0
selected
-
1.
Τhe Antioxidant Function of HDL in Atherosclerosis.
Xepapadaki, E, Zvintzou, E, Kalogeropoulou, C, Filou, S, Kypreos, KE
Angiology. 2020;(2):112-121
Abstract
Atherosclerosis is a multistep process that progresses over a long period of time and displays a broad range of severity. In its final form, it manifests as a lesion of the intimal layer of the arterial wall. There is strong evidence supporting that oxidative stress contributes to coronary heart disease morbidity and mortality and antioxidant high-density lipoprotein (HDL) could have a beneficial role in the prevention and prognosis of the disease. Indeed, certain subspecies of HDL may act as natural antioxidants preventing oxidation of lipids on low-density lipoprotein (LDL) and biological membranes. The antioxidant function may be attributed to inhibition of synthesis or neutralization of free radicals and reactive oxygen species by HDL lipids and associated enzymes or transfer of oxidation prone lipids from LDL and biological membranes to HDL for catabolism. A limited number of clinical trials suggest that the increased antioxidant potential of HDL correlates with decreased risk for atherosclerosis. Some nutritional interventions to increase HDL antioxidant activity have been proposed with limited success so far. The limitations in measuring and understanding HDL antioxidant function in vivo are also discussed.
-
2.
The Alcohol-High-Density Lipoprotein Athero-Protective Axis.
Rosales, C, Gillard, BK, Gotto, AM, Pownall, HJ
Biomolecules. 2020;(7)
Abstract
Ingestion of alcohol is associated with numerous changes in human energy metabolism, especially that of plasma lipids and lipoproteins. Regular moderate alcohol consumption is associated with reduced atherosclerotic cardiovascular disease (ASCVD), an effect that has been attributed to the concurrent elevations of plasma high-density lipoprotein-cholesterol (HDL-C) concentrations. More recent evidence has accrued against the hypothesis that raising plasma HDL concentrations prevents ASCVD so that other metabolic processes associated with alcohol consumption have been considered. This review explored the roles of other metabolites induced by alcohol consumption-triglyceride-rich lipoproteins, non-esterified free fatty acids, and acetate, the terminal alcohol metabolite in athero-protection: Current evidence suggests that acetate has a key role in athero-protection but additional studies are needed.
-
3.
High-Density Lipoproteins and Apolipoprotein A1.
van der Vorst, EPC
Sub-cellular biochemistry. 2020;:399-420
Abstract
High-density lipoprotein (HDL) and its main protein component apolipoprotein (apo)A-I, play an important role in cholesterol homeostasis. It has been demonstrated that HDLs comprise of a very heterogeneous group of particles, not only regarding size but also composition. HDL's best described function is its role in the reverse cholesterol transport, where lipid-free apoA-I or small HDLs can accept and take up cholesterol from peripheral cells and subsequently transport this to the liver for excretion. However, several other functions have also been described, like anti-oxidant, anti-inflammatory and anti-thrombotic effects. In this article, the general features, synthesis and metabolism of apoA-I and HDLs will be discussed. Additionally, an overview of HDL functions will be given, especially in the context of some major pathologies like cardiovascular disease, cancer and diabetes mellitus. Finally, the therapeutic potential of raising HDL will be discussed, focussing on the difficulties of the past and the promises of the future.
-
4.
High-Density Lipoprotein in Lupus: Disease Biomarkers and Potential Therapeutic Strategy.
Kim, SY, Yu, M, Morin, EE, Kang, J, Kaplan, MJ, Schwendeman, A
Arthritis & rheumatology (Hoboken, N.J.). 2020;(1):20-30
-
-
Free full text
-
Abstract
Systemic lupus erythematosus (SLE) patients exhibit accelerated development of atherosclerosis and increased incidents of cardiovascular disease (CVD) that cannot be explained by traditional risk factors alone. Accumulating evidence suggests that reduced levels of high-density lipoproteins (HDLs), along with altered HDL composition and function, may contribute to the accelerated atherosclerosis in SLE patients. Normally, HDLs play various atheroprotective roles through facilitating cholesterol efflux, inhibiting vascular inflammation, and scavenging oxidative species. However, systemic inflammation, oxidative stress, and autoimmunity in SLE patients induce changes in HDL size distribution and proteomic and lipidomic signatures. These compositional changes in HDLs result in the formation of proinflammatory, dysfunctional HDL. These lupus-altered HDLs have impaired antiatherogenic function with reduced cholesterol efflux capacities, impaired antioxidation abilities, and diminished antiinflammatory properties. In fact, dysfunctional HDL may promote atherogenesis by inducing inflammation. Thus, dysfunctional HDLs could be an important biomarker of accelerated atherosclerosis in lupus. Additionally, HDL-targeted therapies, especially infusion of reconstituted HDLs, may serve as a potential therapeutic intervention for SLE patients with CVD.
