Difference between revisions of "Niacin" - New World Encyclopedia
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| − | '''Niacin''', also known as '''nicotinic acid''' or '''vitamin B<sub>3</sub>''', is one of the B vitamins ( | + | '''Niacin''', also known as '''nicotinic acid''' or '''vitamin B<sub>3</sub>''', is one of the B vitamins (vitamin B complex), a group of chemically distinct, water-soluable vitamins that also includes [[thiamine]], [[riboflaven]], pantothenic acid, biotin, pyridoxine, folic acid, and others. Once considered to be a single vitamin, vitamin B is now seen as a complex of different vitamins that generally are found in the same foods. Vitamins are organic ([[carbon]]-containing) nutrients obtained through the diet and essential in small amounts for normal [[metabolism|metabolic]] reactions. |
| − | Niacin is a vitamin whose derivatives | + | Niacin is a vitamin whose derivatives [[Nicotinamide adenine dinucleotide|NADH]], NAD, NAD<sup>+</sup>, and NADP, play essential roles in energy metabolism in the living [[cell (biology)|cell]] and [[DNA]] repair (Feinburg 2006). The designation ''vitamin B<sub>3</sub>'', whose chemical formula is C<sub>5</sub>H<sub>4</sub>NCOOH (or alternatively, C<sub>6</sub>H<sub>6</sub>NO<sub>2</sub>), also includes the corresponding [[amide]] [[nicotinamide]], or '''niacinamide''', whose chemical formula is C<sub>6</sub>H<sub>6</sub>N<sub>2</sub>O. |
Niacin is found in meat, fish, nuts, green vegatables, and yeast, among other sources. Niacin deficiency results in pellagra. | Niacin is found in meat, fish, nuts, green vegatables, and yeast, among other sources. Niacin deficiency results in pellagra. | ||
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Both nicotinic acid and nicotinamide are used to form the coenzymes NAD and NADP, which are important cofactors found in [[cell (biology)|cell]]s. | Both nicotinic acid and nicotinamide are used to form the coenzymes NAD and NADP, which are important cofactors found in [[cell (biology)|cell]]s. | ||
| − | '''Nicotinamide adenine dinucleotide''' (NAD<sup>+</sup>) and '''nicotinamide adenine dinucleotide phosphate''' (NADP<sup>+</sup>) play key roles as carriers of electrons in the transfer of reduction potential. | + | '''Nicotinamide adenine dinucleotide''' (NAD<sup>+</sup>) and '''nicotinamide adenine dinucleotide phosphate''' (NADP<sup>+</sup>) play key roles as carriers of electrons in the transfer of reduction potential. NADH is the [[redox|reduced]] form of NAD<sup>+</sup>, and NAD<sup>+</sup> is the [[oxidized]] form of NADH. Similarly, NADPH is the [[redox|reduced]] form of NADP<sup>+</sup>, and NADP<sup>+</sup> is the [[oxidized]] form of NADPH. |
| − | NAD (and | + | Many enzymes require niacin coenzymes NAD and NADP. Though differing by only a single phosphate group, NAD and NADP have distinct functions in biochemistry. NAD (NADH) is used extensively in [[metabolism|catabolism]] of [[carbohydrate]]s, [[fat]]s, [[protein]]s, and [[alcohol]] to produce energy. Thus, it is prominent in [[glycolysis]] and the [[citric acid cycle]] of cellular respiration. In contract, NADP (NADPH) is utilized in [[metabolism|anabolic]] reactions (biosynthesis), such as synthesis of [[nucleic acid]]s, [[fatty acid]]s, and [[cholesterol]] (Higdon 2002). |
| − | + | In synthesizing NAD<sup>+</sup>, nicotiniamide is joined with [[ribose]] and [[ADP]] to form NAD<sup>+</sup>. From NAD<sup>+</sup>, the addition of a [[phosphate]] group to the 2' position of the [[adenine|adenyl]] nucleotide through an [[ester]] linkage forms NADP<sup>+</sup>. | |
| − | + | NAD (and niacin) may also be synthesized in the [[liver]] from the amino acid tryptophan (Hidgon 2002). | |
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==Deficiency and overdose== | ==Deficiency and overdose== | ||
Revision as of 18:58, 29 January 2007
| Niacin[1] | |
|---|---|
| |
| Systematic name | 3-Pyridinecarboxylic acid |
| Other names | Niacin Pyridine-β-carboxylic acid Vitamin B3 |
| Chemical formula | C6H5NO2 |
| Molecular mass | 123.11 g/mol |
| Melting point | 236.6 °C |
| Boiling point | decomposes |
| CAS number | [59-67-6] |
| SMILES | OC(C1=CN=CC=C1)=O |
| Disclaimer and references | |
Niacin, also known as nicotinic acid or vitamin B3, is one of the B vitamins (vitamin B complex), a group of chemically distinct, water-soluable vitamins that also includes thiamine, riboflaven, pantothenic acid, biotin, pyridoxine, folic acid, and others. Once considered to be a single vitamin, vitamin B is now seen as a complex of different vitamins that generally are found in the same foods. Vitamins are organic (carbon-containing) nutrients obtained through the diet and essential in small amounts for normal metabolic reactions.
