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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In white adipose tissue (WAT),
hormone-sensitive lipase
(
HSL
) can mediate lipolysis, a central pathway in obesity and
diabetes
. Gene-targeted
HSL
-deficient (
HSL
-/-) mice with no detectable
HSL
peptide or activity (measured as cholesteryl esterase) have WAT abnormalities, including low mass, marked heterogeneity of cell diameter, increased diacylglycerol content, and low beta-adrenergic stimulation of adipocyte lipolysis. Three transgenic mouse strains preferentially expressing human
HSL
in WAT were bred to a
HSL
-/- background. One,
HSL
-/- N, expresses normal human
HSL
(41.3 +/- 9.1% of normal activity); two express a serine-to-alanine mutant (S554A) initially hypothesized to be constitutively active:
HSL
-/- ML, 50.3 +/- 12.3% of normal, and
HSL
-/- MH, 69.8 +/- 15.8% of normal. In WAT,
HSL
-/- N mice resembled HSL+/+ controls in WAT mass, histology, diacylglyceride content, and lipolytic response to beta-adrenergic agents. In contrast,
HSL
-/- ML and
HSL
-/- MH mice resembled nontransgenic
HSL
-/- mice, except that diacylglycerol content and perirenal and inguinal WAT masses approached normal in
HSL
-/- MH mice. Therefore, 1) WAT expression of normal human
HSL
markedly improves
HSL
-/- WAT biochemically, physiologically, and morphologically; 2) similar levels of S554A
HSL
have a low physiological effect despite being active in vitro; and 3) diacylglycerol accumulation is not essential for the development of the characteristic WAT pathology of
HSL
-/- mice.
...
PMID:Human hormone-sensitive lipase (HSL): expression in white fat corrects the white adipose phenotype of HSL-deficient mice. 1596 88
The mobilization of fat stored in adipose tissue is mediated by
hormone-sensitive lipase
(
HSL
) and the recently characterized adipose triglyceride lipase (ATGL), yet their relative importance in lipolysis is unknown. We show that a novel potent inhibitor of
HSL
does not inhibit other lipases. The compound counteracted catecholamine-stimulated lipolysis in mouse adipocytes and had no effect on residual triglyceride hydrolysis and lipolysis in
HSL
-null mice. In human adipocytes, catecholamine- and natriuretic peptide-induced lipolysis were completely blunted by the
HSL
inhibitor. When fat cells were not stimulated, glycerol but not fatty acid release was inhibited.
HSL
and ATGL mRNA levels increased concomitantly during adipocyte differentiation. Abundance of the two transcripts in human adipose tissue was highly correlated in habitual dietary conditions and during a hypocaloric diet, suggesting common regulatory mechanisms for the two genes. Comparison of obese and nonobese subjects showed that obesity was associated with a decrease in catecholamine-induced lipolysis and
HSL
expression in mature fat cells and in differentiated preadipocytes. In conclusion,
HSL
is the major lipase for catecholamine- and natriuretic peptide-stimulated lipolysis, whereas ATGL mediates the hydrolysis of triglycerides during basal lipolysis. Decreased catecholamine-induced lipolysis and low
HSL
expression constitute a possibly primary defect in obesity.
Diabetes
2005 Nov
PMID:Adipocyte lipases and defect of lipolysis in human obesity. 1624 44
The level of free fatty acid (FFA) in plasma is increased by
diabetes
. The increase in plasma FFA levels accompanied the stimulation of basal lipolysis (i.e. lipolysis in the absence of lipolytic agents) in fat cells. Injection of streptozotocin with rats resulted in a significant increase in basal FFA production (5.5 fold) in fat cells. However, basal glycerol production in fat cells was increased only 1.5 fold by streptozotocin-induced
diabetes
, implying that FFA re-esterification in fat cells was decreased by streptozotocin-induced
diabetes
. The FFA re-esterification in fat cells was also decreased by 1 d of fasting. Although basal lipolysis was increased by streptozotocin-induced
diabetes
or 1-d fasting, neutral triacylglycerol lipase activity and the immunoreactive
HSL
protein content in fat cells from streptozotocin-induced diabetic rats or 1-d fasting rats were not significantly changed. Although beta-blockers inhibited lipolysis induced by norepinephrine at a concentration of 10(-4) M, it failed to inhibit the basal lipolysis and FFA re-esterification in fat cells from streptozotocin-induced diabetic rats. Nor did insulin or H-89, another antilipolytic agent, affect basal lipolysis or FFA re-esterification in fat cells from streptozotocin-induced diabetic rats. These results indicate that basal FFA production may be induced by a decrease of re-esterification of FFA in diabetic rats and is not affected by antilipolytic agents such as insulin, beta-blockers or H-89.
