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Wikipedia

Cyanocobalamin

October 17, 2023

Cyanocobalamin is a form of vitamin B
12 used to treat and prevent vitamin B
12 deficiency except in the presence of cyanide toxicity.[6][7][2] The deficiency may occur in pernicious anemia, following surgical removal of the stomach, with fish tapeworm, or due to bowel cancer.[8] It is less preferred than hydroxocobalamin for treating vitamin B
12 deficiency. Some study have shown that it has an antihypotensive effect.[4] It is used by mouth, by injection into a muscle, or as a nasal spray.[4][5]

Cyanocobalamin
Stick model of cyanocobalamin based on the crystal structure[1]
Clinical data
Pronunciationsye AN oh koe BAL a min[2]
Trade namesCobolin-M,[2] Depo-Cobolin,[2] others[3]
AHFS/Drugs.comProfessional Drug Facts
MedlinePlusa604029
License data
Pregnancy
category
  • AU: Exempt
Routes of
administration		By mouth, intramuscular, nasal spray[4][5]
ATC code
Legal status
Legal status
  • US: OTC / Rx-only
Identifiers
CAS Number
  • 68-19-9
PubChem CID
  • 16212801
DrugBank
  • DB00115
ChemSpider
  • 24921423
UNII
  • P6YC3EG204
KEGG
  • D00166
ChEMBL
  • ChEMBL2110563
ECHA InfoCard100.000.618
Chemical and physical data
FormulaC63H88CoN14O14P
Molar mass1355.388 g·mol−1
3D model (JSmol)
  • Interactive image
Melting point300 °C (572 °F) +
Boiling point300 °C (572 °F) +
Solubility in water1/80g/ml
  • CC1=CC2=C(C=C1C)N(C=N2)C3C(C(C(O3)CO)OP(=O)([O-])OC(C)CNC(=O)CCC4(C(C5C6(C(C(C(=C(C7=NC(=CC8=NC(=C(C4=N5)C)C(C8(C)C)CCC(=O)N)C(C7(C)CC(=O)N)CCC(=O)N)C)[N-]6)CCC(=O)N)(C)CC(=O)N)C)CC(=O)N)C)O.[C-]#N.[Co+3]
  • InChI=1S/C62H90N13O14P.CN.Co/c1-29-20-39-40(21-30(29)2)75(28-70-39)57-52(84)53(41(27-76)87-57)89-90(85,86)88-31(3)26-69-49(83)18-19-59(8)37(22-46(66)80)56-62(11)61(10,25-48(68)82)36(14-17-45(65)79)51(74-62)33(5)55-60(9,24-47(67)81)34(12-15-43(63)77)38(71-55)23-42-58(6,7)35(13-16-44(64)78)50(72-42)32(4)54(59)73-56;1-2;/h20-21,23,28,31,34-37,41,52-53,56-57,76,84H,12-19,22,24-27H2,1-11H3,(H15,63,64,65,66,67,68,69,71,72,73,74,77,78,79,80,81,82,83,85,86);;/q;-1;+3/p-2/t31-,34-,35-,36-,37+,41-,52-,53-,56-,57?,59-,60+,61+,62+;;/m1../s1
  • Key:FDJOLVPMNUYSCM-QJRSUKKJSA-L

Cyanocobalamin is generally well tolerated.[9] Minor side effects may include diarrhea and itchiness.[10] Serious side effects may include anaphylaxis, low blood potassium, and heart failure.[10] Use is not recommended in those who are allergic to cobalt or have Leber's disease.[8] Vitamin B
12 is an essential nutrient meaning that it cannot be made by the body but is required for life.[11][9]

Cyanocobalamin was first manufactured in the 1940s.[12] It is available as a generic medication and over the counter.[4][9] In 2020, it was the 105th most commonly prescribed medication in the United States, with more than 6 million prescriptions.[13][14]

Medical use Edit

Cyanocobalamin is usually prescribed after surgical removal of part or all of the stomach or intestine to ensure adequate serum levels of vitamin B
12. It is also used to treat pernicious anemia, vitamin B
12 deficiency (due to low intake from food or inability to absorb due to genetic or other factors), thyrotoxicosis, hemorrhage, malignancy, liver disease and kidney disease. Cyanocobalamin injections are often prescribed to gastric bypass patients who have had part of their small intestine bypassed, making it difficult for B
12 to be acquired via food or vitamins. Cyanocobalamin is also used to perform the Schilling test to check ability to absorb vitamin B
12.[15]

Cyanocobalamin is also produced in the body (and then excreted via urine) after intravenous hydroxycobalamin is used to treat cyanide poisoning.[16]

Side effects Edit

Possible side effects of cyanocobalamin injection include allergic reactions such as hives, difficult breathing; redness of the face; swelling of the arms, hands, feet, ankles or lower legs; extreme thirst; and diarrhea. Less-serious side effects may include headache, dizziness, leg pain, itching, or rash.[17]

Treatment of megaloblastic anemia with concurrent vitamin B
12 deficiency using B
12 vitamers (including cyanocobalamin), creates the possibility of hypokalemia due to increased erythropoiesis (red blood cell production) and consequent cellular uptake of potassium upon anemia resolution.[18] When treated with cyanocobalamin, patients with Leber's disease may develop serious optic atrophy, possibly leading to blindness.[19]

