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Query: UMLS:C0596263 (
carcinogenesis
)
64,820
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hedgehog, WNT, FGF and BMP signaling pathways network together during embryogenesis, tissue regeneration, and
carcinogenesis
. Aberrant activation of Hedgehog signaling pathway leads to pathological consequences in a variety of human tumors, such as gastric cancer and pancreatic cancer. Endoscopic mucosal resection (EMR), endoscopic submucosal dissection (ESD), surgical gastrectomy and chemotherapy are therapeutic options for gastric cancer; however, prognosis of advanced gastric cancer patient is still poor. Here, Hedgehog signaling pathway in human gastric cancer and its clinical applications will be reviewed. Human SHH, IHH, DHH (Hedgehog homologs), HHAT (Hedgehog acyltransferase), HHIP (Hedgehog-interacting protein), DISP1, DISP2, DISP3 (Dispatched homologs), PTCH1, PTCH2 (Patched homologs), SMO (Smoothened homolog), KIF27, KIF7 (Costal-2 homologs), STK36 (Fused homolog), SUFU (SuFu homolog),
DZIP1
(Iguana homolog), GLI1, GLI2 and GLI3 (Cubitus interruptus homologs) are implicated in the Hedgehog signaling. PTCH1, FOXM1 and CCND2 are direct transcriptional targets of Hedgehog signaling. Hedgehog signaling activation leads to cell proliferation through cell cycle regulation. SHH regulates growth and differentiation within gastric mucosa through autocrine loop and FOXL1-mediated epithelial-mesenchymal interaction. SHH is implicated in stem/progenitor cell restitution of damaged gastric mucosa during chronic infection with Helicobacter pylori. SHH up-regulation, IHH upregulation and HHIP down-regulation lead to aberrant activation of Hedgehog signaling through PTCH1 to GLI1 in gastric cancer. Small molecule compounds targeted to SMO (KADD-cyclopamine, SANT1-4, Cur61414) as well as humanized anti-SHH antibodies are potent anti-cancer drugs for gastric cancer. Cocktail of Hedgehog inhibitors would be developed as novel therapeutics for gastric cancer. Single nucleotide polymorphism (SNP) and copy number polymorphism (CNP) of Hedgehog signaling genes would be utilized for genetic screening of gastric cancer, while cDNA-PCR, microarray and ELISA detecting aberrant Hedgehog signaling activation would be utilized for therapeutic optional choice. Genetic screening and precise selection of therapeutic options would contribute to the realization of personalized medicine.
...
PMID:Hedgehog signaling pathway and gastric cancer. 1625 56
Hedgehog and WNT signaling pathways network together during embryogenesis and
carcinogenesis
. Hedgehog signaling in intestinal epithelium represses canonical WNT signaling to restrict expression of WNT target genes to stem or progenitor cells; however, the mechanism remains unclear. The Hedgehog signal is transduced to GLI family transcription factors though Patched receptor, Smoothened signal transducer, and other signaling components, such as KIF27, KIF7, STK36, SUFU, and
DZIP1
. Here, we searched for the GLI-binding site within the promoter region of genes encoding secreted-type WNT signal inhibitors, including SFRP1, SFRP2, SFRP3, SFRP4, SFRP5, DKK1, DKK2, DKK3, DKK4, and WIF1. The GLI-binding site was identified within the human SFRP1 promoter based on bioinformatics and human intelligence. The chimpanzee SFRP1 gene was identified within the NW_110515.1 genome sequence. The GLI-binding site of the human SFRP1 promoter was conserved in chimpanzee SFRP1, mouse Sfrp1, and rat Sfrp1 promoters. SFRP1 is the evolutionarily conserved target of the Hedgehog-GLI signaling pathway. Expression domain analyses based on text mining revealed that Indian Hedgehog (IHH), SFRP1, and WNT6 are expressed in differentiated intestinal epithelial cells, mesenchymal cells, and stem/progenitor cells, respectively. Hedgehog is secreted from differentiated epithelial cells to induce SFRP1 expression in mesenchymal cells, which keeps differentiated epithelial cells away from the effects of canonical WNT signaling. These facts indicate that SFRP1 is the Hedgehog target to confine canonical WNT signaling within stem or progenitor cells. Therefore, epigenetic CpG hypermethylation of the SFRP1 promoter during chronic persistent inflammation and aging leads to the occurrence of gastrointestinal cancers, such as colorectal cancer and gastric cancer, through the breakdown of Hedgehog-dependent WNT signal inhibition.
