Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In metabolic disorders such as diabetes mellitus (DM) and obesity, renal abnormalities may also occur even when renal dysfunction is not be detected by conventional urinalysis. By use of immunological technique, an investigation was made on the subclinical abnormality in the excretion of urinary proteins in DM and obese (OB) subjects. Urinary excretion of the proteins (albumin, IgG, IgG4, beta 2-microglobulin) and fractional clearances (clearance ratios to creatinine clearance) at sitting position were respectively measured. Albumin excretion rate (AER) and fractional albumin clearance were higher in DM and OB than normal controls (NC). In non-diabetic subjects (OB+NC), body mass index (BMI) significantly positively correlated with AER and fractional albumin clearance. In DM, not only AER and fractional albumin clearance but also IgG4 excretion rate and fractional IgG4 clearance positively correlated with BMI. In DM with BMI less than 22 Kg/m2, HbA1C significantly correlated with AER, IgG4 excretion rate, and fractional albumin and IgG4 clearances. The data suggest that microproteinuria in DM and OB may be of glomerular origin. In DM, in the light of an increase in urinary excretion of negatively charged IgG4, it is also suggested that proteinuria is attributed to the alteration of charge barrier as well as to that of glomerular hemodynamics. Lastly but not least , obesity-related factor should also be taken into account in the development of microalbuminuria of the diabetic patient.
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PMID:[A study on microproteinuria among diabetic and obese subjects without clinically overt proteinuria]. 158 64

Nephrotic syndrome has been reported in obesity; its precise incidence in obese patients without diabetes mellitus and/or arterial hypertension is however unknown. Thirty-two obese subjects without complications were therefore assessed before and after weight loss, together with 18 healthy control subjects. Overnight albumin excretion rate (AER) was assessed using a RIA method (H. Albumin-Kit, Sclavo). Glomerular filtration rate (GFR) was also evaluated in 10 obese subjects using Cr51 before and after weight loss. AER was found to be higher, although the difference was not statistically significant, in obese subjects compared to controls, but was significantly reduced after weight loss (p = 0.05). GFR also showed a non-significant tendency to decrease following loss of weight. Systolic and diastolic blood pressures were significantly decreased following weight loss (p less than 0.01 and p less than 0.025 respectively). In conclusion, although it is not possible to confirm the presence of true nephropathy in uncomplicated obesity, the latter can facilitate the onset of hemodynamic-type mechanisms which, in the presence of diabetes mellitus or arterial hypertension, may lead to the appearance of the nephrotic syndrome.
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PMID:[Possible correlations between protein-loosing nephropathy and obesity]. 209 54

Physiologic changes associated with obesity and their effects on the distribution, protein binding, metabolism, and renal excretion of drugs are described. Changes in the volume of distribution correlate with drug lipophilicity. Drugs that have a high affinity for adipose tissue have an increased volume of distribution, whereas the distribution of drugs that have low partition coefficients is not altered substantially. Albumin and total protein concentrations are comparable in lean and obese subjects, but concentrations of alpha 1-acid glycoprotein are increased. Consequently, protein binding of acidic drugs is unchanged, but the free fraction of basic drugs may be decreased. Changes in hepatic drug clearance are complex. Phase 1 reactions and acetylation, a Phase 2 reaction, appear to be unaffected by obesity, but activity of Phase 2 glucuronidation and sulfation pathways is enhanced. Available physiologic and pharmacokinetic data on the effect of obesity on systemic clearance of highly extracted drugs are conflicting. Both glomerular filtration and tubular secretion appear to be increased in obese individuals, and tubular secretion may be disproportionately increased compared with filtration. Clearance of drugs that depend on glomerular filtration for elimination is consistently higher in obese subjects. Differences among patient populations, other conditions associated with obesity, and the small study populations described to date may account for some discrepancies in reported results. Awareness of the physiologic effects of obesity is essential for ensuring appropriate drug therapy in obese patients.
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PMID:Influence of obesity on drug disposition. 331 2

The unbound fraction of propranolol was found to vary from 1.9 to 13.2% in 434 plasma samples from members of 132 families. As expected, there was a linear correlation between the ratio of bound/unbound propranolol and the orosomucoid concentration (r = 0.67, P less than 0.001). Albumin concentration did not influence propranolol binding. The unbound fraction was negatively correlated with obesity and alcohol intake, but was not significantly influenced by age and sex. By applying path analysis, 21% of the variability in propranolol binding could be ascribed to genetic factors and 5% to common environmental factors.
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PMID:Family study of genetic and environmental factors determining the protein binding of propranolol. 665 36