Chemistry Edit

Vitamin B
12 is the "generic descriptor" name for any vitamers of vitamin B
12. Animals, including humans, can convert cyanocobalamin to any one of the active vitamin B
12 compounds.[20]

Cyanocobalamin is one of the most widely manufactured vitamers in the vitamin B
12 family (the family of chemicals that function as B
12 when put into the body), because cyanocobalamin is the most air-stable of the B
12 forms.[21] It is the easiest[22] to crystallize and therefore easiest[23] to purify after it is produced by bacterial fermentation. It can be obtained as dark red crystals or as an amorphous red powder. Cyanocobalamin is hygroscopic in the anhydrous form, and sparingly soluble in water (1:80).[24] It is stable to autoclaving for short periods at 121 °C (250 °F). The vitamin B
12 coenzymes are unstable in light. After consumption the cyanide ligand is replaced by other groups (adenosyl, methyl) to produce the biologically active forms. The cyanide is converted to thiocyanate and excreted by the kidney.[25]

Chemical reactions Edit

 
Reduced forms of Cyanocobalamin, with a Co(I) (top), Co(II) (middle), and Co(III) (bottom)

In the cobalamins, cobalt normally exists in the trivalent state, Co(III). However, under reducing conditions, the cobalt center is reduced to Co(II) or even Co(I), which are usually denoted as B
12r and B
12s, for reduced and super reduced, respectively.

B
12r and B
12s can be prepared from cyanocobalamin by controlled potential reduction, or chemical reduction using sodium borohydride in alkaline solution, zinc in acetic acid, or by the action of thiols. Both B
12r and B
12s are stable indefinitely under oxygen-free conditions. B
12r appears orange-brown in solution, while B
12s appears bluish-green under natural daylight, and purple under artificial light.[26]

B
12s is one of the most nucleophilic species known in aqueous solution.[26] This property allows the convenient preparation of cobalamin analogs with different substituents, via nucleophilic attack on alkyl halides and vinyl halides.[26]

For example, cyanocobalamin can be converted to its analog cobalamins via reduction to B
12s, followed by the addition of the corresponding alkyl halides, acyl halides, alkene or alkyne. Steric hindrance is the major limiting factor in the synthesis of the B
12 coenzyme analogs. For example, no reaction occurs between neopentyl chloride and B
12s, whereas the secondary alkyl halide analogs are too unstable to be isolated.[26] This effect may be due to the strong coordination between benzimidazole and the central cobalt atom, pulling it down into the plane of the corrin ring. The trans effect determines the polarizability of the Co–C bond so formed. However, once the benzimidazole is detached from cobalt by quaternization with methyl iodide, it is replaced by H
2O or hydroxyl ions. Various secondary alkyl halides are then readily attacked by the modified B
12s to give the corresponding stable cobalamin analogs.[27] The products are usually extracted and purified by phenol-methylene chloride extraction or by column chromatography.[26]

Cobalamin analogs prepared by this method include the naturally occurring coenzymes methylcobalamin and cobamamide, and other cobalamins that do not occur naturally, such as vinylcobalamin, carboxymethylcobalamin and cyclohexylcobalamin.[26] This reaction is under review for use as a catalyst for chemical dehalogenation, organic reagent and photosensitized catalyst systems.[28]

Production Edit

Cyanocobalamin is commercially prepared by bacterial fermentation. Fermentation by a variety of microorganisms yields a mixture of methylcobalamin, hydroxocobalamin and adenosylcobalamin. These compounds are converted to cyanocobalamin by addition of potassium cyanide in the presence of sodium nitrite and heat. Since multiple species of Propionibacterium produce no exotoxins or endotoxins and have been granted GRAS status (generally regarded as safe) by the United States Food and Drug Administration, they are the preferred bacterial fermentation organisms for vitamin B
12 production.[29]

Historically, the physiological form was initially thought to be cyanocobalamin. This was because hydroxocobalamin produced by bacteria was changed to cyanocobalamin during purification in activated charcoal columns after separation from the bacterial cultures (because cyanide is naturally present in activated charcoal).[30] Cyanocobalamin is the form in most pharmaceutical preparations because adding cyanide stabilizes the molecule.[31]

The total world production of vitamin B12, by four companies (the French Sanofi-Aventis and three Chinese companies) in 2008 was 35 tonnes.[32]

Metabolism Edit

The two bioactive forms of vitamin B
12 are methylcobalamin in cytosol and adenosylcobalamin in mitochondria. Multivitamins often contain cyanocobalamin, which is presumably converted to bioactive forms in the body. Both methylcobalamin and adenosylcobalamin are commercially available as supplement pills. The MMACHC gene product catalyzes the decyanation of cyanocobalamin as well as the dealkylation of alkylcobalamins including methylcobalamin and adenosylcobalamin.[33] This function has also been attributed to cobalamin reductases.[34] The MMACHC gene product and cobalamin reductases enable the interconversion of cyano- and alkylcobalamins.[35]

Cyanocobalamin is added to fortify[36] nutrition, including baby milk powder, breakfast cereals and energy drinks for humans, also animal feed for poultry, swine and fish. Vitamin B
12 becomes inactive due to hydrogen cyanide and nitric oxide in cigarette smoke. Vitamin B
12 also becomes inactive due to nitrous oxide N
2O commonly known as laughing gas, used for anaesthesia and as a recreational drug.[37] Vitamin B
12 becomes inactive due to microwaving or other forms of heating.[38]

In the cytosol Edit

Methylcobalamin and 5-methyltetrahydrofolate are needed by methionine synthase in the methionine cycle to transfer a methyl group from 5-methyltetrahydrofolate to homocysteine, thereby generating tetrahydrofolate (THF) and methionine, which is used to make SAMe. SAMe is the universal methyl donor and is used for DNA methylation and to make phospholipid membranes, choline, sphingomyelin, acetylcholine, and other neurotransmitters.