-
5.
Emerging roles for high-density lipoproteins in neurodegenerative disorders.
Bahrami, A, Barreto, GE, Lombardi, G, Pirro, M, Sahebkar, A
BioFactors (Oxford, England). 2019;(5):725-739
Abstract
Lipoproteins are the complexes of different lipids and proteins, which are devoted to the transport and clearance of lipids or lipid-related molecules in the circulation. Lipoproteins have been found to play a crucial role in brain function and may influence myelination process. Among lipoproteins, high-density lipoproteins (HDLs) and their major protein component, apoA-I, are directly involved in cholesterol efflux in the brain. It has been suggested that inadequate or dysfunctional brain HDLs may contribute to cerebrovascular dysfunctions, neurodegeneration, or neurovascular instability. HDL deficiency could also promote cognitive decline through impacting on atherosclerotic risk. The focus of this review is to discuss knowledge on HDL dysregulation in neurological disorders. A better understanding on how changes in cellular HDL and apolipoprotein homeostasis affect central nervous system function may provide promising novel avenues for the treatment of specific HDL-related neurological disorders.
-
6.
Low high-density lipoprotein and psychopathology: A review.
Douglas, J, Nasrallah, HA
Annals of clinical psychiatry : official journal of the American Academy of Clinical Psychiatrists. 2019;(3):209-213
Abstract
BACKGROUND An association between the level of total cholesterol and psychopathology has been the focus of numerous studies. Low total cholesterol has been found to be related to depression, personality disorders, and dissociative disorder. High cholesterol has been associated with schizophrenia, obsessive-compulsive disorder (OCD), panic disorder, generalized anxiety disorder, and posttraumatic stress disorder. However, no reviews of the psychiatric correlates of high-density lipoprotein (HDL) have been published. We reviewed the literature for studies reporting a significant association between low or high levels of HDL and psychopathology. METHODS A search of major databases (PubMed and CINAHL) was conducted using the following keywords: HDL, depression, anxiety, schizophrenia, OCD, and psychiatric disorders. RESULTS Eight studies met our search criteria. Six of the 8 studies reported significantly higher rates of depression, anxiety, suicide attempts, and violent behaviors in participants with low HDL. CONCLUSIONS Overall, a low HDL may not only be associated with risk for cardiac disease, but also with increased risk for serious psychiatric disorders. Further controlled studies are warranted.
-
7.
Humoral Immunity Against HDL Particle: A New Perspective in Cardiovascular Diseases?
Satta, N, Frias, MA, Vuilleumier, N, Pagano, S
Current pharmaceutical design. 2019;(29):3128-3146
Abstract
BACKGROUND Autoimmune diseases are closely associated with cardiovascular diseases (CVD). Over the last decades, the comprehension of atherosclerosis, the principal initiator of CVD, evolved from a lipidcentered disease to a predominant inflammatory and immune response-driven disease displaying features of autoimmunity against a broad range of auto-antigens, including lipoproteins. Among them, high density lipoproteins (HDL) are important actors of cholesterol transport and bear several anti-atherogenic properties, raising a growing interest as therapeutic targets to decrease atherosclerosis and CVD burden, with nevertheless rather disappointing results so far. Reflecting HDL composition complexity, autoimmune responses and autoantibodies against various HDL components have been reported. RESULTS In this review, we addressed the important complexity of humoral autoimmunity towards HDL and particularly how this autoimmune response could help improving our understanding of HDL biological implication in atherosclerosis and CVD. We also discussed several issues related to specific HDL autoantibody subclasses characteristics, including etiology, prognosis and pathological mechanisms according to Rose criteria. CONCLUSION Finally, we addressed the possible clinical value of using these antibodies not only as potential biomarkers of atherogenesis and CVD, but also as a factor potentially mitigating the benefit of HDL-raising therapies.
