Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0016382 (flushing)
 6,387 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nicotinic acid, used for atherosclerosis treatment, has an adverse effect of skin flushing. The flushing mechanism, thought to be caused by the release of prostaglandin D(2) (PGD(2)), is not well understood. We aimed to identify which cells mediate the flushing effect. Nicotinic acid receptor (GPR109A) gene expression was assessed in various tissues and cell lines. Cells expressing GPR109A mRNA were further assayed for PGD(2) release in response to nicotinic acid. Of all samples, only skin was able to release PGD(2) upon stimulation with nicotinic acid. The responsive cells were localized to the epidermis, and immunocytochemical studies revealed the presence of GPR109A on epidermal Langerhans cells. CD34+ cells isolated from human blood and differentiated into Langerhans cells (hLC-L) also showed GPR109A expression. IFNgamma treatment increased both mRNA and plasma membrane expression of GPR109A. IFNgamma-stimulated hLC-Ls released PGD(2) in response to nicotinic acid in a dose-dependant manner (effector concentration for half-maximum response=1.2 mM+/-0.7). Acifran, a structurally distinct GPR109A ligand, also increased PGD(2) release, whereas isonicotinic acid, a nicotinic acid analog with low affinity for GPR109A, had no effect. These results suggest that nicotinic acid mediates its flushing side effect by interacting with GPR109A on skin Langerhans cells, resulting in release of PGD(2).
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PMID:Langerhans cells release prostaglandin D2 in response to nicotinic acid. 1700 71

Myristyl nicotinate is an ester prodrug under development for delivery of nicotinic acid to skin for treatment and prevention of conditions that involve skin barrier impairment such as chronic photodamage and atopic dermatitis or for mitigating skin barrier impairment that results from therapy such as retinoids or steroids. The formulation stability of myristyl nicotinate is crucial because even small amounts of free nicotinic acid cause skin flushing, an effect that is not harmful but would severely limit tolerability. We report here reversed-phase HPLC methods for the rapid analysis of myristyl nicotinate and nicotinic acid in dermatological preparations. Because of the large differences in polarity, myristyl nicotinate and nicotinic acid were analyzed by different chromatographic conditions, but they can be rapidly extracted from cream formulations using HPLC mobile phase as a solvent followed by HPLC analysis in less than 10 min. The methods were validated in terms of linearity, precision and accuracy and mean recovery of myristyl nicotinate from topical creams ranged from 97.0-101.2%. Nicotinic acid at levels of 0.01% in the formulations could be quantified. Stability studies show that myristyl nicotinate formulations are stable at room temperature for 3 years with less than 0.05% conversion to nicotinic acid. These methods will be effective for routine analysis of myristyl nicotinate stability in dermatological formulations.
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PMID:Analysis and stability study of myristyl nicotinate in dermatological preparations by high-performance liquid chromatography. 1704 29

Nicotinic acid (niacin) has been used clinically to manage dyslipidemia for many years. The molecular target of nicotinic acid was unknown until the recent revelation of human G-coupled receptor HM74a as the high affinity receptor for nicotinic acid. In searching for a cell line expressing endogenous human HM74a receptor, we have identified that the A431 cell line, a human epidermoid cell line, expresses a high level of HM74a receptor. An HM74a-specific real time PCR probe set was designed and the mRNA levels of HM74a in A431 and 32 other cultured cell lines were measured quantitatively. When the mRNA expression of HM74a in A431 cells was compared to that in human primary preadipocytes, adipocytes and adipose tissue, we found that the level in A431 was about 10- fold higher than that in adipocytes and adipose tissue. The ratio of HM74a:HM74 mRNA was measured quantitatively and it was determined to be 3:2 in A431 cells. The function of the HM74a receptor in A431 cells was evaluated for its ability to inhibit forskolin-induced cAMP production. Pertussis toxin treatment abolished the inhibition. Our data suggest that the A431 cell line may serve as a cellular model for further investigation of niacin/HM74a-mediated signal transduction in modulating metabolism. A431 cell line may also provide a valuable cell model to study prostaglandin production upon HM74a activation to improve our understanding of niacin/HM74a-mediated skin flushing.
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PMID:Human epidermoid A431 cells express functional nicotinic acid receptor HM74a. 1712 37