In mitochondria Edit

 
Vitamin B
12 adenosylcobalamin in mitochondrion—cholesterol and protein metabolism

The enzymes that use B
12 as a built-in cofactor are methylmalonyl-CoA mutase (PDB 4REQ[39]) and methionine synthase (PDB 1Q8J).[40]

The metabolism of propionyl-CoA occurs in the mitochondria and requires Vitamin B
12 (as adenosylcobalamin) to make succinyl-CoA. When the conversion of propionyl-CoA to succinyl-CoA in the mitochondria fails due to Vitamin B
12 deficiency, elevated blood levels of methylmalonic acid (MMA) occur. Thus, elevated blood levels of homocysteine and MMA may both be indicators of vitamin B
12 deficiency.

Adenosylcobalamin is needed as cofactor in methylmalonyl-CoA mutase—MUT enzyme. Processing of cholesterol and protein gives propionyl-CoA that is converted to methylmalonyl-CoA, which is used by MUT enzyme to make succinyl-CoA. Vitamin B
12 is needed to prevent anemia, since making porphyrin and heme in mitochondria for producing hemoglobin in red blood cells depends on succinyl-CoA made by vitamin B
12.

Absorption and transport Edit

Inadequate absorption of vitamin B
12 may be related to coeliac disease. Intestinal absorption of vitamin B
12 requires successively three different protein molecules: haptocorrin, intrinsic factor and transcobalamin II.

