H. Salem scite author profile

This article is available online at http://www.jlr.org among the most common is reduced triglyceride-rich lipoprotein (TRL) clearance by peripheral tissue. White adipose tissue (WAT) is a major regulator of TRL clearance, particularly in the postprandial state ( 2-6 ). Following a meal, dietary fat enters the circulation in the form of chylomicrons, TRL with apoB48. Effi cient clearance of chylomicrons by WAT requires three sequential steps: i ) the hydrolysis of chylomicrons by endothelial lipoprotein lipase (LPL); ii ) the uptake of LPL-generated nonesterifi ed fatty acid (NEFA) by underlying adipocytes; and iii ) the utilization or storage of NEFA ( 3, 5 ). Dietary TRL remnants and NEFA that are not cleared by peripheral tissue are then taken up by the liver for utilization and resecretion as VLDL (TRL with apoB100).Healthy WAT is able to respond promptly to postprandial signals, such as insulin increasing the hydrolysis of dietary TRL and the uptake and storage of generated NEFA, thus reestablishing the homeostasis in plasma lipids. The storage versus the release of TRL-generated NEFA in human subcutaneous WAT was reported to be almost absent in the fasting state, to increase to 100% 1 h after the ingestion of a meal, and to decrease to 10-30% 6 h after the meal ( 5 ). Accordingly, delayed plasma clearance of postprandial TRL by WAT is believed to increase the infl ux of dietary TRL remnants and NEFA into nonadipose peripheral tissues, including muscle, pancreas, and liver, inducing lipotoxicity and insulin resistance ( 6-8 ). In the liver, this also leads to increased synthesis and secretion of VLDL, which further reduces chylomicron clearance due to competitive binding to LPL ( 9-14 ). Altogether, this increases the plasma concentrations of apoB-lipoproteins, which is measured as plasma apoB and represents mostly LDL particles (>90%) ( 14-16 ). Dysfunctional WAT is thus Postprandial hypertriglyceridemia is an independent risk factor for cardiometabolic disease ( 1 ). Many factors have been implicated in the etiology of hyperlipidemia;

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White Adipose Tissue Apolipoprotein C-I Secretion in Relation to Delayed Plasma Clearance of Dietary Fat in Humans

Wassef

Salem

Bissonnette

et al. 2012

ATVB

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Objective-White adipose tissue (WAT) dysfunction is characterized by delayed clearance of dietary triglyceride-rich lipoproteins (TRL). We reported that apolipoprotein (apo) C-I, a transferable apolipoprotein that inhibits lipoprotein lipase activity when bound to TRL, was produced by a human adipocyte model. Thus, we aimed to determine whether increased WAT apoC-I secretion is related to delayed dietary fat clearance in humans. Methods and Results-After the ingestion of a 13 C-triolein-labeled high-fat meal, postmenopausal obese women with highfasting WAT apoC-I secretion (median >0.81 μmol/L per g/4 hours, n=9) had delayed postprandial plasma clearance of 13 C-triglyceride and 13 C-nonesterified fatty acids over 6 hours compared with controls. WAT apoC-I secretion over 4 hours correlated with fasting total and non-high-density lipoprotein apoC-I but not with high-density lipoprotein apoC-I and was the primary predictor of 4-hour postprandial increases in TRL apoC-I. Correction for TRL apoC-I eliminated the association of WAT apoC-I with 6-hour area under the curve of plasma 13 C-triglyceride; correction for insulin sensitivity or inflammation did not. Finally, in addition to apoC-I, WAT secreted considerable amount of apoC-II, apoC-III, and apoE over 24 hours; however, only WAT apoC-I secretion was associated with 6-hour area under the curve of plasma 13 C-triglyceride. Conclusion-Increased

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Protective role of pectin against cadmium-induced testicular toxicity and oxidative stress in rats

Koriem

Fathi

Salem³

et al. 2013

Toxicology Mechanisms and Methods

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Cadmium has been classified as an environmental pollutant and human carcinogen. Pectin is a family of complex polysaccharides that function as hydrating agents and cementing materials for the cellulosic network. The aim of this study was to evaluate the protective role of pectin against cadmium-induced testicular toxicity and oxidative stress in rats. Forty male Wistar rats were divided into five equal groups. Groups 1 and 2 were injected intraperitoneally (i.p.) saline (1 mg/kg) and pectin (50 mg/kg), respectively, two days/weeks over three weeks period. Groups 3-5 were injected i.p. with 1 mg/kg cadmium two days/week while groups 4 and 5 co-administrated i.p. with 25 and 50 mg/kg pectin, respectively, three days/week over three weeks period. The results of the present work revealed that cadmium-exposed rats showed decrease in serum testosterone, dehydroepiandrosterone sulfate and lactate dehydrogenase. Testicular cholesterol, total protein, glucose-6-phosphate dehydrogenase, 3β-hydroxysteroid dehydrogenase, superoxide dismutase, glutathione peroxidase, catalase, glutathione S-transferase and reduced glutathione levels were also decreased while testicular malondialdehyde level was increased after cadmium injection. On the other hand, serum luteinizing hormone, follicle stimulating hormone, sex hormone binding globulin and γ-glutamyl transpeptidase were increased after cadmium exposure. Cadmium also induced sperms loss. Co-administration of pectin with cadmium restores all the above parameters and sperms to the normal levels where pectin at higher dose was more effective than lower one. These results were supported by histochemical investigations. In conclusion, pectin can counteract the testicular toxicity and oxidative stress induced by cadmium and the effect was dose-dependent.

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H. Salem

Low density lipoprotein delays clearance of triglyceride-rich lipoprotein by human subcutaneous adipose tissue

White Adipose Tissue Apolipoprotein C-I Secretion in Relation to Delayed Plasma Clearance of Dietary Fat in Humans

Protective role of pectin against cadmium-induced testicular toxicity and oxidative stress in rats

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