Niacin is a vitamin whose derivatives NADH, NAD, NAD+, and NADP, play essential roles in energy metabolism in the living cell and DNA repair (Feinburg 2006). The designation vitamin B3, whose chemical formula is C5H4NCOOH (or alternatively, C6H6NO2), also includes the corresponding amide nicotinamide, or niacinamide, whose chemical formula is C6H6N2O.
Niacin is found in meat, fish, nuts, green vegatables, and yeast, among other sources. Niacin deficiency results in pellagra.
Function: NAD and NADP
Both nicotinic acid and nicotinamide are used to form the coenzymes NAD and NADP, which are important cofactors found in cells.
Nicotinamide adenine dinucleotide (NAD+) and nicotinamide adenine dinucleotide phosphate (NADP+) play key roles as carriers of electrons in the transfer of reduction potential. NADH is the reduced form of NAD+, and NAD+ is the oxidized form of NADH. Similarly, NADPH is the reduced form of NADP+, and NADP+ is the oxidized form of NADPH.
Many enzymes require niacin coenzymes NAD and NADP. Though differing by only a single phosphate group, NAD and NADP have distinct functions in biochemistry. NAD (NADH) is used extensively in catabolism of carbohydrates, fats, proteins, and alcohol to produce energy. Thus, it is prominent in glycolysis and the citric acid cycle of cellular respiration. In contract, NADP (NADPH) is utilized in anabolic reactions (biosynthesis), such as synthesis of nucleic acids, fatty acids, and cholesterol (Higdon 2002).
In synthesizing NAD+, nicotiniamide is joined with ribose and ADP to form NAD+. From NAD+, the addition of a phosphate group to the 2' position of the adenyl nucleotide through an ester linkage forms NADP+.
NAD (and niacin) may also be synthesized in the liver from the amino acid tryptophan (Hidgon 2002).
Deficiency and overdose
Severe lack of niacin causes the deficiency disease pellagra, whereas a mild deficiency slows down the metabolism decreasing cold tolerance. The symptoms of pellagra include high sensitivity to sunlight, aggression, dermatitis, red skin lesions, insomnia, weakness, mental confusion, diarrhea, and dementia (eventually). Overall, the main results of pellagra can easily be remembered as "the four D's": diarrhea, dermatitis, dementia, and death. Untreated, the disease can kill within four or five years.
Extemely high doses of niacin can cause niacin maculopathy, a thickening of the macula and retina, which leads to blurred vision and blindness (Gass 1973).
Niacin in itself is not toxic, but the chemicals converted by niacin are toxic to the skin and liver in overdose, and high doses of niacin should only be reached with gradual increase. Studies in laboratory animals have demonstrated behavioral changes when large doses of niacin are given (Sullivan 1958).
The recommended daily allowance of niacin is 2-12 mg a day for children, 14 mg a day for women, 16 mg a day for men, and 18 mg a day for pregnant or breast-feeding women (Higdon 2002). Over 20 mg per day may produce hot flushes lasting 15-30 minutes in duration.
A deficiency of niacin can be caused by inadequate dietary intake of niacin or inadequate intake of the amino acid tryptophan, which can be converted into niacin, although the conversion rate is low (Hidgon 2002).
Discovery
Nicotinic acid was first discovered from the oxidation of nicotine. When the properties of nicotinic acid were discovered, it was thought prudent to choose a name to dissociate it from nicotine and to avoid the idea that either smoking provided vitamins or that wholesome food contained a poison. The resulting name 'niacin' was derived from nicotinic acid + vitamin. Niacin refers to both nicotinic acid and nicotinamide.
