Puei Nam Tay scite author profile

Toll-like receptors (TLRs) are activated by microbial structures. To investigate the mechanisms of TLR activation, the 10 human TLRs were expressed as chimeras with the integrin K Kv and L L5 subunits. Co-expression of the K Kv-TLR and L L5-TLR chimeras in 293T cells generated 10 TLR homodimers, but only TLR4/4 could e¡ectively activate NF-U UB. TLR4 monomers also activated NF-U UB but it was enhanced upon homodimerization. The TLR homodimers showed di¡erential surface/intracellular expression. In TLR heterodimers, only TLR2/1 and TLR2/6 were potent in NF-U UB activation. NF-U UB activation by TLR2/1, TLR2/6 and the TLR4 monomer, but not TLR4/4, was completely inhibited by dominant negative MyD88, suggesting that TLR4 homodimers and monomers could activate NF-U UB through di¡erent mechanisms.

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Human ficolin: cDNA cloning, demonstration of peripheral blood leucocytes as the major site of synthesis and assignment of the gene to chromosome 9

Tay

Kon

et al. 1996

105

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Pig ficolins and a number of other proteins contain sequences that are homologous to the C-terminal halves of fibrinogen beta- and gamma-chains. To clone the cDNA for human ficolin, two degenerate oligonucleotide primers were synthesized, based on two stretches of protein sequence that were highly conserved among those proteins, and used for PCR with cDNA from a human uterus lambda gt11 library as a template. A PCR product with a predicted size of 300 bp was obtained and this was used to screen a uterus cDNA library. Of the positive clones isolated, two (U1 and U2), containing inserts of 1.7 and 1.1 kb respectively, were found to encode human ficolin. The cDNA-derived amino acid sequence of human ficolin has approx. 75% identity with, and a similar domain organization to, the two pig ficolin sequences, which are characterized by the presence of a leader peptide, a short N-terminal segment followed by a collagen-like region and then by a C-terminal fibrinogen-like domain. The 1.1 kb insert of clone U2 was used in Northern-blot analysis, and a very strong signal for a 1.4 kb mRNA species was detected in mRNA from human peripheral blood leucocytes. This showed that, despite the initial characterization of pig ficolin as a putative receptor on uterine cells for transforming growth factor beta 1, blood leucocytes are probably the major site of human ficolin synthesis. Much weaker signals of the same size were also detected in spleen, lung and thymus and may be due to the presence of tissue macrophages or trapped blood in these tissues. An mRNA species of approx. 1.3 kb in human liver also weakly hybridized to the U2 probe, indicating the presence of a sequence that was distinct from, but related to, ficolin. The gene for human ficolin has been mapped to chromosome 9.

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Deviation from major codons in the Toll‐like receptor genes is associated with low Toll‐like receptor expression

et al. 2004

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SummaryMicrobial structures activate Toll-like receptors (TLRs) and TLR-mediated cell signalling elicits and regulates host immunity. Most TLRs are poorly expressed but the underlying expression mechanism is not clear. Examination TLR sequences revealed that most human TLR genes deviated from using major human codons. CD14 resembles TLRs in sequence but its gene preferentially uses major codons. Indeed, CD14 expression on monocytes was higher than expression of TLR1 and TLR2. The TLR9 gene is abundant in major codons and it also showed higher expression than TLR1, TLR2 and TLR7 in transfected 293T cells. Change of the 5 0 -end 302 base pairs of the TLR2 sequence into major human codons markedly increased TLR2 expression, which led to increased TLR2-mediated constitutive nuclear factor-jB activation. Change of the 5 0 -end 381 base pairs of the CD14 sequence into prevalent TLR codons markedly reduced CD14 expression. These results collectively show that the deviation of TLR sequences from using major codons dictates the low TLR expression and this may protect the host against excessive inflammation and tissue damages.

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Palladin, an actin-associated protein, is required for adherens junction formation and intercellular adhesion in HCT116 colorectal cancer cells

Tay

Tan²,

Lan³

et al. 2010

Int J Oncol

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Abstract. Palladin is a scaffold protein involved in the formation of actin-associated protein complexes. Gene expression array analysis on the poorly metastatic HCT116 colon cancer cell line and a metastatic derivative cell line (E1) with EMT (epithelial-mesenchymal transition) features showed a down-regulation of palladin gene expression in the latter. Knockdown of palladin expression in the HCT116 cells suppressed junctional localization of E-cadherin, reduced intercellular adhesion and collective cell migration, showing that palladin plays an important role in maintaining the integrity of adherens junctions. The acquisition of the EMT features by the E1 cell line was dependent on the Erk pathway. Inhibition of this pathway by U0126 treatment in E1 cells resulted in the re-expression of palladin, relocalization of E-cadherin to the adherens junctions and a reversal of EMT features. The re-establishment of intercellular adhesion was dependent on palladin expression. The down-regulation of palladin was also observed in poorly-differentiated tumor tubules and dissociated tumor cells that have undergone de-differentiation in human primary colon tumors. Our data show that palladin is an integral component of adherens junctions and plays a role in the localization of E-cadherin to the junctions. The loss of palladin may be an integral part of EMT, an early step in the metastatic spread of colon carcinoma.

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Puei Nam Tay

Integrin‐nucleated Toll‐like receptor (TLR) dimerization reveals subcellular targeting of TLRs and distinct mechanisms of TLR4 activation and signaling

Human ficolin: cDNA cloning, demonstration of peripheral blood leucocytes as the major site of synthesis and assignment of the gene to chromosome 9

Deviation from major codons in the Toll‐like receptor genes is associated with low Toll‐like receptor expression

Palladin, an actin-associated protein, is required for adherens junction formation and intercellular adhesion in HCT116 colorectal cancer cells

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