...
PMID:WNT antagonist, SFRP1, is Hedgehog signaling target. 1632 26
Hedgehog, BMP/TGFbeta, FGF, WNT and Notch signaling pathways constitute the stem cell signaling network, which plays a key role in a variety of processes, such as embryogenesis, maintenance of adult tissue homeostasis, tissue repair during chronic persistent inflammation, and
carcinogenesis
. Sonic hedgehog (SHH), Indian hedgehog (IHH) and Desert hedgehog (DHH) bind to PTCH1/PTCH or PTCH2 receptor to release Smoothened (SMO) signal transducer from Patched-dependent suppression. SMO then activates STK36 serine/threonine kinase to stabilize GLI family members and to phosphorylate SUFU for nuclear accumulation of GLI. Hedgehog signaling activation leads to GLI-dependent transcriptional activation of target genes, such as GLI1, PTCH1, CCND2, FOXL1, JAG2 and SFRP1. GLI1-dependent positive feedback loop combined with PTCH1-dependent negative feedback loop gives rise to transient proliferation of Hedgehog target cells. Iguana homologs (
DZIP1
and DZIP1L) and Costal-2 homologs (KIF7 and KIF27) are identified by comparative integromics. SHH-dependent parietal cell proliferation is implicated in gastric mucosal repair during chronic Helicobacter pylori infection. BMP-RUNX3 signaling induces IHH expression in surface differentiated epithelial cells of stomach and intestine. Hedgehog signals from epithelial cells then induces FOXL1-mediated BMP4 upregulation in mesenchymal cells. Hedgehog signaling is frequently activated in esophageal cancer, gastric cancer and pancreatic cancer due to transcriptional upregulation of Hedgehog ligands and epigenetic silencing of HHIP1/HHIP gene, encoding the Hedgehog inhibitor. However, Hedgehog signaling is rarely activated in colorectal cancer due to negative regulation by the canonical WNT signaling pathway. Hedgehog signaling molecules or targets, such as SHH, IHH, HHIP1, PTCH1 and GLI1, are applied as biomarkers for cancer diagnostics, prognostics and therapeutics. Small-molecule inhibitors for SMO or STK36 are suitable to be used for treatment of Hedgehog-dependent cancer.
...
PMID:Hedgehog signaling pathway and gastrointestinal stem cell signaling network (review). 1708 4
Identification of tumor-suppressor genes (TSGs) silenced by aberrant methylation of promoter CpG islands (CGIs) is important, but hampered by a large number of genes methylated as passengers of
carcinogenesis
. To overcome this issue, we here took advantage of the fact that the vast majority of genes methylated in cancers lack, in normal cells, RNA polymerase II (Pol II) and have trimethylation of histone H3 lysine 27 (H3K27me3) in their promoter CGIs. First, we demonstrated that three of six known TSGs in breast cancer and two of three in colon cancer had Pol II and lacked H3K27me3 in normal cells, being outliers to the general rule. BRCA1, HOXA5, MLH1, and RASSF1A had high Pol II, but were expressed only at low levels in normal cells, and were unlikely to be identified as outliers by their expression statuses in normal cells. Then, using epigenome statuses (Pol II binding and H3K27me3) in normal cells, we made a genome-wide search for outliers in breast cancers, and identified 14 outlier promoter CGIs. Among these,
DZIP1
, FBN2, HOXA5, and HOXC9 were confirmed to be methylated in primary breast cancer samples. Knockdown of
DZIP1
in breast cancer cell lines led to increases of their growth, suggesting it to be a novel TSG. The outliers based on their epigenome statuses contained unique TSGs, including
DZIP1
, compared with those identified by the expression microarray data. These results showed that the epigenome-based outlier approach is capable of identifying a different set of TSGs, compared to the expression-based outlier approach.
...
PMID:Development of a novel approach, the epigenome-based outlier approach, to identify tumor-suppressor genes silenced by aberrant DNA methylation. 2243 12
