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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
CLN3
gene, associated with juvenile neuronal ceroid lipofuscinosis, encodes a novel protein of a predicted 438 amino acid residues. We have expressed a full-length CLN3 protein and fragments thereof in fusion with green fluorescent protein in Chinese hamster ovary and human
neuroblastoma
cell lines to study its subcellular localization and intracellular trafficking pattern. By using laser scanning confocal microscopy, we demonstrate that the full-length
CLN3
fusion protein is targeted to lysosomal compartments. Tunicamycin treatment did not alter the lysosomal targeting of the CLN3 protein, which indicates that extensive N-glycosylation of the full-length
CLN3
fusion protein is not engaged in its lysosomal sorting. Monensin produced retention of
CLN3
fusion protein in vesicular structure of the Golgi apparatus in the perinuclear space, suggesting that
CLN3
fusion protein is transported to the lysosomal compartments through the trans-Golgi cisternae. Neither of the truncated
CLN3
fusion proteins encompassing its 1-138, 1-322, and 138-438 amino acid residues was disclosed in lysosomal compartments. However,
CLN3
fusion protein showing double-point mutations at amino acid residues 425 and 426, thus at its putative dileucine lysosomal signaling motif, was still targeted to lysosomes, suggesting that a dileucine motif alone is not sufficient for lysosomal sorting of the
CLN3
fusion protein.
...
PMID:Analysis of intracellular distribution and trafficking of the CLN3 protein in fusion with the green fluorescent protein in vitro. 1019 Nov 13
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
Batten disease
is a neurodegenerative disease caused by accelerated apoptotic death of photoreceptors and neurons attributable to defects in the
CLN3
gene.
CLN3
is antiapoptotic when overexpressed in NT2 neuronal precursor cells.
CLN3
negatively modulates endogenous ceramide levels in NT2 cells and acts upstream of ceramide generation. Because defects in regulation of apoptosis are involved in the development of cancer, we evaluated the expression of
CLN3
on both mRNA and protein levels in a variety of cancer cell lines and solid colon cancer tissue. We also observed the effect of the blocking of CLN3 protein expression on cancer cell growth, survival, ceramide production, and apoptosis by using an adenovirus-bearing antisense
CLN3
construct. We show that
CLN3
mRNA and protein are overexpressed in glioblastoma (U-373G and T98g),
neuroblastoma
(IMR-32 and SK-N-MC), prostate (Du145, PC-3, and LNCaP), ovarian (SK-OV-3, SW626, and PA-1), breast (BT-20, BT-549, and BT-474), and colon (SW1116, SW480, and HCT 116) cancer cell lines but not in pancreatic (CAPAN and As-PC-1) or lung (A-549 and NCI-H520) cancer cell lines.
CLN3
is also up-regulated in mouse melanoma and breast carcinoma cancer cell lines. We found
CLN3
expression is 22-330% higher than in corresponding normal colon control tissue in 8 of 10 solid colon tumors. An adenovirus-expressing antisense
CLN3
(Ad-AS-CLN3) blocks CLN3 protein expression in DU-145, BT-20, SW1116, and T98g cancer cell lines as seen by Western blot. Blocking of
CLN3
expression using Ad-AS-
CLN3
inhibits growth and viability of cancer cells. It also causes elevation in endogenous ceramide production through de novo ceramide synthesis and results in increased apoptosis as shown by propidium iodide and JC-1 staining. This suggests that Ad-AS-
CLN3
may be an option for therapy in some cancers. More importantly these results suggest that
CLN3
is a novel molecular target for cancer drug discovery.
...
PMID:The CLN3 gene is a novel molecular target for cancer drug discovery. 1183 May 36
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
CLN3
disease (
Spielmeyer-Vogt
-Sjogren-
Batten disease
) is a severe pediatric neurodegenerative disorder for which there is currently no effective treatment. The disease is characterized by progressive neuronal death, which may be triggered by abnormal intracellular calcium levels leading to neuronal apoptosis. Previously, we demonstrated reversal of the calcium effect in a
neuroblastoma
cell line using amlodipine and other calcium channel antagonists. In the present studies, we developed a
CLN3
siRNA-inhibited primary rat neuron model to further study etoposide-induced calcium changes and apoptosis in
CLN3
disease followed by recovery experiments with amlodipine. Our results show that intracellular calcium is significantly elevated in siRNA-inhibited cortical neurons after potassium chloride-induced depolarization. We were also able to show that amlodipine, a predominantly L-type dihydropyrimidine calcium channel antagonist can reverse the aberrant calcium elevations in this model of the disease. We performed an in situ TUNEL assay following etoposide-exposure to siRNA inhibited primary neurons, and apoptotic nuclei were detected providing additional evidence that increased neuronal apoptosis is associated with increased calcium levels. Amlodipine also reduced the absolute number of apoptotic cells in this experimental model.
...
PMID:Amlodipine prevents apoptotic cell death by correction of elevated intracellular calcium in a primary neuronal model of Batten disease (CLN3 disease). 2376 28