...
PMID:Basal lipolysis in epididymal fat cells from streptozotocin-induced diabetic rats. 1663 29
Fatty acid binding protein 4 (FABP4) is a key mediator of intracellular transport and metabolism of fatty acids in adipose tissues. FABP4 binds fatty acids with high affinity and transports them to various compartments in the cell. When in complex with fatty acids, FABP4 interacts with and modulates the activity of two important regulators of metabolism:
hormone-sensitive lipase
and peroxisome proliferator-activated receptor gamma. Genetic studies in mice clearly indicated that deregulation of FABP4 function may lead to the development of severe diseases such as
diabetes
II type and atherosclerosis. In this study, we report the production and detailed characterization of monoclonal antibodies (MAbs) against FABP4. Recombinant glutathione S-transferase (GST)-FABP4 or His-FABP4 was expressed in bacteria, affinity purified, and used for immunization of mice, enzyme-linked immunosorbent assay (ELISA) screening, and characterization of selected clones. We have isolated two hybridoma clones that produced antibodies specific for recombinant and native FABP4, as shown by Western blotting and immunoprecipitation. The specificity of generated antibodies was further tested in a cell-based model of adipogenesis. In this analysis, the accumulation of FABP4 during NIH 3T3-L1 differentiation into adipocytes was detected by generated antibodies, which correlates well with previously published data. Taken together, we produced MAbs that will be useful for the scientific community working on fatty acid-binding proteins and lipid metabolism.
...
PMID:Generation and characterization of monoclonal antibodies against FABP4. 1670 9
An unique isoform of
hormone-sensitive lipase
(
HSL
) is expressed in beta-cells. Recent findings suggest that
HSL
could be involved in the regulation of glucose stimulated insulin secretion (GSIS), however, these findings are controversial. To test the hypothesis that
HSL
is involved in control of normal GSIS via changes in its expression and/or activity in response to stimuli, we examined the effects of free fatty acid (FFA) loading and glucagon like peptide-1 (GLP-1) stimulation on the regulation of
HSL
expression and activity. With prolonged FFA loading, there was increased expression of beta-cell
HSL
and increased
HSL
hydrolytic activity in clonal beta-cells. Short-term treatment with GLP-1 increased
HSL
activity without changing the expression of the beta-cell isoform of
HSL
. Basal insulin secretion was increased, whereas GLP-1 potentiation of GSIS was decreased in islets isolated from
HSL
-/- mice, as compared to islets from wild type mice. Furthermore, using PancChip 2.2 cDNA microarrays (NIDDK consortium), the gene expression profile in the islets of
HSL
-/- mice was compared with wild type mice. Results showed changes in several metabolic pathways due to changes in lipid homeostasis caused by inactivation of
HSL
. Quantitative PCR for selected genes also revealed changes in genes that are related to insulin secretion, such as UCP-2. Therefore, these results suggest that the beta-cell isoform of
HSL
is involved in maintaining lipid homeostasis in islets and contributes to the proper control of GSIS.