(1) For patients with hypercholesterolaemia requiring primary or secondary prevention, pravastatin, simvastatin and atorvastatin have a proven benefit in terms of mortality and/or morbidity. Gemfibrozil and cholestyramine have a proven impact on morbidity. (2) The lipid-lowering properties of immediate-release nicotinic acid have been known for about 50 years, as have its frequent and sometimes severe adverse effects. About 70% of patients experience cutaneous flushing, and 20-30% develop gastrointestinal adverse effects. Hepatotoxic effects occur in about 2% of patients, especially in those using high daily doses or sustained-release formulations. (3) The clinical evaluation of immediate-release nicotinic acid is mainly based on two comparative placebo-controlled trials. One, involving 5000 patients monitored on average for 15 years, showed no effect on survival. One trial suggested that immediate-release nicotinic acid reduced the risk of recurrent myocardial infarction. (4) Sustained-release nicotinic acid has not been evaluated in terms of its effect on morbidity or mortality. It has been shown to lower LDL cholesterol and triglyceride levels and to raise the HDL cholesterol level. (5) This new pharmaceutical formulation has a profile and frequency of known adverse effects similar to those of immediate-release nicotinic acid. (6) When hypercholesterolaemia persists despite an appropriate diet, it is best to use one drug with a proven preventive impact on mortality and/or morbidity. This is not the case for sustained-release nicotinic acid. (7) When statin therapy is inadequate, it remains to be shown whether adding another cholesterol-lowering drug is beneficial in terms of morbidity and mortality. If, in rare cases, combination with a statin is envisaged, it is best to use gemfibrozil or cholestyramine. Note that gemfibrozil should only be combined with a statin with the greatest caution.
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PMID:Nicotinic acid: new/old drug. Immediate or sustained release: too risky for a drug with no proven benefit. 1716 43

Half a century ago, nicotinic acid (niacin) was introduced into the clinic as the first orally available drug to treat high cholesterol levels and to improve the balance between (V)low density lipoproteins (LDL) and high density lipoproteins (HDL). Remarkably, its putative mechanism of action has only been recently elucidated, particularly because of the cloning of a G protein-coupled receptor (HM74A or GPR109A). This receptor responds to both nicotinic acid and the ketone body beta-hydroxybutyrate, the latter thought to be the more probable endogenous ligand for HM74A. In this review, we will discuss the pharmacology and medicinal chemistry of this receptor subtype and a related one (HM74 or GPR109B). Although still in its infancy, the ligand repertoire is developing, and a number of compound classes have now been described, among which are both full and partial agonists. Antagonists, however, are still lacking, thus compromising thorough pharmacological studies. Mutagenesis experiments have provided clues regarding the ligand binding site; in particular, an arginine residue in transmembrane domain 3 of the receptor seems to recognize the acidic moiety present in nicotinic acid and related substances. HM74A has also been linked to one of the major side effects of nicotinic acid, that is, flushing, since this receptor subtype also occurs in skin immune cells. It is not known yet whether HM74 is also present on these cells. Since nicotinic acid is one of the few available medicines that raise HDL ("good cholesterol") levels, HM74A and HM74 appear promising targets for future pharmacotherapy.
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PMID:Nicotinic acid receptor subtypes and their ligands. 1723 56

Niacin has beneficial effects on plasma lipoproteins and has demonstrated clinical benefits in reducing cardiovascular events and atherosclerosis progression. The side effects of niacin, however, have limited its use in general clinical practice. An understanding of cutaneous flushing based on the best available evidence should enhance patient education efforts and improve adherence. Although serious hepatic toxicity from niacin administration has been reported, it is largely confined to the use of slow-release formulations given as unregulated nutritional supplements. Niacin has been shown to induce insulin resistance in short-term trials, but the glycemic response in subjects with and without diabetes is usually minor. Niacin can be used safely in patients with diabetes. Despite a few case reports of myopathy associated with niacin-statin (3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor) combination therapy, 2 decades of clinical evidence since the introduction of statins do not support a general myopathic effect of niacin either alone or in combination with statins. Rare, less well-defined side effects of niacin include blurred vision due to cystoid macular edema, nausea and vomiting, and the exacerbation of peptic ulcers. Laboratory abnormalities that are usually small (< or =10%) and clinically unimportant include increased prothrombin time, increased uric acid, and decreases in platelet count and serum phosphorus. Overall, the perception of niacin side effects is often greater than the reality. As a result, a valuable medication for cardiovascular risk is underused.
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PMID:Safety considerations with niacin therapy. 1736 76

Niacin (nicotinic acid) reduces cardiovascular events in patients with dyslipidemia. However, symptoms associated with niacin-induced vasodilation (e.g., flushing) have limited its use. Laropiprant is a selective antagonist of the prostaglandin D(2) receptor subtype 1 (DP1), which may mediate niacin-induced vasodilation. The aim of this proof-of-concept study was to evaluate the effects of laropiprant (vs placebo) on niacin-induced cutaneous vasodilation. Coadministration of laropiprant 30, 100, and 300 mg with extended-release (ER) niacin significantly lowered flushing symptom scores (by approximately 50% or more) and also significantly reduced malar skin blood flow measured by laser Doppler perfusion imaging. Laropiprant was effective after multiple doses in reducing symptoms of flushing and attenuating the increased malar skin blood flow induced by ER niacin. In conclusion, the DP1 receptor antagonist laropiprant was effective in suppressing both subjective and objective manifestations of niacin-induced vasodilation.
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PMID:Suppression of niacin-induced vasodilation with an antagonist to prostaglandin D2 receptor subtype 1. 1739 21