Differential solute clearances were used to characterize glomerular function in 12 nondiabetic subjects with severe obesity (body mass index >38). Nine healthy subjects served as the control group. In the obese group, glomerular filtration rate (GFR) and renal plasma flow (RPF) exceeded the control value by 51 and 31%, respectively. Consequently, filtration fraction increased. The augmented RPF suggested a state of renal vasodilatation involving, mainly or solely, the afferent arteriole. Albumin excretion rate and fractional albumin clearance increased by 89 and 78%, respectively. Oral glucose tolerance tests were suggestive of insulin resistance. Insulin resistance was positively correlated with GFR (r = 0.88, P<0.001) and RPF (r = 0.72, P <0.001). Mean arterial pressure was higher than in the control group. Fractional clearances of dextrans of broad size distribution tended to be lowered. The determinants of the GFR were estimated qualitatively by using a theoretical model of dextran transport through a heteroporous membrane. This analysis suggests that the high GFR in very obese subjects may be the result of an increase in transcapillary hydraulic pressure difference (DeltaP). An abnormal transmission of increased arterial pressure to the glomerular capillaries through a dilated afferent arteriole could account for the augmentation in DeltaP.
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PMID:Glomerular hemodynamics in severe obesity. 1080 94

Severe obesity is associated with increased renal plasma flow (RPF) and glomerular filtration rate (GFR). The aim of the present study was to examine whether weight loss may reverse glomerular dysfunction in obese subjects without overt renal disease. Renal glomerular function was studied in eight subjects with severe obesity (body mass index [BMI] 48.0 +/- 2.4) before and after weight loss. Nine healthy subjects served as controls. GFR and RPF were determined by measuring inulin and PAH clearance. In the obese group, GFR (145 +/- 14 ml/min) and RPF (803 +/- 39 ml/min) exceeded the control value by 61% (90 +/- 5 ml/min, P = 0.001) and 32% (610 +/- 41 ml/min, P < 0.005), respectively. Consequently, filtration fraction was increased. Mean arterial pressure, although normal, was higher than in the control group (101 +/- 4 versus 86 +/- 2 mmHg, P < 0.01). After weight loss, BMI decreased by 32 +/- 4%, to 32.1 +/- 1.5 (P = 0.001). GFR and RPF decreased to 110 +/- 7 ml/min (P = 0.01) and 698 +/- 42 ml/min (P < 0.02), respectively. Albumin excretion rate decreased from 16 microg/min (range, 4 to 152 microg/min) to 5 microg/min (range, 3 to 37 microg/min) (P < 0.01). Fractional clearance of albumin decreased from 3.2 x 10(-6) (range, 1.1 to 23 x 10(-6)) to 1.2 x 10(-6) (range, 0.5 to 6.8 x 10(-6)) (P < 0.02). This study shows that obesity-related glomerular hyperfiltration ameliorates after weight loss. The improvement in hyperfiltration may prevent the development of overt obesity-related glomerulopathy.
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PMID:The effects of weight loss on renal function in patients with severe obesity. 1276 Dec 48

The Streptozotocin (STZ) model of diabetes is commonly used for studies of diabetic nephropathy although the histological lesions of the kidney are mild and do not resemble those seen in diabetic patients. The SHR/N-cp rat model of type II diabetes spontaneously develops pronounced abnormalities in renal histology. In the present study, we compared renal morphology in the STZ rat and the diabetic SHR/N-cp rat. Sprague-Dawley rats received STZ, developed diabetes after 2 days and were treated with insulin. In the SHR/N-cp rat, obesity is inherited as an autosomal recessive trait. The progeny are either lean (used as controls) or obese and diabetic. After 6 months of observation, STZ and SHR/N-cp rats were killed. The renal damage was evaluated by assessing damage indices and by using stereological techniques. In addition, immunohistochemistry and electron microscopy were performed. The glomerular and tubulointerstitial changes were much more pronounced in the diabetic SHR/N-cp compared to the STZ model. In parallel glomerular PCNA+cells were significantly more frequent and expression of TGF-beta and PDGF by immunohistochemistry in glomeruli and in the tubulointerstitial space was more pronounced in SHR/N-cp compared to STZ rats. The glomeruli of SHR/N-cp contained less and larger podocytes as well as smaller mesangial cells embedded in more mesangial matrix compared to STZ. Similarly, less, but larger endothelial cells were found in SHR/N-cp than in STZ rats. The mean glomerular volume was similarly increased in the two models. Albumin excretion was only modestly increased in STZ diabetes, but pronounced in the SHR/N-cp rat. Although the STZ model of diabetes exhibits numerous biochemical sequelae of hyperglycemia, the morphological lesions are unimpressive. In contrast, the diabetic SHR/N-cp exhibits marked structural lesions, particularly podocyte damage and mesangial expansion that promise to make it a more suitable model for investigation of diabetic glomerulosclerosis.
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PMID:Comparison of renal morphology in the Streptozotocin and the SHR/N-cp models of diabetes. 1476 89