See also Edit

References Edit

  1. ^ Prieto L, Neuburger M, Spingler B, Zelder F (October 2016). "Inorganic Cyanide as Protecting Group in the Stereospecific Reconstitution of Vitamin B12 from an Artificial Green Secocorrinoid" (PDF). Organic Letters. 18 (20): 5292–5295. doi:10.1021/acs.orglett.6b02611. PMID 27726382.
  2. ^ a b c d "Vitamin B12 Injection: Side Effects, Uses & Dosage". Drugs.com. Retrieved 19 April 2019.
  3. ^ "Cyanocobalamin – Drug Usage Statistics, United States, 2006–2016". ClinCalc.com. Retrieved 9 November 2019.
  4. ^ a b c d British national formulary : BNF 76 (76 ed.). Pharmaceutical Press. 2018. pp. 993–994. ISBN 9780857113382.
  5. ^ a b "Cyanocobalamin Side Effects in Detail". Drugs.com. Retrieved 19 April 2019.
  6. ^ Linnell JC, Matthews DM, England JM (November 1978). "Therapeutic misuse of cyanocobalamin". Lancet. 2 (8098): 1053–1054. doi:10.1016/s0140-6736(78)92379-6. PMID 82069. S2CID 29703726.
  7. ^ Herbert V (September 1988). "Vitamin B-12: plant sources, requirements, and assay". The American Journal of Clinical Nutrition. 48 (3 Suppl): 852–858. doi:10.1093/ajcn/48.3.852. PMID 3046314.
  8. ^ a b "DailyMed – cyanocobalamin, isopropyl alcohol". dailymed.nlm.nih.gov. Retrieved 19 April 2019.
  9. ^ a b c Lilley LL, Collins SR, Snyder JS (2019). Pharmacology and the Nursing Process E-Book. Elsevier Health Sciences. p. 83. ISBN 9780323550468.
  10. ^ a b "Cyanocobalamin - FDA prescribing information, side effects and uses". Drugs.com. Retrieved 19 April 2019.
  11. ^ Markle HV (1996). "Cobalamin". Critical Reviews in Clinical Laboratory Sciences. 33 (4): 247–356. doi:10.3109/10408369609081009. PMID 8875026.
  12. ^ Orkin SH, Nathan DG, Ginsburg D, Look AT, Fisher DE, Lux S (2014). Nathan and Oski's Hematology and Oncology of Infancy and Childhood E-Book. Elsevier Health Sciences. p. 309. ISBN 9780323291774.
  13. ^ "The Top 300 of 2020". ClinCalc. Retrieved 7 October 2022.
  14. ^ "Cyanocobalamin - Drug Usage Statistics". ClinCalc. Retrieved 7 October 2022.
  15. ^ . University of Maryland Medical Center
  16. ^ MacLennan L, Moiemen N (February 2015). "Management of cyanide toxicity in patients with burns". Burns. 41 (1): 18–24. doi:10.1016/j.burns.2014.06.001. PMID 24994676.
  17. ^ . MedlinePlus. Archived from the original on 19 April 2015. Retrieved 4 July 2015.
  18. ^ . Centers for Disease Control and Prevention. Archived from the original on 26 April 2015. Retrieved 4 July 2015.
  19. ^ . MedlinePlus. Archived from the original on 5 April 2015. Retrieved 4 July 2015.
  20. ^ Quadros EV (January 2010). "Advances in the understanding of cobalamin assimilation and metabolism". British Journal of Haematology. 148 (2): 195–204. doi:10.1111/j.1365-2141.2009.07937.x. PMC 2809139. PMID 19832808.
  21. ^ "Cyanocobalamin Injection". Empower Pharmacy. Retrieved 2 April 2021.
  22. ^ "Vitamin B12 (Cyanocobalamin)". +Medicine LibreTexts. 12 May 2017. Retrieved 2 April 2021.
  23. ^ "TERMIUM Plus®". Canada.ca. Government of Canada. 8 October 2009. Retrieved 2 April 2021.
  24. ^ "Nascobal® (Cyanocobalamin, USP) Nasal Spray 500 mcg/spray 0.125 mL Rx only" (PDF). Access Data FDA. Retrieved 2 April 2021.
  25. ^ Pimenta E, Calhoun DA, Oparil S (2010). "Chapter 28: Hypertensive emergencies". In Jeremias A, Brown DL (eds.). Cardiac Intensive Care (2nd ed.). Philadelphia, PA: Saunders/Elsevier. ISBN 978-1-4160-3773-6.
  26. ^ a b c d e f Dolphin D (January 1971). "[205] Preparation of the reduced forms of vitamin B12 and of some analogs of the vitamin B12 coenzyme containing a cobalt-carbon bond". In McCormick DB, Wright LD (eds.). [205] Preparation of the reduced forms of vitamin B12 and of some analogs of the vitamin B12 coenzyme containing a cobalt-carbon bond. Methods in Enzymology. Vol. 18. Academic Press. pp. 34–52. doi:10.1016/S0076-6879(71)18006-8. ISBN 9780121818821.
  27. ^ Brodie JD (February 1969). "On the mechanism of catalysis by vitamin B12". Proceedings of the National Academy of Sciences of the United States of America. 62 (2): 461–467. Bibcode:1969PNAS...62..461B. doi:10.1073/pnas.62.2.461. PMC 277821. PMID 5256224.
  28. ^ Shimakoshi H, Hisaeda Y. "Environmental-friendly catalysts learned from Vitamin B
    12    -dependent enzymes" (PDF). Tcimail. 128: 2.    [permanent dead link]
  29. ^ Riaz M, Ansari ZA, Iqbal F, Akram M (2007). . Pak J. Biochem. Mol. Biol. 40: 5–10. Archived from the original on 25 April 2012. Retrieved 31 October 2017.
  30. ^ Linnell JC, Matthews DM (February 1984). "Cobalamin metabolism and its clinical aspects". Clinical Science. 66 (2): 113–121. doi:10.1042/cs0660113. PMID 6420106.
  31. ^ Herbert V (September 1988). "Vitamin B-12: plant sources, requirements, and assay". The American Journal of Clinical Nutrition. 48 (3 Suppl): 852–858. doi:10.1093/ajcn/48.3.852. PMID 3046314.
  32. ^ Zhang Y (26 January 2009). . China Chemical Reporter. Archived from the original on 13 May 2013.
  33. ^ Hannibal L, Kim J, Brasch NE, Wang S, Rosenblatt DS, Banerjee R, Jacobsen DW (August 2009). "Processing of alkylcobalamins in mammalian cells: A role for the MMACHC (cblC) gene product". Molecular Genetics and Metabolism. 97 (4): 260–266. doi:10.1016/j.ymgme.2009.04.005. PMC 2709701. PMID 19447654.
  34. ^ Watanabe F, Nakano Y (1997). "Purification and characterization of aquacobalamin reductases from mammals". Vitamins and Coenzymes Part K. Methods in Enzymology. Vol. 281. pp. 295–305. doi:10.1016/S0076-6879(97)81036-1. ISBN 9780121821821. PMID 9250994.
  35. ^ Quadros EV, Jackson B, Hoffbrand AV, Linnell JC (1979). "Interconversion of cobalamins in human lymphocytes in vitro and the influence of nitrous oxide on the synthesis of cobalamin coenzymes". Vitamin B12, Proceedings of the Third European Symposium on Vitamin B12 and Intrinsic Factor.: 1045–1054.
  36. ^ "DSM in Food, Beverages & Dietary Supplements". DSM. Retrieved 2 March 2015.
  37. ^ Thompson AG, Leite MI, Lunn MP, Bennett DL (June 2015). "Whippits, nitrous oxide and the dangers of legal highs". Practical Neurology. 15 (3): 207–209. doi:10.1136/practneurol-2014-001071. PMC 4453489. PMID 25977272.
  38. ^ Watanabe F, Abe K, Fujita T, Goto M, Hiemori M, Nakano Y (January 1998). "Effects of Microwave Heating on the Loss of Vitamin B(12) in Foods". Journal of Agricultural and Food Chemistry. 46 (1): 206–210. doi:10.1021/jf970670x. PMID 10554220. S2CID 23096987.
  39. ^ Mancia F, Evans PR (June 1998). "Conformational changes on substrate binding to methylmalonyl CoA mutase and new insights into the free radical mechanism". Structure. 6 (6): 711–720. doi:10.1016/S0969-2126(98)00073-2. PMID 9655823.
  40. ^ Evans JC, Huddler DP, Hilgers MT, Romanchuk G, Matthews RG, Ludwig ML (March 2004). "Structures of the N-terminal modules imply large domain motions during catalysis by methionine synthase". Proceedings of the National Academy of Sciences of the United States of America. 101 (11): 3729–3736. Bibcode:2004PNAS..101.3729E. doi:10.1073/pnas.0308082100. PMC 374312. PMID 14752199.

