Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05109 (S100A8)
 1,212 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Smads, signal transducers of the transforming growth factor-beta (TGF-beta) superfamily proteins, directly bind to DNA and regulate transcription of target genes. Smad3 binds to CAGA box, whereas Smad1 and Smad5 preferentially bind to GC-rich sequences. The beta-hairpin loop in the amino-terminal Mad homology 1 (MH1) domain is the direct DNA-binding site of Smad3; however, the amino acid sequences of the beta-hairpin loop of Smad3 and Smad1/5 are identical, suggesting that other regions may be responsible for the differential DNA binding of Smad3 and Smad1/5. To identify regions other than the beta-hairpin loop responsible for specific DNA binding of Smad3, we generated chimeras containing various regions of Smad3 and Smad1. Luciferase assays using a TGF-beta-responsive reporter (CAGA)9-MLP-Luc and gel-mobility shift assays using 3xCAGA as a probe revealed that alpha-helix 2 (H2) in the amino-terminal part of the MH1 domain plays an important role in specific DNA binding and transcriptional activation of Smad3. Luciferase assays using natural TGF-beta-responsive reporters also revealed the functional importance of H2 in the Smad3 MH1 domain in direct DNA binding. Smad3 thus binds to DNA directly through the beta-hairpin loop, and H2 supports specific DNA binding of Smad3.
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PMID:Alpha-helix 2 in the amino-terminal mad homology 1 domain is responsible for specific DNA binding of Smad3. 1138 74

Bone morphogenetic protein-7 (BMP7) is expressed in adult kidney and reduces renal fibrogenesis when given exogenously to rodents with experimental chronic nephropathies. In mesangial cells that regulate glomerular fibrosis in vivo, BMP7 inhibits transforming growth factor beta (TGF-beta)-driven fibrogenesis, primarily by preventing the TGF-beta-dependent down-regulation of matrix degradation and up-regulation of PAI-1. The signals and mechanisms of the BMP7 opposition to actions of TGF-beta are unknown. Here we show in mesangial cells that BMP7 reduces nuclear accumulation of Smad3 and blocks the transcriptional up-regulation of the TGF-beta/Smad3 target, CAGA-lux. Smad5 knock-down impairs the ability of BMP7 to interfere with the activation of CAGA-lux and the accumulation of PAI-1 by TGF-beta indicating that Smad5 is required. Smad5 knock-down also reduces the rise in Smad6 upon BMP7. Forced expression of smad5 (found to be the preferred BMP7-induced receptor-activated Smad signal in mesangial cells) or of smad6 mimics BMP7 in opposing the increase in transcriptional activation of PAI-1 and its secretion upon TGF-beta. This suggests a model for the BMP7-induced opposition to TGF-beta-dependent mesangial fibrogenesis requiring Smad5; the model involves the inhibitory Smad6 downstream of Smad5 as well as reduced availability of Smad3 in the nucleus. BMP7 does not require signaling through Erk1/2, p38, or JNK and does not utilize the TGF-beta transcriptional co-repressors Ski or SnoN in mesangial cells. These studies provide first insights into mechanisms through which BMP7 opposes TGF-beta-induced glomerular fibrogenesis.
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PMID:Bone morphogenetic protein-7 signals opposing transforming growth factor beta in mesangial cells. 1504 7

The aberrant expression of S100A8 and S100A9 is linked to nonresolving inflammation and ultimately to carcinogenesis, whereas the underlying mechanism that allows inflammation to progress to specific cancer types remains unknown. Here, we report that S100A8 was induced by inflammation and then promoted colorectal tumorigenesis downstream by activating Id3 (inhibitor of differentiation 3). Using gene expression profiling and immunohistochemistry, we found that both S100A8 and S100A9 were upregulated in the chemically-induced colitis-associated cancer mouse model and in human colorectal cancer specimens. Furthermore, we showed that S100A8 and S100A9 acted as chemoattractant proteins by recruiting macrophages, promoting the proliferation and invasion of colon cancer cell, as well as spurring the cycle that culminates in the acceleration of cancer metastasis in a nude mouse model. S100A8 regulated colon cancer cell cycle and proliferation by inducing Id3 expression while inhibiting p21. Id3 expression was regulated by Smad5, which was directly phosphorylated by Akt1. Our study revealed a novel mechanism in which inflammation-induced S100A8 promoted colorectal tumorigenesis by acting upstream to activate the Akt1-Smad5-Id3 axis.
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PMID:Inflammation-induced S100A8 activates Id3 and promotes colorectal tumorigenesis. 2613 67