Publications [#229600] of H. Frederik Nijhout
Papers Published
- Obeid, R; Hartmuth, K; Herrmann, W; Gortner, L; Rohrer, TR; Geisel, J; Reed, MC; Nijhout, HF, Blood biomarkers of methylation in Down syndrome and metabolic simulations using a mathematical model.,
Molecular nutrition & food research, vol. 56 no. 10
(October, 2012),
pp. 1582-1589, ISSN 1613-4133 [22930479], [doi]
(last updated on 2024/04/22)Abstract:
Scope
The study tests the metabolites of the methylation cycle in individuals with Down syndrome (DS) and applies a mathematical model in order to change this cycle by nutritional factors.Methods and results
We measured concentrations of the metabolites related to the methylation cycle in the blood of 35 young individuals with DS and 47 controls of comparable age. Moreover, we applied a mathematical model to learn more about the regulation of the methylation cycle in DS. Concentrations of cystathionine, cysteine, betaine, choline, dimethylglycine, S-adenosylhomocysteine (SAH), S-adenosylmethionine (SAM), and holotranscobalamin were significantly higher in DS compared to the controls. The median SAM/SAH ratio was lower in DS and that of methionine and reduced glutathione did not differ significantly between the groups. The mathematical model showed that enhanced methionine turnover and accelerated Hcy-remethylation might explain the shift in the methylation cycle in DS.Conclusion
In addition to the DS-related excess of cystathionine beta synthase (CBS) activity, increases in the activities of MS and betaine homocysteine methyl transferase, and in methionine input were necessary to account for the changes in metabolite levels observed in DS. A low-methionine diet might offer a perspective for reversing the metabolic imbalance in DS, but this awaits clinical investigations.Keywords:
Adolescent • Adult • Betaine • Biological Markers • Case-Control Studies • Child • Child, Preschool • Choline • Cystathionine • Cysteine • Down Syndrome • Female • Glutathione • Humans • Infant • Male • Methionine • Methylation • Models, Theoretical* • S-Adenosylhomocysteine • S-Adenosylmethionine • Sarcosine • Young Adult • analogs & derivatives • blood • blood*