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Query: UMLS:C0242339 (
dyslipidemia
)
13,927
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It is largely unknown whether hyperlipidemia is involved in the pathobiology of renal ischemia-reperfusion (I/R) injury that is an important cause of acute kidney injury. Here we studied the effect of experimental
dyslipidemia
on renal I/R injury. Renal I/R injury was less severe in hyperlipidemic mice treated with poloxamer 407 than in the control mice. Cytokine analyses revealed decreased levels of renal and serum IL-6 in the hyperlipidemic mice after renal I/R. Protection from renal I/R injury in the hyperlipidemic mice was diminished by administration of recombinant IL-6. Concanavalin A-induced IL-6 release from cultured splenocytes derived from the hyperlipidemic mice was lower than that from splenocytes of normal mice. In hypercholesterolemic apolipoprotein E-knockout mice, in which renal I/R injury is less severe than in control mice, renal I/R-induced IL-6 production was also less than that in controls. In
angiopoietin-like 3
-deficient mice, which were hypolipidemic, renal dysfunction and renal IL-6 level after I/R were similar to those of control mice. Our data indicate that the presence of experimental hyperlipidemia may be associated with a decreased risk of renal I/R injury, possibly mediated by reduced renal IL-6 production after the insult and extend the notion that an anti-IL6 agent would be useful for the treatment of acute kidney injury.
...
PMID:Amelioration of renal ischemia-reperfusion injury by inhibition of IL-6 production in the poloxamer 407-induced mouse model of hyperlipidemia. 1940 96
The metabolic syndrome, a common disorder including glucose intolerance and
dyslipidemia
, poses a major public health issue. Patients with high blood lipids, such as triglycerides, are at high risk in developing atherosclerotic cardiovascular diseases. To identify genes involved in metabolism, we performed RNA-seq experiments on the liver and fat in mice treated with a high-fat diet or fasting, and identified Gm6484 (named Lipasin) as a novel nutritionally regulated gene. Human LIPASIN is liver specific, while the mouse one is enriched in the liver and fat, including both brown and white adipose tissues. Obesity increases liver Lipasin, whereas fasting reduces its expression in fat. ANGPTL3 (
Angiopoietin-like 3
) and ANGPTL4 are critical regulators of blood lipids. LIPASIN shares homology with ANGPTL3's N-terminal domain that is needed for lipid regulation, and with ANGPTL4's N-terminal segment that mediates lipoprotein lipase (LPL) binding. Lipasin overexpression by adenoviruses in mice increases serum triglyceride levels, and a recombinant Lipasin inhibits LPL activity. Therefore, a potential mechanism for Lipasin-mediated triglyceride elevation is through reduced triglyceride clearance by LPL inhibition. Lipasin is thus a novel nutritionally-regulated liver-enriched factor that plays a role in lipid metabolism.
...
PMID:Lipasin, a novel nutritionally-regulated liver-enriched factor that regulates serum triglyceride levels. 2280 13
"Primary hypobetalipoproteinemia" refers to an eclectic group of inherited lipoprotein disorders characterized by low concentrations of or absence of low-density lipoprotein cholesterol and apolipoprotein B in plasma. Abetalipoproteinemia and homozygous familial hypobetalipoproteinemia, although caused by mutations in different genes, are clinically indistinguishable. A framework for the clinical follow-up and management of these two disorders has been proposed recently, focusing on monitoring of growth in children and preventing complications by providing specialized dietary advice and fat-soluble vitamin therapeutic regimens. Other recent publications on familial combined hypolipidemia suggest that although a reduction of
angiopoietin-like 3
activity may improve insulin sensitivity, complete deficiency also reduces serum cholesterol efflux capacity and increases the risk of early vascular atherosclerotic changes, despite low low-density lipoprotein cholesterol levels. Specialist laboratories offer exon-by-exon sequence analysis for the molecular diagnosis of primary hypobetalipoproteinemia. In the future, massively parallel sequencing of panels of genes involved in
dyslipidemia
may play a greater role in the diagnosis of these conditions.
...
