Hydroxocobalamin

Hydroxocobalamin
Names
Other namesvitamin B12, vitamin B12a, hydroxycobalamin
IUPAC name
  • Coα-[α-(5,6-dimethylbenzimidazolyl)]-
    Coβ-hydroxocobamide
Clinical data
WHO AWaReUnlinkedWikibase error: ⧼unlinkedwikibase-error-statements-entity-not-set⧽
Pregnancy
category
  • US: C (Risk not ruled out)[1]
    Routes of
    use
    IM, IV
    Defined daily dose20 mcg[2]
    External links
    AHFS/Drugs.comMonograph
    MedlinePlusa605007
    Legal
    License data
    Legal status
    • US: OTC (by prescription when injectable), not DEA-controlled
    Pharmacokinetics
    Protein bindingVery high (90%)
    MetabolismPrimarily liver, cobalamins are absorbed in the ileum and stored in the liver.
    Elimination half-life~6 days
    Chemical and physical data
    FormulaC62H89CoN13O15P
    Molar mass1346.377 g·mol−1
    3D model (JSmol)
    SMILES
    • Cc1cc2ncn(c2cc1C)C9OC(CO)C(OP3(=O)OC(C)CNC(=O)CCC5C4=C(C)C8=NC(=CC7=NC(=C(C)C6=NC(C)(C(N4[Co](O)O3)C5(C)CC(N)=O)C(C)(CC(N)=O)C6CCC(N)=O)C(C)(CC(N)=O)C7CCC(N)=O)C(CCC(N)=O)C8(C)C)C9O
    InChI
    • InChI=1S/C62H90N13O14P.Co.H2O/c1-29-20-40-41(21-30(29)2)75(28-70-40)56-52(84)53(42(27-76)87-56)89-90(85,86)88-31(3)26-69-49(83)19-15-36-50-32(4)54-58(6,7)34(12-16-43(63)77)38(71-54)22-39-35(13-17-44(64)78)59(8,23-46(66)80)55(72-39)33(5)51-37(14-18-45(65)79)61(10,25-48(68)82)62(11,74-51)57(73-50)60(36,9)24-47(67)81;;/h20-22,28,31,34-37,42,52-53,56-57,76,84H,12-19,23-27H2,1-11H3,(H15,63,64,65,66,67,68,69,71,72,73,74,77,78,79,80,81,82,83,85,86);;1H2/q;+3;/p-3 checkY
    • Key:GTSMWDDKWYUXGH-UHFFFAOYSA-K checkY

    Hydroxocobalamin, also known as vitamin B12a and hydroxycobalamin, is a vitamin found in food and used as a dietary supplement.[3] As a supplement it is used to treat vitamin B12 deficiency including pernicious anemia.[3][4] Other uses include treatment for cyanide poisoning, Leber's optic atrophy, and toxic amblyopia.[5][6] It is given by injection into a muscle or vein.[4]

    Side effects are generally few.[4] They may include diarrhea, low blood potassium, allergic reactions, and high blood pressure.[4] Normal doses are considered safe in pregnancy.[1] Hydroxocobalamin is the natural form of vitamin B12 and a member of the cobalamin family of compounds.[7][8] Hydroxocobalamin, or another form of vitamin B12, are required for the body to make DNA.[8]

    Hydroxocobalamin was first isolated in 1949.[9] It is on the World Health Organization's List of Essential Medicines.[10] Hydroxocobalamin is available as a generic medication.[4] The wholesale cost in the developing world is about US$0.12 to US$0.84 per dose (1 ml with 1 mg/ml concentration).[11] In the United States the same amount costs about US$0.84 wholesale.[12] Commercially it is made using one of a number of types of bacteria.[13]

    Medical uses

    Vitamin B12 deficiency

    Standard therapy for treatment of vitamin B12 deficiency has been intramuscular (IM) or intravenous (IV) injections of hydroxocobalamin (OHCbl). It is used in children with intrinsic cobalamin metabolic diseases, vitamin B12-deficient patients with tobacco amblyopia due to cyanide poisoning, and those with pernicious anemia who have optic neuropathy.[14]

    In a newly diagnosed vitamin B12-deficient, normally defined as when serum levels are less than 200 pg/ml, daily IM injections of hydroxocobalamin up to 1,000 μg (1 mg) per day are given to replenish the body's depleted cobalamin stores. In the presence of neurological symptoms, following daily treatment, injections up to weekly or biweekly are indicated for six months before initiating monthly IM injections. Once improvement is confirmed, maintenance supplementation of B12 will generally be needed for life.

