The worldwide prevalence of neural tube defects (NTDs) has fallen noticeably during the past 30 years, but the specific etiology and causative mechanism of NTDs remain unknown. Since introduction of mandatory fortification of grains with folic acid, a further decrease in NTD prevalence has been reported in North America and other countries with large variations among ethnic subgroups. However, a significant portion of NTDs still persists. Population data suggest that women of childbearing age may not yet be adequately targeted, while the general population may be overfortified with folic acid. While an excessive folate intake may be associated with adverse effects, there remains uncertainty about the minimum effective folate intake and status required for NTD prevention, and the safe upper folate level. Besides folate, several other lifestyle and environmental factors as well as genetic variations may influence NTD development, possibly by affecting one-carbon metabolism and thus epigenetic events. In conclusion, mandatory folic acid fortification plays a significant part in the reduction of NTD prevalence, but possibly at a cost and with a portion of NTDs remaining. More effective preventive strategies require better understanding of the etiology of this group of birth defects.
Background Current cow milk production practices introduce considerable levels of pregnancy hormones into the milk. Humans are exposed to these hormones when cow milk is consumed, and this may explain the observed association between cow milk consumption and several hormone-sensitive cancers. Objectives The aim of the study was to evaluate whether cow milk consumption is associated with an increase in urinary excretion of sex steroid hormones and their metabolites in humans. Methods We conducted a randomized crossover intervention feeding experiment. A total of 109 postmenopausal women consumed 1 L of semiskimmed milk (1.5% fat) per day for 4 d and 1 L of whole milk (3.5% fat) per day for 4 d, intersected by 4-d wash-out periods. Sex steroid hormone levels were measured in 24-h urine samples collected at the end of each intervention and wash-out period. Results Estrogens, androgens, and progesterone were detected in the examined milk samples used for our intervention. Although a very high proportion of the estrogens were conjugated, only small proportions of the androgens and progesterone were conjugated. Milk consumption resulted in a significant increase in urinary estrone (E1) excretion, whereas estradiol (E2), estriol (E3), and 16ketoE2 excretion only increased after semiskimmed milk consumption. Urinary pregnanediol glucuronide excretion was not significantly affected. Conclusion Cow milk consumption increases urinary excretion of E1 in humans. Ingestion of semiskimmed milk appears also to raise E2, E3, and 16ketoE2 excretion, but future studies need to confirm these associations. This trial was registered at https://www.drks.de as DRKS00003377.
The stable transfection of the canine CD34(-) multipotent cell line DO64 with retroviral constructs containing the cDNA for the canine major histocompatibility complex (MHC) class II DR genes led to the cell clone DO64#14, which is characterized by malignant transformation and tumor growth in nonobese diabetic/severe combined immunodeficient (NOD/SCID) mice. The additional expression of p27(kip-1) in the transformed cell clone partially reversed the malignant phenotype. Because several proteins associated with lipid rafts are involved in signal transduction and because changes of lipid raft composition are linked to the pathogenesis of leukemias, raft-associated proteins in DO64 cells and the deduced transformed cell clones were compared using a proteomic approach. Raft-associated proteins were separated by two-dimensional electrophoresis and identified by MALDI-TOF-MS. Here we show that the stem cell line DO64 and the deduced cell clones can clearly be distinguished by differences in the expression of a number of raft-associated proteins, namely caveolin-1, flotillin- 1, vimentin, galectin-3, and glyceraldehyde-3-phosphate dehydrogenase. All identified proteins play an important role in cellular functions and may therefore participate in raft-mediated leukemic transformation. Therefore, our study suggests that the analysis of lipid raft protein composition may be useful for the identification of molecular markers of the transformation process.
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