PMID:Update on primary hypobetalipoproteinemia. 2478 98
The intestine must challenge the profuse daily flux of dietary fat that serves as a vital source of energy and as an essential component of cell membranes. The fat absorption process takes place in a series of orderly and interrelated steps, including the uptake and translocation of lipolytic products from the brush border membrane to the endoplasmic reticulum, lipid esterification, Apo synthesis, and ultimately the packaging of lipid and Apo components into chylomicrons (CMs). Deciphering inherited disorders of intracellular CM elaboration afforded new insight into the key functions of crucial intracellular proteins, such as Apo B, microsomal TG transfer protein, and Sar1b GTPase, the defects of which lead to hypobetalipoproteinemia, abetalipoproteinemia, and CM retention disease, respectively. These "experiments of nature" are characterized by fat malabsorption, steatorrhea, failure to thrive, low plasma levels of TGs and cholesterol, and deficiency of liposoluble vitamins and essential FAs. After summarizing and discussing the functions and regulation of these proteins for reader's comprehension, the current review focuses on their specific roles in malabsorptions and
dyslipidemia
-related intestinal fat hyperabsorption while dissecting the spectrum of clinical manifestations and managements. The influence of newly discovered proteins (proprotein convertase subtilisin/kexin type 9 and
angiopoietin-like 3
protein) on fat absorption has also been provided. Finally, it is stressed how the overexpression or polymorphism status of the critical intracellular proteins promotes
dyslipidemia
and cardiometabolic disorders.
...
PMID:Insights from human congenital disorders of intestinal lipid metabolism. 2538 65
Angiopoietin-like 3
(
ANGPTL3
) is a regulator of plasma triglyceride (TRG) levels due to its inhibitory action on the activity of lipoprotein lipase (LPL).
ANGPTL3
is proteolytically cleaved by proprotein convertases to generate an active N-terminal domain, which forms a complex with ANGPTL8 orchestrating LPL inhibition.
ANGPTL3
-4-8 mouse model studies indicate that these three ANGPTL family members play a significant role in partitioning the circulating TRG to specific tissues according to nutritional states. Recent data indicate a positive correlation of
ANGPTL3
with plasma glucose, insulin, and homeostatic model assessment of insulin resistance (HOMA-IR) in insulin-resistant states. The aim of this review is to critically present the metabolic effects of
ANGPTL3
, focusing on the possible mechanisms involved in the dysregulation of carbohydrate homeostasis by this protein. Heterozygous and homozygous carriers of
ANGPTL3
loss-of-function mutations have reduced risk for type 2 diabetes mellitus. Suggested mechanisms for the implication of
ANGPTL3
in carbohydrate metabolism include the (i) increment of free fatty acids (FFAs) owing to the enhancement of lipolysis in adipose tissue, which can induce peripheral as well as hepatic insulin resistance; (ii) promotion of FFA flux to white adipose tissue during feeding, leading to the attenuation of de novo lipogenesis and decreased glucose uptake and insulin sensitivity; (iii) induction of hypothalamic LPL activity in mice, which is highly expressed throughout the brain and is associated with enhanced brain lipid sensing, reduction of food intake, and inhibition of glucose production (however, the effects of
ANGPTL3
on hypothalamic LPL in humans need more clarification); and (iv) upregulation of ANGPTL4 expression (owing to the plasma FFA increase), which possibly enhances insulin resistance due to the selective inhibition of LPL in white adipose tissue leading to ectopic lipid accumulation and insulin resistance. Future trials will reveal if
ANGPTL3
inhibition could be considered an alternative therapeutic target for
dyslipidemia
and dysglycemia.
...