Vitamin B3 is also referred to as "vitamin PP", a name derived from the obsolete term "pellagra-preventing factor."
Bioavailability and biosynthesis
The liver can synthesize niacin from the essential amino acid tryptophan, but the synthesis is extremely slow; 60 mg of tryptophan are required to make one milligram of niacin (Higdon 2002). ] Dietary niacin deficiency is prominent in areas where people eat corn, a grain that is low in niacin, as a staple food, and that don't use lime during maize (corn) meal/flour production. Alkali lime releases the tryptophan from the corn so that it can be absorbed in the gut, and converted to niacin (UMMC 2004).
The 5-membered aromatic heterocycle of the essential amino acid, tryptophan, is cleaved and rearranged with the alpha amino group of tryptophan into the 6-membered aromatic heterocycle of niacin by the following reaction:
Biosynthesis: Tryptophan → kynurenine → niacin
Food Sources
| Animal products: | Fruits and vegetables: | Seeds: | Fungi: |
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Other uses
Niacin plays an important role in the production of several sex and stress-related hormones, particularly those made by the adrenal gland. It also plays a role in removing toxic and harmful chemicals from the body (UMMC 2004).
Niacin, when taken in large doses, increases the level of high density lipoprotein (HDL) or "good" cholesterol in blood, and is sometimes prescribed for patients with low HDL, and at high risk of heart attack (McGovern 2005). Niacin (but not niacinamide) is also used in the treatment of hyperlipidemia because it reduces very low density lipoprotein (VLDL), a precursor of low density lipoprotein (LDL) or "bad" cholesterol, secretion from the liver, and inhibits cholesterol synthesis (Trevor et al. 2005). The main problem with the clinical use of niacin for dyslipidemia is the occurrence of skin flushing, even with moderate doses (NLM and NIH 2005).
There are current attempts to create a prolonged-release formulation of the substance, to allow it to be used more often and more comfortably (Barter 2006).
Industrial use
Nicotinic acid reacts with hemoglobin and myoglobin in meat to form a brightly colored complex, and thus has been used as a food additive, typically to improve the color of minced (ground) meat. Niacin is licensed as a food coloring agent in some countries.
ReferencesISBN links support NWE through referral fees
- ↑ Merck Index, 11th Edition, 6435.
- Feinberg School, Norwthwestern University. 2006. Nutrition Fact Sheet: Niacin (vitamin B3). NorthwesternNutrition. Retrieved January 28, 2007.
<UMMC. 2004. Vitamin B3 (Niacin). ref name=UMM>Vitamin B3 University of Maryland Medical Center.</ref>
.[4]
[5] U.S. National Library of Medicine, 8600 Rockville Pike, Bethesda, MD 20894 National Institutes of Health
.[7].
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- ↑ Options for therapeutic intervention: how effective are the different agents? Philip Barter Options for therapeutic intervention: how effective are the different agents? European Heart Journal Supplements Vol 8 Suppl F Pp. F47-F53 http://eurheartjsupp.oxfordjournals.org/cgi/content/abstract/8/suppl_F/F47
- ↑ JD Gass, Nictonic Acid Maculopathy, Am. J. Opthamology, 1973;76:500-10
- ↑ Jane Higdon, "Niacin", Micronutrient Information Center, Linus Pauling Institute http://lpi.oregonstate.edu/infocenter/vitamins/niacin/ Linus Pauling Institute (Oregon State University). Niacin.
- ↑ Taking aim at HDL-C: Raising levels to reduce cardiovascular risk</ Mark E. McGovern, MD VOL 117 / NO 4 / APRIL 2005 / POSTGRADUATE MEDICINE Taking aim at HDL-C: Raising levels to reduce cardiovascular risk
- ↑ (NLM and NIH 2005). NIH Medline Plus: Niacin. http://www.nlm.nih.gov/medlineplus/ency/article/002409.htm.
- ↑ Sullivan, WT (June 10, 1958). Behavioral changes in rats and guinea pigs induced by the administration of indole 3-acetic acid and 6-aminonicotinamide. The Journal of Nutrition: 199-209.
- ↑ Katzung and Trevors Pharmacology Examination and Board Review 7th edition, Authors: Trevor, Anthony J. Katzung, Bertram G. and Masters, Susan B., Lange Medical Books/ McGraw-Hill 2005
