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Target Concepts:
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Query: UMLS:C0497406 (
overweight
)
26,365
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nitric oxide (NO) affects fatty acid synthesis and biogenesis of fatty acid consuming mitochondria. However, whether NO generated by the endothelial NO synthase isoform (eNOS) has significant impact on the synthesis and deposition of fat in liver remained unclear. We analyzed the quantity and distribution of mitochondria and fat in liver of wild-type (WT) mice and mice lacking eNOS (eNOS-KO). The livers of eNOS-KO mice contained tenfold more fat close (zone 1) and twenty fold more distal (zone 3) to the artery. The fat was deposited as droplets co-localized with mitochondria. Additionally, the livers of eNOS-KO mice contained 1.5-fold more homogenously distributed glycogen. No difference in the quantity of mitochondria was found between liver homogenates of eNOS-KO mice and WT animals. Mitochondria from liver homogenates of eNOS-KO mice exhibited a higher ratio of citrate synthase (CS) and
NADH
-cytochrome c oxidoreductase (KI+III) activity. We conclude that lack of eNOS-derived NO stimulates citrate- and lipid synthesis in liver thus contributing to the development of
overweight
. In support of this view, more visceral fat and 70% higher body weight was determined in one year old eNOS-KO mice in comparison to WT animals.
...
PMID:Impairment of endothelial nitric oxide synthase causes abnormal fat and glycogen deposition in liver. 1820 29
Human gut bacterial Na(+)-transporting
NADH
:ubiquinone reductase (NQR) sequence is associated with Alzheimer disease (AD). Here, Alzheimer disease-associated sequence (ADAS) is further characterized in cultured spore-forming
Clostridium sp
. Tryptophan and NQR substrate ubiquinone have common precursor chorismate in microbial shikimate pathway. Tryptophan-derived tryptamine presents in human diet and gut microbiome. Tryptamine inhibits tryptophanyl-tRNA synthetase (TrpRS) with consequent neurodegeneration in cell and animal models. Tryptophanyl-tRNA synthetase inhibition causes protein biosynthesis impairment similar to that revealed in AD. Tryptamine-induced TrpRS gene-dose reduction is associated with TrpRS protein deficiency and cell death. In animals, tryptamine treatment results in toxicity, weight gain, and prediabetes-related hypoglycemia. Sequence analysis of gut microbiome database reveals 89% to 100% ADAS nucleotide identity in American Indian (Cheyenne and Arapaho [C&A]) Oklahomans, of which ~93% being
overweight
or obese and 50% self-reporting type 2 diabetes (T2D). Alzheimer disease-associated sequence occurs in 10.8% of C&A vs 1.3% of healthy American population. This observation is of considerable interest because T2D links to AD and obesity. Alzheimer disease-associated sequence prevails in gut microbiome of colorectal cancer, which linked to AD. Metabolomics revealed that tryptamine, chorismate precursor quinate, and chorismate product 4-hydroxybenzoate (ubiquinone precursor) are significantly higher, while tryptophan-containing dipeptides are lower due to tRNA aminoacylation deficiency in C&A compared with non-native Oklahoman who showed no ADAS. Thus, gut microbial tryptamine overproduction correlates with ADAS occurrence. Antibiotic and diet additives induce ADAS and tryptamine. Mitogenic/cytotoxic tryptamine cause microbial and human cell death, gut dysbiosis, and consequent disruption of host-microbe homeostasis. Present analysis of 1246 participants from 17 human gut metagenomics studies revealed ADAS in cell death diseases.
...
PMID:Diet-Related Metabolic Perturbations of Gut Microbial Shikimate Pathway-Tryptamine-tRNA Aminoacylation-Protein Synthesis in Human Health and Disease. 3094 20
