SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2092175020> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W2092175020 endingPage "1040" @default.
W2092175020 startingPage "1033" @default.
W2092175020 abstract "Vitamin B12 (cobalamin, cbl) is a cofactor of methionine synthase (MTR) in the synthesis of methionine, the precursor of the universal methyl donor S-Adenosylmethionine (SAM), which is involved in epigenomic regulatory mechanisms. We have established a neuronal cell model with stable expression of a transcobalamin–oleosin chimer and subsequent decreased cellular availability of vitamin B12, which produces reduced proliferation, increased apoptosis and accelerated differentiation through PP2A, NGF and TACE pathways. Anti-transcobalamin antibody or impaired transcobalamin receptor expression produce also impaired proliferation in other cells. Consistently, the transcription, protein expression and activity of MTR are increased in proliferating cells of skin and intestinal epitheliums, in rat intestine crypts and in proliferating CaCo2 cells, while MTR activity correlates with DNA methylation in rat intestine villi. Exposure to nitrous oxide in animal models identified impairment of MTR reaction as the most important metabolic cause of neurological manifestations of B12 deficiency. Early vitamin B12 and folate deprivation during gestation and lactation of a ‘dam-progeny’ rat model developed in our laboratory is associated with long-lasting disabilities of behavior and memory capacities, with persisting hallmarks related to increased apoptosis, impaired neurogenesis and altered plasticity. We found also an epigenomic deregulation of energy metabolism and fatty acids beta-oxidation in myocardium and liver, through imbalanced methylation/acetylation of PGC-1alpha and decreased expression of SIRT1. These nutrigenomic effects display similarities with the molecular mechanisms of fetal programming. Beside deficiency, B12 loading increases the expression of MTR through internal ribosome entry sites (IRES) and down-regulates MDR-1 gene expression. In conclusion, vitamin B12 influences cell proliferation, differentiation and apoptosis in brain. Vitamin B12 and folate combined deficiency impairs fatty acid oxidation and energy metabolism in liver and heart through epigenomic mechanisms related to imbalanced acetylation/methylation. Some but not all of these effects reflect the upstream role of vitamin B12 in SAM synthesis." @default.
W2092175020 created "2016-06-24" @default.
W2092175020 creator A5001331543 @default.
W2092175020 creator A5011563169 @default.
W2092175020 creator A5016241725 @default.
W2092175020 creator A5033155748 @default.
W2092175020 creator A5036238005 @default.
W2092175020 creator A5042347719 @default.
W2092175020 creator A5044630863 @default.
W2092175020 creator A5046481827 @default.
W2092175020 creator A5053954280 @default.
W2092175020 creator A5078573429 @default.
W2092175020 creator A5083993990 @default.
W2092175020 creator A5087179403 @default.
W2092175020 date "2013-05-01" @default.
W2092175020 modified "2023-10-18" @default.
W2092175020 title "Molecular and cellular effects of vitamin B12 in brain, myocardium and liver through its role as co-factor of methionine synthase" @default.
W2092175020 cites W1185701 @default.
W2092175020 cites W1563623332 @default.
W2092175020 cites W1965581424 @default.
W2092175020 cites W1967482469 @default.
W2092175020 cites W1969149505 @default.
W2092175020 cites W1971587609 @default.
W2092175020 cites W1971906572 @default.
W2092175020 cites W1978383101 @default.
W2092175020 cites W1979638914 @default.
W2092175020 cites W1985255311 @default.
W2092175020 cites W1985657039 @default.
W2092175020 cites W1985890854 @default.
W2092175020 cites W1988340664 @default.
W2092175020 cites W2002282944 @default.
W2092175020 cites W2003078245 @default.
W2092175020 cites W2005593436 @default.
W2092175020 cites W2005670659 @default.
W2092175020 cites W2007426167 @default.
W2092175020 cites W2008621578 @default.
W2092175020 cites W2009980468 @default.
W2092175020 cites W2014072118 @default.
W2092175020 cites W2015672941 @default.
W2092175020 cites W2016653286 @default.
W2092175020 cites W2018270192 @default.
W2092175020 cites W2018768907 @default.
W2092175020 cites W2023412638 @default.
W2092175020 cites W2023952336 @default.
W2092175020 cites W2030726285 @default.
W2092175020 cites W2030850371 @default.
W2092175020 cites W2035758490 @default.
W2092175020 cites W2037962963 @default.
W2092175020 cites W2048941941 @default.
W2092175020 cites W2050130395 @default.
W2092175020 cites W2053026149 @default.
W2092175020 cites W2058716305 @default.
W2092175020 cites W2061517440 @default.
W2092175020 cites W2080361134 @default.
W2092175020 cites W2086471361 @default.
W2092175020 cites W2088327542 @default.
W2092175020 cites W2094704484 @default.
W2092175020 cites W2100287564 @default.
W2092175020 cites W2105404724 @default.
W2092175020 cites W2110175071 @default.
W2092175020 cites W2122713435 @default.
W2092175020 cites W2123601052 @default.
W2092175020 cites W2138653044 @default.
W2092175020 cites W2139268683 @default.
W2092175020 cites W2143351258 @default.
W2092175020 cites W2148424975 @default.
W2092175020 cites W2148797266 @default.
W2092175020 cites W2149156931 @default.
W2092175020 cites W2151751314 @default.
W2092175020 cites W2159140433 @default.
W2092175020 cites W2167816725 @default.
W2092175020 cites W2169761177 @default.
W2092175020 cites W2405207817 @default.
W2092175020 cites W27754594 @default.
W2092175020 cites W3184321 @default.
W2092175020 cites W4323053703 @default.
W2092175020 doi "https://doi.org/10.1016/j.biochi.2013.01.020" @default.
W2092175020 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23415654" @default.
W2092175020 hasPublicationYear "2013" @default.
W2092175020 type Work @default.
W2092175020 sameAs 2092175020 @default.
W2092175020 citedByCount "67" @default.
W2092175020 countsByYear W20921750202012 @default.
W2092175020 countsByYear W20921750202013 @default.
W2092175020 countsByYear W20921750202014 @default.
W2092175020 countsByYear W20921750202015 @default.
W2092175020 countsByYear W20921750202016 @default.
W2092175020 countsByYear W20921750202017 @default.
W2092175020 countsByYear W20921750202018 @default.
W2092175020 countsByYear W20921750202019 @default.
W2092175020 countsByYear W20921750202020 @default.
W2092175020 countsByYear W20921750202021 @default.
W2092175020 countsByYear W20921750202022 @default.
W2092175020 countsByYear W20921750202023 @default.
W2092175020 crossrefType "journal-article" @default.
W2092175020 hasAuthorship W2092175020A5001331543 @default.
W2092175020 hasAuthorship W2092175020A5011563169 @default.
W2092175020 hasAuthorship W2092175020A5016241725 @default.