Diabetes
Res Clin Pract 2007 Jan
PMID:Regulation of hormone-sensitive lipase in islets. 1676 72
Maternal diabetes can cause fetal macrosomia and increased risk of obesity,
diabetes
, and cardiovascular disease in adulthood of the offspring. Although increased transplacental lipid transport could be involved, the impact of maternal type 1 diabetes on molecular mechanisms for lipid transport in placenta is largely unknown. To examine whether maternal type 1 diabetes affects placental lipid metabolism, we measured lipids and mRNA expression of lipase-encoding genes in placentas from women with type 1 diabetes (n = 27) and a control group (n = 21). The placental triglyceride (TG) concentration and mRNA expression of endothelial lipase (EL) and
hormone-sensitive lipase
(
HSL
) were increased in placentas from women with
diabetes
. The differences were more pronounced in women with
diabetes
and suboptimal metabolic control than in women with
diabetes
and good metabolic control. Placental mRNA expression of lipoprotein lipase and lysosomal lipase were similar in women with
diabetes
and the control group. Immunohistochemistry showed EL protein in syncytiotrophoblasts facing the maternal blood and endothelial cells facing the fetal blood in placentas from both normal women and women with
diabetes
. These results suggest that maternal type 1 diabetes is associated with TG accumulation and increased EL and
HSL
gene expression in placenta and that optimal metabolic control reduces these effects.
...
PMID:Placental triglyceride accumulation in maternal type 1 diabetes is associated with increased lipase gene expression. 1694 May 51
Perilipins are the proteins associating with the lipid droplets in adipocytes and steroidogenic cells. Unphosphorylated perilipins coat the surface of intracellular lipid droplets to form a barrier that prevents lipase from accessing to triacylglycerol core, thus suppressing lipolysis. Upon activation of protein kinase A (PKA), two proteins,
hormone-sensitive lipase
(
HSL
) and perilipins, are phosphorylated. The phosphorylated perilipin is required for inducing the translocation of
HSL
from the cytosol to the lipid droplets of adipocytes and is essential for the initiation of lipolytic reaction. It is proposed that phosphorylation of perilipin is a key step for the activation of lipolytic cascade via PKA and ERK signaling pathways. Dysregulation of perilipin involves in the pathogenesis of obesity,
diabetes
and atherosclerosis.
...
PMID:[Perilipin associated with lipid droplets regulates lipolysis]. 1700 29
1. The relationship between sodium intake and blood pressure is affected differently by changes in angiotensin (Ang) II and preglomerular resistance, and this study measured that relationship to evaluate the link between nitric oxide and blood pressure early in
diabetes
. 2. Rats were chronically instrumented, placed on high-sodium (HS = 12 mEq/d) or low-sodium (LS = 0.07 mEq/d) intake diets and assigned to either vehicle- (V) or Nomega-nitro-L-arginine methyl ester- (L-NAME; L) treated groups. Mean arterial pressure (MAP) was measured 18 h/day for a 6-day control and 14-day streptozotocin diabetic period in each animal. 3. The MAP of the control period averaged 95 +/- 1 and 94 +/- 1 mmHg in the LSV and HSV rats and 116 +/- 2 and 124 +/- 1 mmHg in the LSL and
HSL
rats, respectively (LSL vs
HSL
was significant at P < 0.05).
Diabetes
increased MAP only in the LSL and
HSL
rats to 141 +/- 2 mmHg and 152 +/- 2, respectively, similar to our previous reports, and those respective 25 and 28 mmHg increases were a parallel shift in the pressure natriuresis relationship. However, the apparent difference between the LSL and
HSL
groups when compared was a parallel of the control MAP difference. Plasma renin activity (PRA) in the control period averaged 1.5 +/- 0.5 and 8.1 +/- 1.8 ng AI/mL per h in the HSV and LSV rats, and 0.8 +/- 0.2 and 2.8 +/- 0.5 ng AI/mL per h in the
HSL
and LSL rats, respectively, and increased similarly by 4.6-fold in the
HSL
and 4.8-fold in the LSL rats during
diabetes
. Glomerular filtration rate (GFR) increased in the vehicle but not the L-NAME-treated groups, consistent with our previous reports. 4. Thus, the hypertension caused by the onset of
diabetes
in L-NAME-treated rats was not salt-sensitive. The normal modulation of PRA by salt intake and the failure of GFR to increase are consistent with our hypothesis that nitric oxide may protect against hypertension early in
diabetes
by preventing preglomerular vasoconstriction by AngII.
