Meng Teng Peh scite author profile

Background and Purpose Atherosclerosis is associated with reduced vascular hydrogen sulfide (H2S) biosynthesis. GYY4137 is a novel slow‐releasing H2S compound that may effectively mimic the time course of H2S release in vivo. However, it is not known whether GYY4137 affects atherosclerosis. Experimental Approach RAW 264.7 cells and human blood monocyte‐derived macrophages were incubated with oxidized low density lipoprotein (ox‐LDL) with/without GYY4137. ApoE−/− mice were fed a high‐fat diet for 4 weeks and administered GYY4137 for 30 days. Lipid and atherosclerotic lesions were measured by oil red O staining. Endothelium‐dependent relaxation was assessed in response to acetylcholine. Superoxide production was detected by dihydroethidium staining. Expression of mRNA and protein were evaluated by quantitative real‐time PCR and Western blot. Key Results GYY4137 inhibited ox‐LDL‐induced foam cell formation and cholesterol esterification in cultured cells. GYY4137 decreased the expression of lectin‐like ox‐LDL receptor‐1, iNOS, phosphorylated IκBα, NF‐κB, ICAM‐1, VCAM‐1 and chemokines, including CXCL2, CXCR4, CXCL10 and CCL17, but increased the scavenger protein CD36, in ox‐LDL‐treated RAW 264.7 cells. In vivo, GYY4137 decreased aortic atherosclerotic plaque formation and partially restored aortic endothelium‐dependent relaxation in apoE−/− mice. GYY4137 decreased ICAM‐1, TNF‐α and IL‐6 mRNA expression as well as superoxide (O2−) generation in aorta. In addition, GYY4137 increased aortic eNOS phosphorylation and expression of PI3K, enhanced Akt Ser473 phosphorylation and down‐regulated the expression of LOX‐1. Conclusion and Implications GYY4137 inhibits lipid accumulation induced by ox‐LDL in RAW 264.7 cells. In vivo, GYY4137 decreased vascular inflammation and oxidative stress, improved endothelial function and reduced atherosclerotic plaque formation in apoE−/− mice.

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A unique role for p53 in the regulation of M2 macrophage polarization

Li¹,

et al. 2014

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P53 is critically important in preventing oncogenesis but its role in inflammation in general and in the function of inflammatory macrophages in particular is not clear. Here, we show that bone marrow-derived macrophages exhibit endogenous p53 activity, which is increased when macrophages are polarized to the M2 (alternatively activated macrophage) subtype. This leads to reduced expression of M2 genes. Nutlin-3a, which destabilizes the p53/MDM2 (mouse double minute 2 homolog) complex, promotes p53 activation and further downregulates M2 gene expression. In contrast, increased expression of M2 genes was apparent in M2-polarized macrophages from p53-deficient and p53 mutant mice. Furthermore, we show, in mice, that p53 also regulates M2 polarization in peritoneal macrophages from interleukin-4-challenged animals and that nutlin-3a retards the development of tolerance to Escherichia coli lipopolysaccharide. P53 acts via transcriptional repression of expression of c-Myc (v-myc avian myelocytomatosis viral oncogene homolog) gene by directly associating with its promoter. These data establish a role for the p53/MDM2/c-MYC axis as a physiological 'brake' to the M2 polarization process. This work reveals a hitherto unknown role for p53 in macrophages, provides further insight into the complexities of macrophage plasticity and raises the possibility that p53-activating drugs, many of which are currently being trialled clinically, may have unforeseen effects on macrophage function. Macrophages have key roles in the response to stress, injury, infection and inflammation. The M1 (classically activated macrophages) are induced by lipopolysaccharide (LPS) and cytokines such as interferon-γ (IFNγ) and characterized by the expression of a wide range of proinflammatory genes. M2 (alternatively activated macrophages) are induced by T helper type 2 (Th2) cytokines such as interleukin-4 (IL4) and IL13 and express high levels of anti-inflammatory and tissue repair marker genes. M2 macrophages perform immunoregulatory functions including defense against infection, promotion of angiogenesis and wound healing. 1 Macrophages exist on a continuum between M1 and M2 subtypes undergoing dynamic changes between these different functional states depending on changes in their microenvironment. This 'plasticity' involves extensive changes in macrophage gene sets and provides the potential to develop drugs to manipulate the macrophage subtype. 2 As such, macrophage polarization, and its molecular basis, has been vigorously researched in recent years.P53 has a crucial role in cancer by controlling the expression of genes involved in apoptosis, cell cycle arrest, metabolism and DNA repair. 3 While inflammation is increasingly recognized as a factor in determining the predisposition to cancer, 4 the role of p53 in inflammation is not clear. Macrophages from p53 − / − mice produce increased quantities of proinflammatory cytokines in response to LPS, 5 while peritoneal macrophage count and susceptibility to lethal septic shock are increased in p53 − ...