External links Edit

  • "Cyanocobalamin". Drug Information Portal. U.S. National Library of Medicine.

October 17, 2023
cyanocobalamin, form, vitamin, used, treat, prevent, vitamin, deficiency, except, presence, cyanide, toxicity, deficiency, occur, pernicious, anemia, following, surgical, removal, stomach, with, fish, tapeworm, bowel, cancer, less, preferred, than, hydroxocoba. Cyanocobalamin is a form of vitamin B12 used to treat and prevent vitamin B12 deficiency except in the presence of cyanide toxicity 6 7 2 The deficiency may occur in pernicious anemia following surgical removal of the stomach with fish tapeworm or due to bowel cancer 8 It is less preferred than hydroxocobalamin for treating vitamin B12 deficiency Some study have shown that it has an antihypotensive effect 4 It is used by mouth by injection into a muscle or as a nasal spray 4 5 CyanocobalaminSkeletal formulaStick model of cyanocobalamin based on the crystal structure 1 Clinical dataPronunciationsye AN oh koe BAL a min 2 Trade namesCobolin M 2 Depo Cobolin 2 others 3 AHFS Drugs comProfessional Drug FactsMedlinePlusa604029License dataUS DailyMed CyanocobalaminPregnancycategoryAU ExemptRoutes ofadministrationBy mouth intramuscular nasal spray 4 5 ATC codeB03BA01 WHO Legal statusLegal statusUS OTC Rx onlyIdentifiersCAS Number68 19 9PubChem CID16212801DrugBankDB00115ChemSpider24921423UNIIP6YC3EG204KEGGD00166ChEMBLChEMBL2110563ECHA InfoCard100 000 618Chemical and physical dataFormulaC 63H 88Co N 14O 14PMolar mass1355 388 g mol 13D model JSmol Interactive imageMelting point300 C 572 F Boiling point300 C 572 F Solubility in water1 80g mlSMILES CC1 CC2 C C C1C N C N2 C3C C C O3 CO OP O O OC C CNC O CCC4 C C5C6 C C C C C7 NC CC8 NC C C4 N5 C C C8 C C CCC O N C C7 C CC O N CCC O N C N 6 CCC O N C CC O N C CC O N C O C N Co 3 InChI InChI 1S C62H90N13O14P CN Co c1 29 20 39 40 21 30 29 2 75 28 70 39 57 52 84 53 41 27 76 87 57 89 90 85 86 88 31 3 26 69 49 83 18 19 59 8 37 22 46 66 80 56 62 11 61 10 25 48 68 82 36 14 17 45 65 79 51 74 62 33 5 55 60 9 24 47 67 81 34 12 15 43 63 77 38 71 55 23 42 58 6 7 35 13 16 44 64 78 50 72 42 32 4 54 59 73 56 1 2 h20 21 23 28 31 34 37 41 52 53 56 57 76 84H 12 19 22 24 27H2 1 11H3 H15 63 64 65 66 67 68 69 71 72 73 74 77 78 79 80 81 82 83 85 86 q 1 3 p 2 t31 34 35 36 37 41 52 53 56 57 59 60 61 62 m1 s1Key FDJOLVPMNUYSCM QJRSUKKJSA LCyanocobalamin is generally well tolerated 9 Minor side effects may include diarrhea and itchiness 10 Serious side effects may include anaphylaxis low blood potassium and heart failure 10 Use is not recommended in those who are allergic to cobalt or have Leber s disease 8 Vitamin B12 is an essential nutrient meaning that it cannot be made by the body but is required for life 11 9 Cyanocobalamin was first manufactured in the 1940s 12 It is available as a generic medication and over the counter 4 9 In 2020 it was the 105th most commonly prescribed medication in the United States with more than 6 million prescriptions 13 14 Contents 1 Medical use 2 Side effects 3 Chemistry 3 1 Chemical reactions 4 Production 5 Metabolism 5 1 In the cytosol 5 2 In mitochondria 5 3 Absorption and transport 6 See also 7 References 8 External linksMedical use EditCyanocobalamin is usually prescribed after surgical removal of part or all of the stomach or intestine to ensure adequate serum levels of vitamin B12 It is also used to treat pernicious anemia vitamin B12 deficiency due to low intake from food or inability to absorb due to genetic or other factors thyrotoxicosis hemorrhage malignancy liver disease and kidney disease Cyanocobalamin injections are often prescribed to gastric bypass patients who have had part of their small intestine bypassed making it difficult for B12 to be acquired via food or vitamins Cyanocobalamin is also used to perform the Schilling test to check ability to absorb vitamin B12 15 Cyanocobalamin is also produced in the body and then excreted via urine after intravenous hydroxycobalamin is used to treat cyanide poisoning 16 Side effects EditPossible side effects of cyanocobalamin injection include allergic reactions such as hives difficult breathing redness of the face swelling of the arms hands feet ankles or lower legs extreme thirst and diarrhea Less serious side effects may include headache dizziness leg pain itching or rash 17 Treatment of megaloblastic anemia with concurrent vitamin B12 deficiency using B12 vitamers including cyanocobalamin creates the possibility of hypokalemia due to increased erythropoiesis red blood cell production and consequent cellular uptake of potassium upon anemia resolution 18 When treated with cyanocobalamin patients with Leber s disease may develop serious optic atrophy possibly leading to blindness 