    Cyanide poisoning

    5 gram vial used for cyanide poisoning

    Hydroxocobalamin is first line therapy for people with cyanide poisoning.[4] Hydroxocobalamin converts cyanide to the much less toxic cyanocobalamin. Cyanocobalamin is renally cleared. The use of hydroxocobalamin became first line due to its low adverse risk profile, rapid onset of action, and ease of use in the prehospital setting.[15]

    Injectable hydroxocobalamin

    Injection of hydroxocobalamin is used to rectify the following causes of vitamin B12 deficiency (list taken from the drug prescription label published by the U.S. Food and Drug Administration)

    • Dietary deficiency of vitamin B12 occurring in strict vegetarians and in their breastfed infants (isolated vitamin B12 deficiency is very rare)
    • Malabsorption of vitamin B12 resulting from damage to the stomach, where intrinsic factor is secreted, or damage to the ileum, where intrinsic factor facilitates vitamin B12 absorption. These conditions include tropical sprue and nontropical sprue (celiac disease).
    • Inadequate secretion of intrinsic factor, resulting from lesions that destroy the gastric mucosa (which can be caused by ingestion of corrosives, extensive tumors, and conditions associated with gastric atrophy, such as multiple sclerosis, certain endocrine disorders, iron deficiency, and subtotal gastrectomy)
    • Structural lesions leading to vitamin B12 deficiency, including regional ileitis, ileal reactions, and malignancies
    • Competition for vitamin B12 by intestinal parasites or bacteria. The tapeworm from undercooked fish (Diphyllobothrium latum) absorbs huge quantities of vitamin B12, and infested patients often have associated gastric atrophy. The blind loop syndrome may produce deficiency of vitamin B12 or folate.
    • Inadequate use of vitamin B12, which may occur if antimetabolites for the vitamin are employed in the treatment of neoplasia

    Pernicious anemia, is not a cause of vitamin B12 deficiency, but rather the result of vitamin B12 deficiency. While it technically refers to anemia caused specifically by autoimmune deficiency of intrinsic factor, it is commonly used to refer to B12-deficient anemia as a whole, regardless of cause.

    Dosage

    In cyanide poisoning the dose is 5 grams, which may be repeated, given by injection into a vein.[4] In children the dose is 70 mg/kg for this use.[4]


    The defined daily dose is 20 mcg (via injection).[2]

    Side effects

    The literature data on the acute toxicity profile of hydroxocobalamin show it is generally regarded as safe with local and systemic exposure. The ability of hydroxocobalamin to rapidly scavenge and detoxify cyanide by chelation has resulted in several acute animal and human studies using systemic hydroxocobalamin doses at suprapharmacological doses as high as 140 mg/kg to support its use as an intravenous (IV) treatment for cyanide exposure.[16][17] The US FDA at the end of 2006 approved the use hydroxocobalamin as an injection for the treatment of cyanide poisoning.[18]

    The drug causes a reddish discoloration of the urine (chromaturia), which can look like blood in the urine.[19]

    Mechanism of action

    Vitamin B12 refers to a group of compounds called cobalamins that are available in the human body in a variety of mostly interconvertible forms. Together with folate, cobalamins are essential cofactors required for DNA synthesis in cells where chromosomal replication and division are occurring—most notably the bone marrow and myeloid cells. As a cofactor, cobalamins are essential for two cellular reactions:

    • the mitochondrial methylmalonyl-CoA mutase conversion of methylmalonic acid (MMA) to succinate, which links lipid and carbohydrate metabolism, and
    • the activation of methionine synthase, which is the rate-limiting step in the synthesis of methionine from homocysteine and 5-methyltetrahydrofolate.[20]

    Cobalamins are characterized by a porphyrin-like corrin nucleus that contains a single cobalt atom bound to a benzimidazolyl nucleotide and a variable residue (R) group. The variable R group gives rise to the four most commonly known cobalamins: CNCbl, methylcobalamin, 5-deoxyadenosylcobalamin, and OHCbl. In the serum, hydroxocobalamin and cyanocobalamin are believed to function as storage or transport forms of the molecule, whereas methylcobalamin and 5-deoxyadenosylcobalamin are the active forms of the coenzyme required for cell growth and replication.[20] Cyanocobalamin is usually converted to hydroxocobalamin in the serum, whereas hydroxocobalamin is converted to either methylcobalamin or 5-deoxyadenosyl cobalamin. Cobalamins circulate bound to serum proteins called transcobalamins (TC) and haptocorrins. Hydroxocobalamin has a higher affinity to the TC II transport protein than cyanocobalamin, or 5-deoxyadenosylcobalamin. From a biochemical point of view, two essential enzymatic reactions require vitamin B12 (cobalamin).[20][21]

