Kuiru Wei scite author profile

Low molecular mass amelogenin-related polypeptides extracted from mineralized dentin have the ability to affect the differentiation pathway of embryonic muscle fibroblasts in culture and lead to the formation of mineralized matrix in in vivo implants. The objective of the present study was to determine whether the bioactive peptides could have been amelogenin protein degradation products or specific amelogenin gene splice products. Thus, the splice products were prepared, and their activities were determined in vitro and in vivo. A rat incisor tooth odontoblast pulp cDNA library was screened using probes based on the peptide amino acid sequencing data. Two specific cDNAs comprised from amelogenin gene exons 2,3,4,5,6d,7 and 2,3,5,6d,7 were identified. The corresponding recombinant proteins,

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Identification of the Chondrogenic-inducing Activity from Bovine Dentin (bCIA) as a Low-molecular-mass Amelogenin Polypeptide

Nebgen

Inoue

Sabsay

et al. 1999

J Dent Res

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Dentin extracellular matrix has been shown to contain components capable of inducing chondrogenesis and osteogenesis at ectopic sites when implanted in vivo, and chondrogenesis in cultures of embryonic muscle-derived fibroblasts (EMF) in vitro. The polypeptide responsible, called the chondrogenic-inducing agent (CIA), has been isolated from a 4.0-M guanidinium hydrochloride extract of demineralized bovine dentin matrix. Following Sephacryl S-100 chromatography, CIA activity was identified in fractions by assay for uptake of [35S]-SO4 into proteoglycan by the EMF after 24 hrs in culture. The active fraction induced the EMF to produce type II collagen mRNA and decrease production of type I collagen mRNA after 5 days in culture. The EMF + CIA, cultured for 4 to 7 wks, formed toluidine-blue- and alizarin-red-stainable nodules, indicative of chondrogenic induction. In vivo implants in rat muscle with collagen carrier produced ectopic bone after 7 wks. The CIA was brought to near-homogeneity by reverse-phase high-performance liquid chromatography, tested at each step by EMF [35S]-SO4-incorporation assays. The CIA components had masses in the ranges of 6000 to 10,000 Da by both mass spectroscopy and gel electrophoresis. The CIA amino acid composition, NH2-terminal, and internal amino acid sequences were determined. These data showed unequivocally that the CIA peptides were derived from bovine amelogenin. The peptides contain the amino-terminal portion of the bovine amelogenin. The presence of these chondrogenic/osteogenic amelogenin-polypeptides in dentin matrix leads us to hypothesize that they may be involved in epithelial-mesenchymal signaling during tooth development interactions-the first time a function has been indicated for these molecules.

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Properties of the (DSS)_n triplet repeat domain of rat dentin phosphophoryn

Veis

Wei²,

Sfeir³

et al. 1998

European J Oral Sciences

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Properties of the (DSS)., triplet repeat domain of rat dentin phosphophory11. Eur J Oral Sci 1998; 106 (suppl I ): 234 238. ·c,;, Eur J Oral Sci, 1998 Pho~phophoryns (PPs) are unique aspartic acid and phosphoserine-rich proteins present in a ll species of dentin. R at incisor odontoblast eDNA libraries contain messages encod ing severa l acidic phosphorylated. serine-rich proteins. At least two of these share a common C-terminal domain cod ing region sequence. The polypeptide seq uences in the N-te1minal direction immediately adjacent to tbe conserved C-termina l domains of these two proteins ( DMP2. DMP3) a re distinctly different. fn this domain, the DMP2 has extensive sequences of ( DSS ln repeats with 11 as large as 24. DMP3 has fewer and shorter triplet sequences, n = 3, 4. The major rat incisor PPs (90-95 kDa) probably have the ( DSS ), .,_ 1 . We. propose that the name phosphophoryn be reserved for the extracellular matrix proteins with these extended repeats . DMP I, a lth o ugh strongly acid ic, does not fit this category.[f the S residues are phosphorylated and 11 > 3, co nfo rmatio nal energy minimization computations show the ( DSS ln sequence to assume a unique extended structure with para ll el a rrays o f carboxylate and phosphate groups which may function as Ca 2+ ion interaction edges. The phosphorylation of recombinant DMP2 C-termina l domain by va ri ous kinases has been examined. The repeat domains are not direct substrates for the C K2-Iike kinases but the kinases act in concert, so that the phosphorylation is hierarchical, apparently controlled by the presence of specific interruptions between the triplet domains.