19 Chemistry EditVitamin B12 is the generic descriptor name for any vitamers of vitamin B12 Animals including humans can convert cyanocobalamin to any one of the active vitamin B12 compounds 20 Cyanocobalamin is one of the most widely manufactured vitamers in the vitamin B12 family the family of chemicals that function as B12 when put into the body because cyanocobalamin is the most air stable of the B12 forms 21 It is the easiest 22 to crystallize and therefore easiest 23 to purify after it is produced by bacterial fermentation It can be obtained as dark red crystals or as an amorphous red powder Cyanocobalamin is hygroscopic in the anhydrous form and sparingly soluble in water 1 80 24 It is stable to autoclaving for short periods at 121 C 250 F The vitamin B12 coenzymes are unstable in light After consumption the cyanide ligand is replaced by other groups adenosyl methyl to produce the biologically active forms The cyanide is converted to thiocyanate and excreted by the kidney 25 Chemical reactions Edit nbsp Reduced forms of Cyanocobalamin with a Co I top Co II middle and Co III bottom In the cobalamins cobalt normally exists in the trivalent state Co III However under reducing conditions the cobalt center is reduced to Co II or even Co I which are usually denoted as B12r and B12s for reduced and super reduced respectively B12r and B12s can be prepared from cyanocobalamin by controlled potential reduction or chemical reduction using sodium borohydride in alkaline solution zinc in acetic acid or by the action of thiols Both B12r and B12s are stable indefinitely under oxygen free conditions B12r appears orange brown in solution while B12s appears bluish green under natural daylight and purple under artificial light 26 B12s is one of the most nucleophilic species known in aqueous solution 26 This property allows the convenient preparation of cobalamin analogs with different substituents via nucleophilic attack on alkyl halides and vinyl halides 26 For example cyanocobalamin can be converted to its analog cobalamins via reduction to B12s followed by the addition of the corresponding alkyl halides acyl halides alkene or alkyne Steric hindrance is the major limiting factor in the synthesis of the B12 coenzyme analogs For example no reaction occurs between neopentyl chloride and B12s whereas the secondary alkyl halide analogs are too unstable to be isolated 26 This effect may be due to the strong coordination between benzimidazole and the central cobalt atom pulling it down into the plane of the corrin ring The trans effect determines the polarizability of the Co C bond so formed However once the benzimidazole is detached from cobalt by quaternization with methyl iodide it is replaced by H2 O or hydroxyl ions Various secondary alkyl halides are then readily attacked by the modified B12s to give the corresponding stable cobalamin analogs 27 The products are usually extracted and purified by phenol methylene chloride extraction or by column chromatography 26 Cobalamin analogs prepared by this method include the naturally occurring coenzymes methylcobalamin and cobamamide and other cobalamins that do not occur naturally such as vinylcobalamin carboxymethylcobalamin and cyclohexylcobalamin 26 This reaction is under review for use as a catalyst for chemical dehalogenation organic reagent and photosensitized catalyst systems 28 Production EditCyanocobalamin is commercially prepared by bacterial fermentation Fermentation by a variety of microorganisms yields a mixture of methylcobalamin hydroxocobalamin and adenosylcobalamin These compounds are converted to cyanocobalamin by addition of potassium cyanide in the presence of sodium nitrite and heat Since multiple species of Propionibacterium produce no exotoxins or endotoxins and have been granted GRAS status generally regarded as safe by the United States Food and Drug Administration they are the preferred bacterial fermentation organisms for vitamin B12 production 29 Historically the physiological form was initially thought to be cyanocobalamin This was because hydroxocobalamin produced by bacteria was changed to cyanocobalamin during purification in activated charcoal columns after separation from the bacterial cultures because cyanide is naturally present in activated charcoal 30 Cyanocobalamin is the form in most pharmaceutical preparations because adding cyanide stabilizes the molecule 31 The total world production of vitamin B12 by four companies the French Sanofi Aventis and three Chinese companies in 2008 was 35 tonnes 32 Metabolism EditThe two bioactive forms of vitamin B12 are methylcobalamin in cytosol and adenosylcobalamin in mitochondria Multivitamins often contain cyanocobalamin which is presumably converted