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Hydrogen Sulfide Is an Endogenous Regulator of Aging in Caenorhabditis elegans

Qabazard

Gruber

et al. 2014

Antioxidants & Redox Signaling

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Effect of feeding a high fat diet on hydrogen sulfide (H2S) metabolism in the mouse

Peh

Anwar

et al. 2014

Nitric Oxide

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Hydrogen Sulfide Promotes Adipogenesis in 3T3L1 Cells

Tsai¹,

Peh²,

Wei

et al. 2015

PLoS ONE

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The effect of hydrogen sulfide (H2S) on differentiation of 3T3L1-derived adipocytes was examined. Endogenous H2S was increased after 3T3L1 differentiation. The expression of the H2S-synthesising enzymes, cystathionine γ-lyase (CSE), cystathionine β-synthase (CBS) and 3-mercaptopyruvate sulfurtransferase (3-MST), was increased in a time-dependent manner during 3T3L1 differentiation. Expression of genes associated with adipogenesis related genes including fatty acid binding protein 4 (FABP4/aP2), a key regulator of this process, was increased by GYY4137 (a slow-releasing H2S donor compound) and sodium hydrosulfide (NaHS, a classical H2S donor) but not by ZYJ1122 or time-expired NaHS. Furthermore expression of these genes were reduced by aminooxyacetic acid (AOAA, CBS inhibitor), DL-propargylglycine (PAG, CSE inhibitor) as well as by CSE small interference RNA (siCSE) and siCBS. The size and number of lipid droplets in mature adipocytes was significantly increased by both GYY4137 and NaHS, which also impaired the ability of CL316,243 (β3-agonist) to promote lipolysis in these cells. In contrast, AOAA and PAG had the opposite effect. Taken together, we show that the H2S-synthesising enzymes CBS, CSE and 3-MST are endogenously expressed during adipogenesis and that both endogenous and exogenous H2S modulate adipogenesis and adipocyte maturation.

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Meng Teng Peh

The hydrogen sulfide donor, GYY4137, exhibits anti‐atherosclerotic activity in high fat fed apolipoprotein E^−/− mice

A unique role for p53 in the regulation of M2 macrophage polarization

Hydrogen Sulfide Is an Endogenous Regulator of Aging in Caenorhabditis elegans

Effect of feeding a high fat diet on hydrogen sulfide (H2S) metabolism in the mouse

Hydrogen Sulfide Promotes Adipogenesis in 3T3L1 Cells

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Meng Teng Peh

The hydrogen sulfide donor, GYY4137, exhibits anti‐atherosclerotic activity in high fat fed apolipoprotein E−/− mice

A unique role for p53 in the regulation of M2 macrophage polarization

Hydrogen Sulfide Is an Endogenous Regulator of Aging in Caenorhabditis elegans

Effect of feeding a high fat diet on hydrogen sulfide (H2S) metabolism in the mouse

Hydrogen Sulfide Promotes Adipogenesis in 3T3L1 Cells

Contact Info

Product

Resources

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The hydrogen sulfide donor, GYY4137, exhibits anti‐atherosclerotic activity in high fat fed apolipoprotein E^−/− mice