Betaine and Choline Improve Lipid Homeostasis in Obesity by Participation in Mitochondrial Oxidative Demethylation

Participation of ABCA1 transporter in development of chronic obstructive pulmonary disease

I P Pavlov Russian Medical Biological Herald ◽

10.23888/pavlovj2020283360-370 ◽

2020 ◽

Vol 28 (3) ◽

pp. 360-370

Author(s):

Stanislav N. Kotlyarov ◽

Anna A. Kotlyarova

Keyword(s):

Chronic Obstructive Pulmonary Disease ◽

Pulmonary Disease ◽

Significant Contribution ◽

Modern Medicine ◽

Lipid Homeostasis ◽

Chronic Obstructive ◽

Obstructive Pulmonary Disease ◽

Reverse Transport ◽

Current Paradigm

Despite all achievements of the modern medicine, the problem of chronic obstructive pulmonary disease (COPD) does not lose its relevance. The current paradigm suggests a key role of macrophages in inflammation in COPD. Macrophages are known to be heterogeneous in their functions. This heterogeneity is determined by their immunometabolic profile and also by peculiarities of lipid homeostasis of cells. Aim. To analyze the role of the ABCA1 transporter, a member of the ABC A subfamily, in the pathogenesis of COPD. The expression of ABCA1 in lung tissues is on the second place after the liver, which shows the important role of the carrier and of lipid homeostasis in the function of lungs. Analysis of the literature shows that participation of the transporter in inflammation consists in regulation of the content of cholesterol in the lipid rafts of the membranes, in phagocytosis and apoptosis. Conclusion. Through regulation of the process of reverse transport of cholesterol in macrophages of lungs, ABCA1 can change their inflammatory response, which makes a significant contribution to the pathogenesis of COPD.

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Faculty Opinions recommendation of Lymphotoxin beta receptor-dependent control of lipid homeostasis.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1080782.538834 ◽

2007 ◽

Author(s):

Larry Suva

Keyword(s):

Lipid Homeostasis ◽

Beta Receptor ◽

Lymphotoxin Beta Receptor

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Faculty Opinions recommendation of Structural basis for the transcriptional regulation of membrane lipid homeostasis.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.4916990.4847096 ◽

2010 ◽

Author(s):

Roy Lancaster ◽

Florian Müller

Keyword(s):

Transcriptional Regulation ◽

Membrane Lipid ◽

Lipid Homeostasis ◽

Structural Basis

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Faculty Opinions recommendation of Virulence of Agrobacterium tumefaciens requires lipid homeostasis mediated by the lysyl-phosphatidylglycerol hydrolase AcvB.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.734291575.793554580 ◽

2018 ◽

Author(s):

Vitaly Citovsky ◽

Benoît Lacroix

Keyword(s):

Agrobacterium Tumefaciens ◽

Lipid Homeostasis

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Nicotinamide Phosphoribosyltransferase Inhibitors Selectively Induce Apoptosis of AML Stem Cells by Disrupting Lipid Homeostasis

SSRN Electronic Journal ◽

10.2139/ssrn.3707266 ◽

2020 ◽

Author(s):

Amit Subedi ◽

Qiang Liu ◽

David Sharon ◽

Severine Cathelin ◽

Changjiang Xu ◽

...

Keyword(s):

Stem Cells ◽

Lipid Homeostasis ◽

Nicotinamide Phosphoribosyltransferase

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Evidence for an evolutionary relationship between Vmp1 and bacterial DedA proteins

The International Journal of Developmental Biology ◽

10.1387/ijdb.180312re ◽

2019 ◽

Vol 63 (1-2) ◽

pp. 67-71 ◽

Cited By ~ 3

Author(s):

Luis-Carlos Tábara ◽

Olivier Vincent ◽

Ricardo Escalante

Keyword(s):