PMID:Effects of Angiopoietin-Like 3 on Triglyceride Regulation, Glucose Homeostasis, and Diabetes. 3094 69
Obesity impacts the endocrine and metabolic functions of the adipose tissue. There is increasing interest in the role of epigenetic factors in obesity and its impact on diabetes and
dyslipidemia
. One such substance, miR-181, reduces plasma triglyceride levels in mice by targeting isocitrate dehydrogenase 1. In the other hand, the adipocyte differentiation and lipid regulating hormone
angiopoietin-like 3
(
ANGPTL3
) is a known regulator of circulating apolipoproteins through its inhibition of the lipoprotein lipase activity. We aimed to study the miR-181d expression in the blood and adipose tissue in a cohort of obese and non-obese people, assessing its possible role in obesity. We also aimed to confirm whether miR-181d can bind and regulate
ANGPTL3
. miR-181d expression levels were investigated in 144 participants, 82 who were non-obese (body mass index [BMI] < 30) and 62 who were obese (BMI > 30). miR-181d levels in plasma and adipose tissue were measured by RT-PCR. Hepatocyte cell cultures were assessed by overexpression and 3'-UTR-luciferase assays for miR-181d binding to its target protein and its effect on the protein. The plasma levels of
ANGPTL3
were also measured by ELISA. The miR-181d levels were significantly lower in obese than in non-obese individuals. In vitro analysis confirmed miR-181 binding to and repression of the
ANGPTL3
transcript. Obesity leads to alterations in miR-181d expression. Its downregulation in obese humans was inversely correlated with
ANGPTL3
, a protein involved in adipocyte differentiation and lipid metabolism. miR-181d can be used as an inhibitor of
ANGPTL3
to reduce the TG plasma level.
...
PMID:Reduced miR-181d level in obesity and its role in lipid metabolism via regulation of ANGPTL3. 3141 5
Introduction
: Hypertriglyceridemia is associated with both the development of cardiovascular disease (CVD) when mild-to-moderate and high risk of pancreatitis when more severe. The residual CVD risk after low-density lipoprotein cholesterol (LDL-C) lowering is, in part, attributed to high triglyceride (TG) levels. Therefore, there appears to be a need for effective TG-lowering agents.
Areas covered
: This review presents the most recent advances in hypertriglyceridemia treatment; specifically, it discusses the results of clinical trials and critically comments on apolipoprotein C-III inhibitors,
angiopoietin-like 3
inhibitors, alipogene tiparvovec, pradigastat, pemafibrate and novel formulations of omega-3 fatty acids.
Expert opinion
: In the era of extreme lowering of LDL-C levels with several agents, there seems to be space for novel therapeutic options to combat parameters responsible for residual CVD risk, among which are elevated TGs. Furthermore, a significant number of individuals have very high TG levels and encounter the risk of acute pancreatitis. The most recently developed TG-lowering drugs appear to have a role in both conditions; the choice is mainly based on baseline TG levels.
Dyslipidemia
guidelines are likely to change in the near future to include some of these agents. Of course, long-term data regarding their safety and efficacy in terms of CVD outcomes and pancreatitis are warranted.
...
PMID:Recent developments in pharmacotherapy for hypertriglyceridemia: what's the current state of the art? 3173 17
Dyslipidemia
is one of the most important risk factors for cardiovascular (CV) disease. Statin therapy has dramatically improved CV outcomes and is the backbone of current lipid-lowering therapy, but despite well-controlled low-density lipoprotein cholesterol (LDL-C) levels through statin administration, up to 40% patients still experience CV disease. New therapeutic agents to tackle such residual cholesterol risk by lowering not only LDL-C but triglycerides (TG), TG-rich lipoproteins (TRL), or lipoprotein(a) (Lp(a)) are being introduced. Ezetimibe, proprotein convertase subtilisin/kexin type 9 (PCSK9) monoclonal antibodies, PCSK9 small interference RNA (siRNA), and bempedoic acid added to statin therapy have shown additional improvement to CV outcomes. Recent trials administering eicosapentaenoic acid to patients with high TG despite statin therapy have also demonstrated significant CV benefit. Antisense oligonucleotide (ASO) therapies with hepatocyte-specific targeting modifications are now being newly introduced with promising lipid-lowering effects. ASOs targeting TG/TRL, such as
angiopoietin-like 3
or 4 (ANGPTL3 or ANGPTL4), apolipoprotein C-III (APOC3), or Lp(a) have effectively lowered the corresponding lipid profiles without requiring high or frequent doses. Clinical outcomes from these novel therapeutics are yet to be proven. Here, we review current and emerging therapeutics targeting LDL-C, TG, TRL, and Lp(a) to reduce the residual CV risk.
...
PMID:New Trends in Dyslipidemia Treatment. 3317 9