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Leukaemia‐related gene expression in bone marrow cells from patients with the preleukaemic disorder Shwachman–Diamond syndrome

Rujkijyanont¹,

Beyene

Wei³

et al. 2007

Br J Haematol

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SummaryShwachman-Diamond syndrome (SDS) is an inherited bone marrow failure disorder with cytopenia and a high propensity for myelodysplastic syndrome (MDS) and leukaemia, particularly acute myeloid leukaemia. The mechanism of leukaemogenesis in SDS is unknown. In accordance to the multi-hit theory of carcinogenesis, it is likely that several molecular and cellular hits occur before MDS/leukaemia become apparent. This study used oligonucleotide microarray to identify gene expression patterns, which were shown to be associated with leukaemogenesis, in marrow mononuclear cells of nine SDS patients without overt transformation compared to healthy controls. Among 154 known leukaemia-related genes, several oncogenes were found to be upregulated, including LARG, TAL1 and MLL, and of several tumour suppressor genes were downregulated, including DLEU1, RUNX1, FANCD2 and DKC1. Real time polymerase chain reaction confirmed statistically higher expression of LARG and TAL1 in SDS marrows. We conclude that SDS marrow mononuclear cells exhibit abnormal gene expression patterns, which might result in continuous stimulation favouring evolution or progression of malignant clones. Additional molecular and cytogenetic events are probably necessary for the malignant process to be irreversible and complete.

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Staurosporines decrease ORMDL proteins and enhance sphingomyelin synthesis resulting in depletion of plasmalemmal phosphatidylserine

Maekawa

Lee

Wei

et al. 2016

Sci Rep

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Accumulation of phosphatidylserine in the inner leaflet of the plasma membrane is a hallmark of eukaryotes. Sublethal levels of staurosporine and related compounds deplete phosphatidylserine from the plasma membrane and abrogate K-Ras signaling. Here, we report that low-dose staurosporine and related compounds increase sphingomyelin mass. Mass-spectrometry and metabolic tracer analysis revealed an increase in both the levels and rate of synthesis of sphingomyelin in response to sublethal staurosporine. Mechanistically, it was determined that the abundance of the ORMDL proteins, which negatively regulate serine-palmitoyltransferase, are decreased by low-dose staurosporine. Finally, inhibition of ceramide synthesis, and thus sphingomyelin, prevented the displacement of phosphatidylserine and cholesterol from the inner leaflet of the plasma membrane. The results establish that an optimal level of sphingomyelin is required to maintain the distribution of phosphatidylserine and cholesterol in the plasma membrane and further demonstrate a complex relationship between the trafficking of phosphatidylserine and sphingomyelin.

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Kuiru Wei

Specific Amelogenin Gene Splice Products Have Signaling Effects on Cells in Culture and in Implants in Vivo

Identification of the Chondrogenic-inducing Activity from Bovine Dentin (bCIA) as a Low-molecular-mass Amelogenin Polypeptide

Properties of the (DSS)_n triplet repeat domain of rat dentin phosphophoryn

Leukaemia‐related gene expression in bone marrow cells from patients with the preleukaemic disorder Shwachman–Diamond syndrome

Staurosporines decrease ORMDL proteins and enhance sphingomyelin synthesis resulting in depletion of plasmalemmal phosphatidylserine

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Kuiru Wei

Specific Amelogenin Gene Splice Products Have Signaling Effects on Cells in Culture and in Implants in Vivo

Identification of the Chondrogenic-inducing Activity from Bovine Dentin (bCIA) as a Low-molecular-mass Amelogenin Polypeptide

Properties of the (DSS)n triplet repeat domain of rat dentin phosphophoryn

Leukaemia‐related gene expression in bone marrow cells from patients with the preleukaemic disorder Shwachman–Diamond syndrome

Staurosporines decrease ORMDL proteins and enhance sphingomyelin synthesis resulting in depletion of plasmalemmal phosphatidylserine

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Product

Resources

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Properties of the (DSS)_n triplet repeat domain of rat dentin phosphophoryn