p.wtCLN1 (as compared to empty-vector transfected cells), whereas the number of DEGs detected in the two mutants (p.L222P and p.M57Nfs*45) was significantly lower. Bioinformatic scrutiny linked DEGs with neurite formation and neuronal transmission. Specifically, neuritogenesis and proliferation of neuronal processes were predicted to be hampered in the wt
CLN1
overexpressing cell line, and these findings were corroborated by morphological investigations. Palmitoylation survey identified 113 palmitoylated protein-encoding genes in SH-p.wtCLN1, including 25 ones simultaneously assigned to axonal growth and synaptic compartments. A remarkable decrease in the expression of palmitoylated proteins, functionally related to axonal elongation (GAP43, CRMP1 and NEFM) and of the synaptic marker SNAP25, specifically in SH-p.wtCLN1 cells was confirmed by immunoblotting. Subsequent, bioinformatic network survey of DEGs assigned to the synaptic annotations linked 81 DEGs, including 23 ones encoding for palmitoylated proteins. Results obtained in this experimental setting outlined two affected functional modules (connected to the axonal and synaptic compartments), which can be associated with an altered gene dosage of wt
CLN1
. Moreover, these modules were interrelated with the pathological effects associated with loss of PPT1 function, similarly as observed in the
Ppt1
knockout mice and patients with CLN1 disease.
...
PMID:The Networks of Genes Encoding Palmitoylated Proteins in Axonal and Synaptic Compartments Are Affected in PPT1 Overexpressing Neuronal-Like Cells. 2887 21