In addition to its use as a nutritional supplement, niacin (nicotinic acid or vitamin B3) is medically prescribed to treat hyperlipidemia and hypercholesterolemia. Use of niacin in low doses usually leads to few adverse drug reactions (ADRs); however, at larger doses, niacin can cause skin flushing, itching, and occasionally more serious effects. The 2005 annual report of the American Association of Poison Control Centers documented 3,109 reports of exposures to niacin. During 2006, the Rocky Mountain Poison and Drug Center (RMPDC) in Denver, Colorado, received multiple calls regarding ADRs after nonmedical use of niacin. A review of call records indicated various uses of niacin, including attempts to alter or mask results of urine drug tests, although no scientific evidence exists that ingestion of niacin can alter a drug test result. To determine the extent of niacin use in attempts to alter drug test results, reports to RMPDC of niacin ADRs were reviewed for the period January--September 2006. The results identified 18 persons who reported nonsuicidal, intentional, nonmedical reasons for using niacin, including eight who specified altering drug test results as their reason for using niacin. Ten other persons, among an additional 18 who offered no reason for niacin use, were categorized as possible users of niacin to try to alter drug test results because of their ages or the amount of niacin ingested. Clinicians, especially those whose patients include teens and young adults, should be aware of the potential use of niacin in attempts to defeat urine drug tests.
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PMID:Use of niacin in attempts to defeat urine drug testing--five states, January-September 2006. 1744 21

Nicotinic acid remains the most effective therapeutic agent for the treatment and prevention of atherosclerosis resulting from low high density lipoprotein cholesterol. The therapeutic actions of nicotinic acid are mediated by GPR109A, a Gi protein-coupled receptor, expressed primarily on adipocytes, Langerhans cells, and macrophage. Unfortunately, a severe, cutaneous flushing side effect limits its use and patient compliance. The mechanism of high density lipoprotein elevation is not clearly established but assumed to be influenced by an inhibition of lipolysis in the adipose. The flushing side effect appears to be mediated by the release of prostaglandin D2 from Langerhans cells in the skin. We hypothesized that the signal transduction pathways mediating the anti-lipolytic and prostaglandin D2/flushing pathways are distinct and that agonists may be identified that are capable of selectively eliciting the therapeutic, anti-lipolytic pathway while avoiding the activation of the parallel flush-inducing pathway. We have identified a number of GPR109A pyrazole agonists that are capable of fully inhibiting lipolysis in vitro and in vivo and not only fail to elicit a flushing response but can antagonize the ability of nicotinic acid to elicit a flush response in vivo. In contrast to flushing agonists, exposure of cells expressing GPR109A to the non-flushing agonists fails to induce internalization of the receptor or to activate ERK 1/2 mitogen-activated protein kinase phosphorylation.
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PMID:Nicotinic acid receptor agonists differentially activate downstream effectors. 1745 18

Niacin (nicotinic acid and nicotinamide) is a vitamin used as a source of the NAD+ and NADP+ coenzymes required for many metabolic processes. Its low dietary levels induce the development of pellagra. Niacin has been used for decades in the treatment of patients with disturbed lipid and lipoprotein metabolism, this being the main cause of atherosclerotic changes in cardiovascular diseases. It is still the most efficacious drug in terms of its ability to increase HDL cholesterol content accompanied by a decrease in all atherogenic lipoproteins (VLDL, LDL, and L(a)) as well as fatty acids and triglycerides. Niacin also increases adiponectin level, which might result in additional atheroprotection. There are studies confirming the beneficial action of niacin against migraine and hyperphosphatemia associated with renal failure, ethanol-induced neurodegeneration, and loss of beta-cell function in type 1 diabetes. Moreover, it augments plasma tryptophan concentrations in HIV-infected patients and thyroid radiosensitivity to 131I. Inhibition of the invasion of hepatoma cells has also been proven. However, it is necessary to point out that the currently applied niacin preparations might exhibit such side effects as cutaneous flushing, gastrointestinal disturbances, and hepatotoxicity, particularly during treatment with sustained-release niacin preparations. The recent discovery of the G-protein-coupled receptor GPR109A, which mediates the antilipolytic effects induced by nicotinic acid in adipocytes as well as cutaneous vasodilation, allows the development of new agents interacting with this receptor. In view of these observations, niacin therapy must be accompanied by control of the choice of niacin preparation and its dose in order to eliminate or at least limit its side effects.
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PMID:[Niacin in therapy]. 1755 32


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