Experimental Approach ◽

Functional Relationship ◽

Evolutionary Relationship ◽

Transmembrane Proteins ◽

Lipid Homeostasis ◽

Molecular Function ◽

Yeast Protein ◽

Glycine Residue ◽

Cellular Processes ◽

Domain Of Unknown Function

VMP1 and DedA proteins are conserved families of transmembrane proteins in eukaryotes and prokaryotes respectively. Despite numerous reports involving these proteins in multiple cellular processes, their molecular function is still unknown. They share the domain of unknown function PF09335, suggesting a possible functional relationship between these protein families. Here we show that VMP1 from different species contain two short motifs conserved in the bacterial DedA proteins and the yeast protein Tvp38. The hallmark of one of these motifs is a glycine residue previously shown to be strictly conserved in all the DedA proteins. Substitution of this residue to leucine, glutamate or arginine in Dictyostelium Vmp1 inactivates the protein, as shown by the inability of the mutants to rescue the phenotypes associated with the lack of Vmp1 including development and lipid homeostasis. This is the first experimental approach that supports an evolutionary relationship between Vmp1 and DedA proteins and highlights the importance of the conserved glycine residue in the PF09335 domain.

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Inhibition of the TPNH-linked lipid peroxidation of liver microsomes by drugs undergoing oxidative demethylation

Biochemical and Biophysical Research Communications ◽

10.1016/s0006-291x(64)80005-x ◽

1964 ◽

Vol 14 (4) ◽

pp. 329-334 ◽

Cited By ~ 150

Author(s):

Stan Orrenius ◽

Gustav Dallner ◽

Lars Ernster

Keyword(s):

Lipid Peroxidation ◽

Liver Microsomes ◽

Oxidative Demethylation

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The dichotomy between nitration of substituted 1,4-dimethoxybenzenes and formation of corresponding 1,4-benzoquinones by using nitric and sulfuric acid

Journal of Chemical Research ◽

10.3184/030823400103166788 ◽

2000 ◽

Vol 2000 (3) ◽

pp. 106-107 ◽

Cited By ~ 3

Author(s):

C. Waterlot ◽

B. Haskiak ◽

D. Couturier

Keyword(s):

Sulfuric Acid ◽

Nitric Acid ◽

Oxidative Demethylation

Various alkyl-substituted p-dimethoxybenzenes (ArH) react readily with nitric acid and sulfuric to form nitro-products (ArNO2). When the nitric acid is used in excess, the nitro-product react via either nitration to dinitro-compound (Ar(NO2)2) or via oxidative demethylation to nitro- p-quinone (Q). As such, the competition between the nitration, polynitration and oxidative dealkylation is effectively modulated by the added nitric acid and the alkyl-substituted p-dimethoxybenzenes.

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Lipids, lysosomes and mitochondria: insights into Lewy body formation from rare monogenic disorders

Acta Neuropathologica ◽

10.1007/s00401-021-02266-7 ◽

2021 ◽

Cited By ~ 1

Author(s):

Daniel Erskine ◽

David Koss ◽

Viktor I. Korolchuk ◽

Tiago F. Outeiro ◽

Johannes Attems ◽

...

Keyword(s):

Parkinson’S Disease ◽

Parkinson's Disease ◽

Lewy Bodies ◽

Mitochondrial Diseases ◽

Model Systems ◽

Lipid Homeostasis ◽

Lysosomal Storage ◽

Iron Storage ◽

Monogenic Disorders ◽

Storage Disorders

AbstractAccumulation of the protein α-synuclein into insoluble intracellular deposits termed Lewy bodies (LBs) is the characteristic neuropathological feature of LB diseases, such as Parkinson’s disease (PD), Parkinson’s disease dementia (PDD) and dementia with LB (DLB). α-Synuclein aggregation is thought to be a critical pathogenic event in the aetiology of LB disease, based on genetic analyses, fundamental studies using model systems, and the observation of LB pathology in post-mortem tissue. However, some monogenic disorders not traditionally characterised as synucleinopathies, such as lysosomal storage disorders, iron storage disorders and mitochondrial diseases, appear disproportionately vulnerable to the deposition of LBs, perhaps suggesting the process of LB formation may be a result of processes perturbed as a result of these conditions. The present review discusses biological pathways common to monogenic disorders associated with LB formation, identifying catabolic processes, particularly related to lipid homeostasis, autophagy and mitochondrial function, as processes that could contribute to LB formation. These findings are discussed in the context of known mediators of α-synuclein aggregation, highlighting the potential influence of impairments to these processes in the aetiology of LB formation.

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