to bioactive forms in the body Both methylcobalamin and adenosylcobalamin are commercially available as supplement pills The MMACHC gene product catalyzes the decyanation of cyanocobalamin as well as the dealkylation of alkylcobalamins including methylcobalamin and adenosylcobalamin 33 This function has also been attributed to cobalamin reductases 34 The MMACHC gene product and cobalamin reductases enable the interconversion of cyano and alkylcobalamins 35 Cyanocobalamin is added to fortify 36 nutrition including baby milk powder breakfast cereals and energy drinks for humans also animal feed for poultry swine and fish Vitamin B12 becomes inactive due to hydrogen cyanide and nitric oxide in cigarette smoke Vitamin B12 also becomes inactive due to nitrous oxide N2 O commonly known as laughing gas used for anaesthesia and as a recreational drug 37 Vitamin B12 becomes inactive due to microwaving or other forms of heating 38 In the cytosol Edit Methylcobalamin and 5 methyltetrahydrofolate are needed by methionine synthase in the methionine cycle to transfer a methyl group from 5 methyltetrahydrofolate to homocysteine thereby generating tetrahydrofolate THF and methionine which is used to make SAMe SAMe is the universal methyl donor and is used for DNA methylation and to make phospholipid membranes choline sphingomyelin acetylcholine and other neurotransmitters In mitochondria Edit nbsp Vitamin B12 adenosylcobalamin in mitochondrion cholesterol and protein metabolismThe enzymes that use B12 as a built in cofactor are methylmalonyl CoA mutase PDB 4REQ 39 and methionine synthase PDB 1Q8J 40 The metabolism of propionyl CoA occurs in the mitochondria and requires Vitamin B12 as adenosylcobalamin to make succinyl CoA When the conversion of propionyl CoA to succinyl CoA in the mitochondria fails due to Vitamin B12 deficiency elevated blood levels of methylmalonic acid MMA occur Thus elevated blood levels of homocysteine and MMA may both be indicators of vitamin B12 deficiency Adenosylcobalamin is needed as cofactor in methylmalonyl CoA mutase MUT enzyme Processing of cholesterol and protein gives propionyl CoA that is converted to methylmalonyl CoA which is used by MUT enzyme to make succinyl CoA Vitamin B12 is needed to prevent anemia since making porphyrin and heme in mitochondria for producing hemoglobin in red blood cells depends on succinyl CoA made by vitamin B12 Absorption and transport Edit Inadequate absorption of vitamin B12 may be related to coeliac disease Intestinal absorption of vitamin B12 requires successively three different protein molecules haptocorrin intrinsic factor and transcobalamin II See also EditMethylcobalamin Hydroxocobalamin Adenosylcobalamin Cobalamin biosynthesisReferences Edit Prieto L Neuburger M Spingler B Zelder F October 2016 Inorganic Cyanide as Protecting Group in the Stereospecific Reconstitution of Vitamin B12 from an Artificial Green Secocorrinoid PDF Organic Letters 18 20 5292 5295 doi 10 1021 acs orglett 6b02611 PMID 27726382 a b c d Vitamin B12 Injection Side Effects Uses amp Dosage Drugs com Retrieved 19 April 2019 Cyanocobalamin Drug Usage Statistics United States 2006 2016 ClinCalc com Retrieved 9 November 2019 a b c d British national formulary BNF 76 76 ed Pharmaceutical Press 2018 pp 993 994 ISBN 9780857113382 a b Cyanocobalamin Side Effects in Detail Drugs com Retrieved 19 April 2019 Linnell JC Matthews DM England JM November 1978 Therapeutic misuse of cyanocobalamin Lancet 2 8098 1053 1054 doi 10 1016 s0140 6736 78 92379 6 PMID 82069 S2CID 29703726 Herbert V September 1988 Vitamin B 12 plant sources requirements and assay The American Journal of Clinical Nutrition 48 3 Suppl 852 858 doi 10 1093 ajcn 48 3 852 PMID 3046314 a b DailyMed cyanocobalamin isopropyl alcohol dailymed nlm nih gov Retrieved 19 April 2019 a b c Lilley LL Collins SR Snyder JS 2019 Pharmacology and the Nursing Process E Book Elsevier Health Sciences p 83 ISBN 9780323550468 a b Cyanocobalamin FDA prescribing information side effects and uses Drugs com Retrieved 19 April 2019 Markle HV 1996 Cobalamin Critical Reviews in Clinical Laboratory Sciences 33 4 247 356 doi 10 3109 10408369609081009 PMID 8875026 Orkin SH Nathan DG Ginsburg D Look AT Fisher DE Lux S 2014 Nathan and Oski s Hematology and Oncology of Infancy and Childhood E Book Elsevier Health Sciences p 309 ISBN 9780323291774 The Top 300 of 2020 ClinCalc Retrieved 7 October 2022 Cyanocobalamin Drug Usage Statistics ClinCalc Retrieved 7 October 2022 Cyanocobalamin University of Maryland Medical Center MacLennan L Moiemen N February 2015 Management of cyanide toxicity in patients with burns Burns 41 1 18 24 doi 10 1016 j burns 2014 06 001 PMID 24994676 Cyanocobalamin Injection MedlinePlus