-
8.
Dysfunctional HDL as a Therapeutic Target for Atherosclerosis Prevention.
Ossoli, A, Pavanello, C, Giorgio, E, Calabresi, L, Gomaraschi, M
Current medicinal chemistry. 2019;(9):1610-1630
Abstract
Hypercholesterolemia is one of the main risk factors for the development of atherosclerosis. Among the various lipoprotein classes, however, high density lipoproteins (HDL) are inversely associated with the incidence of atherosclerosis, since they are able to exert a series of atheroprotective functions. The central role of HDL within the reverse cholesterol transport, their antioxidant and anti-inflammatory properties and their ability to preserve endothelial homeostasis are likely responsible for HDL-mediated atheroprotection. However, drugs that effectively raise HDL-C failed to result in a decreased incidence of cardiovascular event, suggesting that plasma levels of HDL-C and HDL function are not always related. Several evidences are showing that different pathologic conditions, especially those associated with an inflammatory response, can cause dramatic alterations of HDL protein and lipid cargo resulting in HDL dysfunction. Established and investigational drugs designed to affect lipid metabolism and to increase HDL-C are only partly effective in correcting HDL dysfunction.
-
9.
ABCA1 and metabolic syndrome; a review of the ABCA1 role in HDL-VLDL production, insulin-glucose homeostasis, inflammation and obesity.
Babashamsi, MM, Koukhaloo, SZ, Halalkhor, S, Salimi, A, Babashamsi, M
Diabetes & metabolic syndrome. 2019;(2):1529-1534
Abstract
ATP-binding cassette transporter A1 (ABCA1) is an integral cell-membrane protein that mediates the rate-limiting step of high density lipoprotein (HDL) biogenesis and suppression of inflammation by triggering a number of signaling pathways via interacting with an apolipoprotein acceptor. The hepatic ABCA1 is involved in regulation of very low density lipoprotein (VLDL) production by affecting the apolipoprotein B trafficking and lipidation of VLDL particles. This protein is involved in protecting the function of pancreatic β-cells and insulin secretion by cholesterol homeostasis. Adipose tissue lipolysis is associated with ABCA1 activity. This transporter is involved in controlling obesity and insulin sensitivity by regulating triglyceride (TG) lipolysis and influencing on adiponectin, visfatin, leptin, and GLUT4 genes expression. The ABCA1 of skeletal muscle cells play a role in increasing the glucose uptake by enhancing the Akt phosphorylation and transferring GLUT4 to the plasma membrane. Abnormal status of ABCA1-regulated phenotypes is observed in metabolic syndrome. This syndrome is associated with the occurrence of many diseases. This review is a summary of the role of ABCA1 in HDL and VLDL production, homeostasis of insulin and glucose, suppression of inflammation and obesity controlling to provide a better insight into the association of this protein with metabolic syndrome.
-
10.
High-Density Lipoprotein Subspecies in Health and Human Disease: Focus on Type 2 Diabetes.
Davidson, WS, Shah, AS
Methodist DeBakey cardiovascular journal. 2019;(1):55-61
Abstract
Plasma cholesterol levels of high-density lipoproteins (HDL) have been associated with cardioprotection for decades. However, there is an evolving appreciation that this lipoprotein class is highly heterogeneous with regard to composition and functionality. With the advent of advanced lipid-testing techniques and methods that allow both the quantitation and recovery of individual particle populations, we are beginning to connect the functionality of HDL subspecies with chronic metabolic diseases. In this review, we examine type 2 diabetes (T2D) and explore our current understanding of how obesity, insulin resistance, and hyperglycemia affect, and may be affected by, HDL subspeciation. We discuss mechanistic aspects of how insulin resistance may alter lipoprotein profiles and how this may impact the ability of HDL to mitigate both atherosclerotic disease and diabetes itself. Finally, we call for more detailed studies examining the impact of T2D on specific HDL subspecies and their functions. If these particles can be isolated and their compositions and functions fully elucidated, it may become possible to manipulate the levels of these specific particles or target the protective functions to reduce the incidence of coronary heart disease.