Low folate metabolic stress reprograms DNA methylation-activated sonic hedgehog signaling to mediate cancer stem cell-like signatures and invasive tumour stage-specific malignancy of human colorectal cancers.

The mechanistic role of colonic low folate metabolic stress (LFMS) in colorectal cancer (CRC) malignancy development remains unknown. Folate analysis on the 99 paired human CRC tissues localized LFMS to the deep invasive T3/T4 staged tumours with hypo-methylated sonic hedgehog (Shh) promoter region and amplified expressions of Shh ligand and Gli1 effector, which coincided with deregulated expressions of the epithelial-mesenchymal transition (EMT) mediators. Colonic folate levels of CRC were inversely correlated with pluripotent expressions of the SOX2, NANOG and OCT4 markers (p < 0.05). Exposure of human colon adenocarcinoma cells to LFMS microenvironment significantly hypomethylated Shh promoter region, activated Shh signaling, induced transcript and protein expressions of the pluripotent markers, promoted trans-differentiation as EMT by deregulation of Snail mediator and epithelial marker E-cadherin, increased MMP2/MMP9 enzymatic digestion on matrix protein for invasion, and promoted self-renewal capability of anchorage-independent tumor-spheroid formation. LFMS-induced cancer stem cell (CSC) signature and CRC invasion is synergized with inhibition of DNA methylation by 5-Aza-2-deoxycytidine (5AZA) in rewiring EMT genotypes, which can be blockade by the Shh inhibitor (cyclopamine). The in vivo and in vitro data corroboratively identify CSC-like molecular targets specific to the LFMS-predisposed invasive CRC through reprogramming DNA methylation-activated Shh signaling. The study highlights CSC targets specific to LFMS-predisposed invasive CRC in optimizing folate co-chemotherapy to minimize tumour metastasis potential of CRC patients.

Changes in dietary folate intake differentially affect oxidised lipid and mitochondrial DNA damage in various brain regions of rats in the absence/presence of intracerebroventricularly injected amyloid ß-peptide challenge.

Accumulating evidence suggests that changes in dietary folate intake may modulate the risks of Alzheimer's disease (AD) through as yet unknown mechanisms. The aims of the present study were to investigate how dietary folate affects the brain folate distribution, levels of oxidised lipid and DNA damage in the absence/presence of ß-amyloid(25-35) (Aß) peptide challenge, a pathogenic hallmark of AD. Male Wistar rats were assigned to diets with folic acid at 0 (folate deprivation; FD), 8 (moderate folate; MF) and 8 mg folic acid/kg diet+0·003 % in drinking-water (folate supplementation; FS) for 4 weeks. A single injection of Aß peptide (1 mg/ml) or the vehicle solution was intracerebroventricularly (icv) administrated to rats a week before killing. Brain folate, a marker of oxidative injury, and neuronal death were assayed. In the absence of an Aß injection, FD rats showed reduced folate levels, and increased 2-thiobarbituric acid-reactive substances and a mitochondrial (mt)DNA 4834 bp large deletion (mtDNA4834 deletion) in the hippocampus compared with the counterpart brains of control rats (P < 0·05). A single icv injection of Aß peptide potentiated lipid peroxidation in the medulla of FD rats, which was ameliorated by feeding FD rats with the MF and FS diets (P < 0·05). Feeding the FS diet to Aß-injected rats enriched brain folate levels and reduced mtDNA4834 deletion in the hippocampal and medullary regions compared with corresponding tissues of Aß+FD rats (P < 0·05). Aß+FS rats had reduced rates of neuronal death in the frontal cortex compared with Aß+FD rats (P < 0·05). Taken together, our data revealed that folate deprivation differentially depleted brain folate levels, and increased lipid peroxidation and mtDNA4834 deletions, particularly, in the hippocampus. Upon Aß challenge, the FS diet may protect various brain regions against lipid peroxidation, mitochondrial genotoxicity and neural death associated with folate deprivation.

The isolated and combined effects of folic acid and synthetic bioactive compounds against Abeta(25-35)-induced toxicity in human microglial cells.

Folic acid plays an important role in neuronal development. A series of newly synthesized bioactive compounds (NSCs) was reported to exhibit immunoactive and neuroprotective functions. The isolated and combined effects of folic acid and NSCs against beta-amyloid (Abeta)-induced cytotoxicity are poorly understood. These effects were tested using human microglia cells (C13NJ) subjected to Abeta(25-35) challenge. According to an MTT assay, treatment of C13NJ cells with Abeta(25-35) at 10-100 microM for 48 h induced 18%-43% cellular death in a dose-dependent manner (p < 0.05). Abeta(25-35) treatment at 25 microM induced nitrite oxide (NO) release, elevated superoxide production, and reduced the distribution of cells in the S phase. Preincubation of C13NJ with 100 microM folic acid protected against Abeta(25-35)-induced cell death, which coincided with a reduction in NO release by folic acid supplements. NSC47 at a level of 50 microM protected against Abeta(25-35)-induced cell death and reduced Abeta-promoted superoxide production (p < 0.05). Folic acid in combination with NSC47 at their cytoprotective doses did not synergistically ameliorate Abeta(25-35)-associated NO release, superoxide production, or cell cycle arrest. Taken together, folic acid or NSC treatment alone, but not the combined regimen, protected against Abeta(25-35)-induced cell death, which may partially, if not completely, be mediated by free radical-scavenging effects.

Elevated serum vitamin B(12) levels in association with tumor markers as the prognostic factors predictive for poor survival in patients with hepatocellular carcinoma.

Elevated blood vitamin B(12) (VitB(12)) level has recently been identified as a prognostic indicator for advanced cancer patients. The predictive value of blood VitB(12) for survival of patients with hepatocellular carcinoma (HCC) remains unclear. Our objective was to examine the determinants of elevated serum VitB(12) levels and their associations with prognosis of patients with HCC. The cohort study included 90 HCC patients who were consecutively admitted to the Chi-Mei Hospital, Taiwan, from April 2005 to December 2006. Nutrition and clinical pathological data were collected. Serum VitB(12) levels were determined by radioimmunoassay. Survival curves were calculated by the Kaplan-Meier method. Multivariate analysis of outcome predictors was assessed by Cox regression. Elevated serum VitB(12) levels of HCC patients were associated with reduced levels of albumin, hemoglobin, red blood cells count, and glutamate-pyruvate transaminase (GPT) (P < 0.05). Serum VitB(12) levels were positively correlated with alpha-fetal protein (AFP) levels (r = 0.623, P = 0.001) and tumor size (r = 0.630, P = 0.001; Table 3). By univariate analysis, survival was significantly worse in patients with elevated serum AFP (> 200 mu g/l) and VitB(12) levels (> 1,500 ng/l; P < 0.05). In multivariate analysis, both elevated AFP (> 200 vs. < 20; HR 4.4; CI = 1.9-10.3, P = 0.001) and VitB(12) levels (> 699 vs. < or = 699; HR = 2.88; CI = 1.26-6.6, P = 0.012) were found to be favorable predictive factors for HCC survival. This study shows that the determinants of elevated serum VitB(12) levels in HCC patients were in association with malnourishment, liver injuries, and tumor progression. Elevated VitB(12) levels in concurrence with AFP levels serve as the prognostic factors predictive for poor survival of HCC patients.