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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To characterize the putative biochemical modifications induced by the Ser 460 to Pro (Heerlen) mutation in protein S (PS), we expressed both wild-type (wt) and mutated recombinant PS in
HEK
cells. In SDS-polyacrylamide gels, r-PS Heerlen migrated at 71 kDa whereas r-wt PS migrated at 73 kDa, a difference abolished after deglycosylation by N-glycosidase, suggesting that the Ser 460 Pro mutation abolishes N-glycosylation of Asn 458. The affinity of r-wt PS and r-PS Heerlen for C4b-binding protein (C4b-BP) and for phospholipid vesicles was similar. Neither the enhancement of
APC
-dependent prolongation of the APTT, nor the specific enhancement of FVa and FVIIIa proteolysis by
APC
in purified systems was affected by the mutation. However, the Ser 460 Pro mutation induced a slight conformational change in the SHBG domain of the PS molecule, as shown by reduced binding affinity for monoclonal antibodies. The type III phenotype associated with the Heerlen mutation might thus result from a slightly modified rate of synthesis or catabolism. The resulting moderate decrease in the circulating PS concentration may modify the equilibrium between free PS and C4b-BP/PS complexes.
...
PMID:Expression and characterization of recombinant protein S with the Ser 460 Pro mutation. 1105 20
The BAC and
PAC
cloning systems allow investigators to propagate large genomic DNA fragments up to 300 kb in size in E. colicells. We describe a new
PAC
shuttle vector that can be propagated in both bacterial and human cells. Specifically, the P1 cloning vector pAd10sacBII was modified by the insertion of a puromycin-resistance gene (pac), the Epstein-Barr Virus (EBV) latent replication origin oriP,and the EBV EBNA1 gene. Transfection studies in
HEK
293 cells demonstrated that the modified vector was stably maintained as an episome for at least 30 generations. And since pJCPAC-Mam1 contains a loxP site, genomic DNA cloned into this vector can be subjected to loxP-Cre -mediated deletion events. The transposon vector pTnPGKpuro/loxP was modified to make this system amenable to propagation in human cells by inserting pac, oriP, and EBNA1 elements into the vector (Chatterjee, P.K., Coren, J.C., 1997. Isolating large nested deletions in PACs and BACs by in vivo selection of P1 headful-packaged products of Cre-catalyzed recombination between the loxP site in
PAC
and BAC and one introduced in transposition. NAR 25, 2205-2212.). pTnPGKpuro/loxP-EBV was then used to generate deletions in an individual library member to demonstrate that all of the deletions still contain the required eukaryotic elements and that they were nested. All library members constructed in pJCPAC-Mam1 can be directly transformed into human cells to assess function. And the deletion technology can be used to aid in delineating the boundaries of genes and other cis-acting elements.
...
PMID:Construction of a PAC vector system for the propagation of genomic DNA in bacterial and mammalian cells and subsequent generation of nested deletions in individual library members. 1124 73
CaMCs (calcium-dependent mitochondrial carriers) represent a novel subfamily of metabolite carriers of mitochondria. The ATP-Mg/P(i) co-transporter, functionally characterized more than 20 years ago, has been identified to be a CaMC member. There are three isoforms of the ATP-Mg/P(i) carrier in mammals, SCaMC-1 (short CaMC-1), -2 and -3 (or
APC
-1, -3 and -2 respectively), corresponding to the genes SLC25A24, SLC25A25 and SLC25A23 respectively, as well as six N-terminal variants generated by alternative splicing for SCaMC-1 and -2 isoforms. In the present study, we describe four new variants of human SCaMC-3 generated by alternative splicing. The new mRNAs use the exon 9 3'-donor site and distinct 5'-acceptor sites from repetitive elements, in regions downstream of exon 10, the last exon in all SCaMCs. Transcripts lacking exon 10 (SCaMC-3b, -3b', -3c and -3d) code for shortened proteins lacking the last transmembrane domain of 422, 456 and 435 amino acids, and were found in human tissues and
HEK
-293T cells. Mitochondrial targeting of overexpressed SCaMC-3 variants is incomplete. Surprisingly, the import impairment is overcome by removing the N-terminal extension of these proteins, suggesting that the hydrophilic N-terminal domain also participates in the mitochondrial import process, as shown for the CaMC members aralar and citrin [Roesch, Hynds, Varga, Tranebjaerg and Koehler (2004) Hum. Mol. Genet. 13, 2101-2111].
...
PMID:Novel variants of human SCaMC-3, an isoform of the ATP-Mg/P(i) mitochondrial carrier, generated by alternative splicing from 3'-flanking transposable elements. 1580 5
There is an emerging body of evidence implicating iron in carcinogenesis and in particular colorectal cancer, but whether this involves Wnt signalling, a major oncogenic signalling pathway has not been studied. We aimed to determine the effect of iron loading on Wnt signalling using mutant
APC
(Caco-2 and SW480) and wild-type
APC
(
HEK
-293 and human primary fibroblasts) containing cell lines. Elevating cellular iron levels in Caco-2 and SW480 cells caused increased Wnt signalling as indicated by increased TOPFLASH reporter activity, increased mRNA expression of two known targets, c-myc and Nkd1, and increased cellular proliferation. In contrast wild-type
APC
and beta-catenin-containing lines,
HEK
293 and human primary fibroblasts were not responsive to iron loading. This was verified in SW480 cells that no longer induced iron-mediated Wnt signalling when transfected with wild-type
APC
. The cell line LS174T, wild type for
APC
but mutant for beta-catenin, was also responsive suggesting that the role of iron is to regulate beta-catenin. Furthermore, we show that E-cadherin status has no influence on iron-mediated Wnt signalling. We thus speculate that excess iron could exacerbate tumorigenesis in the background of
APC
loss, a common finding in cancers.
...
PMID:A role for iron in Wnt signalling. 1770 May 30
Cdc20 is a co-activator of the anaphase-promoting complex/cyclosome (
APC
/C complex), which recruits substrates at particular phases of the cell cycle and mediates their degradation. Sp100 is a PML-NB scaffold protein, which localizes to nuclear particles during interphase and disperses from them during mitosis, participates in viral resistance, transcriptional regulation, and apoptosis. However, its metabolism during the cell cycle has not yet been fully characterized. We found a putative D-box in Sp100 using the Eukaryotic Linear Motif (ELM) predictor database. The putative D-box of Sp100 was verified by mutational analysis. Overexpression of Cdc20 resulted in decreased levels of both endogenous Sp100 protein and overexpressed Sp100 mRNA in
HEK
293 cells. Only an overexpressed D-box deletion mutant of Sp100 accumulated in HEK293 cells that also overexpressed Cdc20. Cdc20 knockdown by cdc20 specific siRNA resulted in increased Sp100 protein levels in cells. Furthermore, we discovered that the Cdc20 mediated degradation of Sp100 is diminished by the proteasome inhibitor MG132, which suggests that the ubiquitination pathway is involved in this process. However, unlike the other Cdc20 substrates, which display oscillating protein levels, the level of Sp100 protein remains constant throughout the cell cycle. Additionally, both overexpression and knockdown of endogenous Sp100 had no effect on the cell cycle. Our results suggested that sp100 is a novel substrate of Cdc20 and it is degraded by the ubiquitination pathway. The intact D-box of Sp100 was necessary for this process. These findings expand our knowledge of both Sp100 and Cdc20 as well as their role in ubiquitination.
...
PMID:Cdc20 mediates D-box-dependent degradation of Sp100. 2208 78