Studies on thyroid function in obesity yielded inconsistent results; high thyroid-stimulating hormone (TSH) levels were generally shown; high free triiodothyronine (fT)-3 or fT4 levels were described in some, but not in other studies. After weight loss, TSH and thyroid hormones have been described to either increase or decrease. Our aim was to describe TSH, fT3, and fT4 in obese subjects with normal thyroid function before and after durable and significant weight loss, obtained through laparoscopic gastric banding (LAGB), in comparison with nonobese subjects. TSH, fT3, fT4, and fT3/fT4 ratio (an index of D1 and D2 deiodinase activity), were evaluated in 99 healthy controls and in 258 obese subjects, at baseline and 6 months, 1 year, and 2 years after LAGB, together with indexes of glucose (glucose, insulin, homeostasis model assessment of insulin resistance index) and lipid (triglycerides, total and high-density lipoprotein-cholesterol) metabolism, and anthropometric measures (BMI and waist circumference). Under basal conditions, TSH, fT3, and fT4 were all in the normal range, but higher in obese than in nonobese subjects, and fT3/fT4 ratio was normal; with weight loss, fT3 and fT3/fT4 ratio decreased in obese subjects, while fT4 increased and TSH remained steady; all values were again within the normal range. Albumin and cholesterol levels remained steady, while triglycerides, insulin, and homeostasis model assessment of insulin resistance decreased, and high-density lipoprotein-cholesterol increased. These changes, however, do not modify TSH, letting us to hypothesize that the changes are due to a decrease of D1 and D2 deiodinase activities.
Obesity (Silver Spring) 2010 Apr
PMID:Weight loss through gastric banding: effects on TSH and thyroid hormones in obese subjects with normal thyroid function. 1983 61

We investigated the effects of dietary whey protein on food intake, body fat, and body weight gain in rats. Adult (11-12 week) male Sprague-Dawley rats were divided into three dietary treatment groups for a 10-week study: control. Whey protein (HP-W), or high-protein content control (HP-S). Albumin was used as the basic protein source for all three diets. HP-W and HP-S diets contained an additional 24% (wt/wt) whey or isoflavone-free soy protein, respectively. Food intake, body weight, body fat, respiratory quotient (RQ), plasma cholecystokinin (CCK), glucagon like peptide-1 (GLP-1), peptide YY (PYY), and leptin were measured during and/or at the end of the study. The results showed that body fat and body weight gain were lower (P < 0.05) at the end of study in rats fed HP-W or HP-S vs. control diet. The cumulative food intake measured over the 10-week study period was lower in the HP-W vs. control and HP-S groups (P < 0.01). Further, HP-W fed rats exhibited lower N(2) free RQ values than did control and HP-S groups (P < 0.01). Plasma concentrations of total GLP-1 were higher in HP-W and HP-S vs. control group (P < 0.05), whereas plasma CCK, PYY, and leptin did not differ among the three groups. In conclusion, although dietary HP-W and HP-S each decrease body fat accumulation and body weight gain, the mechanism(s) involved appear to be different. HP-S fed rats exhibit increased fat oxidation, whereas HP-W fed rats show decreased food intake and increased fat oxidation, which may contribute to the effects of whey protein on body fat.
Obesity (Silver Spring) 2011 Aug
PMID:Dietary whey protein decreases food intake and body fat in rats. 2133 Oct 67

Albuminuria in individuals whose body mass index exceeds 40 kg/m(2) is associated with the presence of large glomeruli, thickened basement membrane and epithelial cellular (podocyte) distortion. Obstructive sleep apnea magnifies glomerular injury as well, probably through a vasoconstrictive mechanism. Insulin resistance from excess fatty acids is exacerbated by decreased secretion of high molecular weight adiponectin from adipose cells in the obese state. Adiponectin potentiates insulin in its post-receptor signaling resulting in glucose oxidation in mitochondria. Recent studies of podocyte physiology have concentrated on the structural and functional requirements that prevent glomerular albumin leakage. The architecture of the podocyte involves nephrin and podocin, proteins that cooperate to keep slit pores between foot processes competent to retain albumin. Insulin and adiponectin are necessary for high-energy phosphate generation. When fatty acids bind to albumin, the toxicity to proximal renal tubules is magnified. Albumin and fatty acids are elevated in urine of individuals with obesity related nephrotic syndrome. Fatty acid accumulation and resistin inhibit insulin and adiponectin. Study of cytokines produced by adipose tissue (adiponectin and leptin) and macrophages (resistin) has led to a better understanding of the relationship between weight and hypertension. Leptin, is presumably secreted after food intake to inhibit the midbrain/hypothalamic appetite centers. Resistance to leptin results in excess signaling to hypothalamic sympathetics leading to hypertension. Demonstration of the existence of a cerebral receptor mutation provide evidence for a role in hypertension of a central nervous reflex arc in humans. Further understanding of obesity-related renal dysfunction has been accomplished recently using experimental models. Rapid weight loss following bariatric surgery may reverse renal pathology of obesity with restoration of normal blood pressure.
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PMID:Manifestation of renal disease in obesity: pathophysiology of obesity-related dysfunction of the kidney. 2169 20


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