Archived from the original on 19 April 2015 Retrieved 4 July 2015 Clinical Vitamin B12 Deficiency Managing Patients Centers for Disease Control and Prevention Archived from the original on 26 April 2015 Retrieved 4 July 2015 Vitamin B12 MedlinePlus Archived from the original on 5 April 2015 Retrieved 4 July 2015 Quadros EV January 2010 Advances in the understanding of cobalamin assimilation and metabolism British Journal of Haematology 148 2 195 204 doi 10 1111 j 1365 2141 2009 07937 x PMC 2809139 PMID 19832808 Cyanocobalamin Injection Empower Pharmacy Retrieved 2 April 2021 Vitamin B12 Cyanocobalamin Medicine LibreTexts 12 May 2017 Retrieved 2 April 2021 TERMIUM Plus Canada ca Government of Canada 8 October 2009 Retrieved 2 April 2021 Nascobal Cyanocobalamin USP Nasal Spray 500 mcg spray 0 125 mL Rx only PDF Access Data FDA Retrieved 2 April 2021 Pimenta E Calhoun DA Oparil S 2010 Chapter 28 Hypertensive emergencies In Jeremias A Brown DL eds Cardiac Intensive Care 2nd ed Philadelphia PA Saunders Elsevier ISBN 978 1 4160 3773 6 a b c d e f Dolphin D January 1971 205 Preparation of the reduced forms of vitamin B12 and of some analogs of the vitamin B12 coenzyme containing a cobalt carbon bond In McCormick DB Wright LD eds 205 Preparation of the reduced forms of vitamin B12 and of some analogs of the vitamin B12 coenzyme containing a cobalt carbon bond Methods in Enzymology Vol 18 Academic Press pp 34 52 doi 10 1016 S0076 6879 71 18006 8 ISBN 9780121818821 Brodie JD February 1969 On the mechanism of catalysis by vitamin B12 Proceedings of the National Academy of Sciences of the United States of America 62 2 461 467 Bibcode 1969PNAS 62 461B doi 10 1073 pnas 62 2 461 PMC 277821 PMID 5256224 Shimakoshi H Hisaeda Y Environmental friendly catalysts learned from Vitamin B12 dependent enzymes PDF Tcimail 128 2 permanent dead link Riaz M Ansari ZA Iqbal F Akram M 2007 Microbial production of vitamin B12 by methanol utilizing strain of Pseudomonas specie Pak J Biochem Mol Biol 40 5 10 Archived from the original on 25 April 2012 Retrieved 31 October 2017 Linnell JC Matthews DM February 1984 Cobalamin metabolism and its clinical aspects Clinical Science 66 2 113 121 doi 10 1042 cs0660113 PMID 6420106 Herbert V September 1988 Vitamin B 12 plant sources requirements and assay The American Journal of Clinical Nutrition 48 3 Suppl 852 858 doi 10 1093 ajcn 48 3 852 PMID 3046314 Zhang Y 26 January 2009 New round of price slashing in vitamin B12 sector Fine and Specialty China Chemical Reporter Archived from the original on 13 May 2013 Hannibal L Kim J Brasch NE Wang S Rosenblatt DS Banerjee R Jacobsen DW August 2009 Processing of alkylcobalamins in mammalian cells A role for the MMACHC cblC gene product Molecular Genetics and Metabolism 97 4 260 266 doi 10 1016 j ymgme 2009 04 005 PMC 2709701 PMID 19447654 Watanabe F Nakano Y 1997 Purification and characterization of aquacobalamin reductases from mammals Vitamins and Coenzymes Part K Methods in Enzymology Vol 281 pp 295 305 doi 10 1016 S0076 6879 97 81036 1 ISBN 9780121821821 PMID 9250994 Quadros EV Jackson B Hoffbrand AV Linnell JC 1979 Interconversion of cobalamins in human lymphocytes in vitro and the influence of nitrous oxide on the synthesis of cobalamin coenzymes Vitamin B12 Proceedings of the Third European Symposium on Vitamin B12 and Intrinsic Factor 1045 1054 DSM in Food Beverages amp Dietary Supplements DSM Retrieved 2 March 2015 Thompson AG Leite MI Lunn MP Bennett DL June 2015 Whippits nitrous oxide and the dangers of legal highs Practical Neurology 15 3 207 209 doi 10 1136 practneurol 2014 001071 PMC 4453489 PMID 25977272 Watanabe F Abe K Fujita T Goto M Hiemori M Nakano Y January 1998 Effects of Microwave Heating on the Loss of Vitamin B 12 in Foods Journal of Agricultural and Food Chemistry 46 1 206 210 doi 10 1021 jf970670x PMID 10554220 S2CID 23096987 Mancia F Evans PR June 1998 Conformational changes on substrate binding to methylmalonyl CoA mutase and new insights into the free radical mechanism Structure 6 6 711 720 doi 10 1016 S0969 2126 98 00073 2 PMID 9655823 Evans JC Huddler DP Hilgers MT Romanchuk G Matthews RG Ludwig ML March 2004 Structures of the N terminal modules imply large domain motions during catalysis by methionine synthase Proceedings of the National Academy of Sciences of the United States of America 101 11 3729 3736 Bibcode 2004PNAS 101 3729E doi 10 1073 pnas 0308082100 PMC 374312 PMID 14752199 External links Edit Cyanocobalamin Drug Information Portal U S National Library of Medicine Portal nbsp Medicine Retrieved from https en wikipedia org w index php title Cyanocobalamin amp oldid 1179803758, wikipedia, wiki, book, books, library,

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