...
PMID:Lack of blood pressure salt-sensitivity supports a preglomerular site of action of nitric oxide in Type I diabetic rats. 1743 18
In comparison to subcutaneous (SC) fat, visceral adipose tissue is more sensitive to catecholamine-induced lipolysis and less sensitive to the antilipolytic effects of insulin. Variation in the expression of lipoprotein lipase (LPL) and
hormone-sensitive lipase
(
HSL
) have been reported. We therefore hypothesized that expression of adipose triglyceride lipase (ATGL) is different in visceral and SC depot and investigated whether ATGL mRNA expression is related to obesity, fat distribution and insulin sensitivity. ATGL, LPL, and
HSL
mRNA expression was measured in 85 paired samples of omental and subcutaneous adipose tissue in normal glucose tolerant lean and obese individuals. In addition, we included a subgroup of obese (BMI >30 kg/m2) individuals with either impaired or preserved insulin sensitivity determined by euglycemic-hyperinsulinemic clamps. ATGL mRNA levels are significantly decreased in insulin resistant obese subjects. Independently of body fat mass, omental ATGL mRNA correlates with fasting insulin concentration, glucose uptake during the steady state of the clamp and
HSL
mRNA expression. In obese, but not in lean subjects, LPL and
HSL
mRNA expression was significantly higher in omental compared to SC fat. In both depots,
HSL
mRNA was significantly lower in obese individuals. Visceral
HSL
mRNA expression is closely related to adipocyte size and fasting plasma insulin concentrations, whereas visceral fat area significantly predicts visceral LPL mRNA expression. ATGL mRNA expression is not significantly different between omental and SC fat.
HSL
, but not ATGL mRNA expression is closely related to individual and regional differences in adipocyte size. Impaired insulin sensitivity was associated with decreased ATGL and
HSL
mRNA expression, independently of body fat mass and fat distribution.
Exp Clin Endocrinol
Diabetes
2008 Apr
PMID:Adipose triglyceride lipase gene expression in human visceral obesity. 1807 17
The release of fatty acids and glycerol from lipid droplets (LD) of mammalian adipose cells is tightly regulated by a number of counterregulatory signals and negative feedback mechanisms. In humans unrestrained lipolysis contributes to the pathogenesis of obesity and type II
diabetes
. In order to identify novel targets for the pharmacological interference with lipolysis, the molecular mechanisms of four antilipolytic agents were compared in isolated rat adipocytes. Incubation of the adipocytes with insulin, palmitate, glucose oxidase (for the generation of H2O2) and the antidiabetic sulfonylurea drug, glimepiride, reduced adenylyl cyclase-dependent, but not dibutyryl-cAMP-induced lipolysis as well as the translocation of
hormone-sensitive lipase
and the LD-associated protein, perilipin-A, to and from LD, respectively. The antilipolytic activity of palmitate, H2O2 and glimepiride rather than that of insulin was dependent on rolipram-sensitive but cilostamide-insensitive phosphodiesterase (PDE) but was not associated with detectable downregulation of total cytosolic cAMP and insulin signaling via phosphatidylinositol-3 kinase and protein kinase B. LD from adipocytes treated with palmitate, H2O2 and glimepiride were capable of converting cAMP to adenosine in vitro, which was hardly observed with those from basal cells. Conversion of cAMP to adenosine was blocked by rolipram and the 5'-nucleotidase inhibitor, AMPCP. Immunoblotting analysis revealed a limited salt-sensitive association with LD of some of the PDE isoforms currently known to be expressed in rat adipocytes. In contrast, the cAMP-to-adenosine converting activity was stripped off the LD by bacterial phosphatidylinositol-specific phospholipase C. These findings emphasize the importance of the compartmentalization of cAMP signaling for the regulation of lipolysis in adipocytes, in general, and of the involvement of LD-associated proteins for cAMP degradation, in particular.
...
PMID:Inhibition of lipolysis by palmitate, H2O2 and the sulfonylurea drug, glimepiride, in rat adipocytes depends on cAMP degradation by lipid droplets. 1818 16
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