    Intracellular vitamin B12 is maintained in two active coenzymes, methylcobalamin and 5-deoxyadenosylcobalamin. In the face of vitamin B12 deficiency, conversion of methylmalonyl-CoA to succinyl-CoA cannot take place, which results in accumulation of methylmalonyl-CoA and aberrant fatty acid synthesis. In the other enzymatic reaction, methylcobalamin supports the methionine synthase reaction, which is essential for normal metabolism of folate. The folate-cobalamin interaction is pivotal for normal synthesis of purines and pyrimidines and the transfer of the methyl group to cobalamin is essential for the adequate supply of tetrahydrofolate, the substrate for metabolic steps that require folate. In a state of vitamin B12 deficiency, the cell responds by redirecting folate metabolic pathways to supply increasing amounts of methyltetrahydrofolate. The resulting elevated concentrations of homocysteine and MMA are often found in patients with low serum vitamin B12 and can usually be lowered with successful vitamin B12 replacement therapy. However, elevated MMA and homocysteine concentrations may persist in patients with cobalamin concentrations between 200 and 350 pg/mL.[22] Supplementation with vitamin B12 during conditions of deficiency restores the intracellular level of cobalamin and maintains a sufficient level of the two active coenzymes: methylcobalamin and deoxyadenosylcobalamin.

    Properties

    Hydroxocobalamin at standard conditions is a solid composed of dark red crystals.

    Hydroxocobalamin acetate occurs as odorless, dark-red orthorhombic crystals. The injection formulations appear as clear, dark-red solutions. It has a distribution coefficient of 1.133 × 10-5 and a pKa of 7.65.

    See also

    References

    1. 1 2 "Hydroxocobalamin Use During Pregnancy | Drugs.com". www.drugs.com. Archived from the original on 1 January 2017. Retrieved 30 December 2016.
    2. 1 2 "WHOCC - ATC/DDD Index". www.whocc.no. Archived from the original on 22 January 2021. Retrieved 15 September 2020.
    3. 1 2 World Health Organization (2009). Stuart MC, Kouimtzi M, Hill SR (eds.). WHO Model Formulary 2008. World Health Organization. p. 251. hdl:10665/44053. ISBN 9789241547659.
    4. 1 2 3 4 5 6 7 8 "Vitamin B12". The American Society of Health-System Pharmacists. Archived from the original on 30 December 2016. Retrieved 8 December 2016.
    5. 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.
    6. "Hydroxocobalamin 1mg in 1ml solution for injection - Summary of Product Characteristics (SPC) - (eMC)". www.medicines.org.uk. Archived from the original on 30 December 2016. Retrieved 30 December 2016.
    7. Bullock, Shane; Manias, Elizabeth (2013). Fundamentals of Pharmacology. Pearson Higher Education AU. p. 862. ISBN 9781442564411. Archived from the original on 2016-12-31.
    8. 1 2 "Office of Dietary Supplements - Dietary Supplement Fact Sheet: Vitamin B12". ods.od.nih.gov. 11 February 2016. Archived from the original on 31 December 2016. Retrieved 30 December 2016.
    9. Eitenmiller, Ronald R.; Landen, W. O. (2010). Vitamin Analysis for the Health and Food Sciences. CRC Press. p. 467. ISBN 9781420050165. Archived from the original on 2016-12-31.
    10. World Health Organization (2019). World Health Organization model list of essential medicines: 21st list 2019. Geneva: World Health Organization. hdl:10665/325771. WHO/MVP/EMP/IAU/2019.06. License: CC BY-NC-SA 3.0 IGO.
    11. "Vitamin B12". International Drug Price Indicator Guide. Archived from the original on 22 January 2018. Retrieved 8 December 2016.
    12. "NADAC as of 2016-12-07 | Data.Medicaid.gov". Centers for Medicare and Medicaid Services. Archived from the original on 21 December 2016. Retrieved 30 December 2016.
    13. "Vitamins, 6. B Vitamins". Ullmann's encyclopedia of industrial chemistry. Weinheim: Wiley-VCH. 2011. ISBN 9783527303854.
    14. Carethers M (March 1988). "Diagnosing vitamin B12 deficiency, a common geriatric disorder". Geriatrics. 43 (3): 89–94, 105–7, 111–2. PMID 3277892.
    15. Shepherd G, Velez LI (May 2008). "Role of hydroxocobalamin in acute cyanide poisoning". The Annals of Pharmacotherapy. 42 (5): 661–9. doi:10.1345/aph.1K559. PMID 18397973.
    16. Forsyth JC, Mueller PD, Becker CE, Osterloh J, Benowitz NL, Rumack BH, Hall AH (1993). "Hydroxocobalamin as a cyanide antidote: safety, efficacy and pharmacokinetics in heavily smoking normal volunteers". Journal of Toxicology. Clinical Toxicology. 31 (2): 277–94. doi:10.3109/15563659309000395. PMID 8492341.
    17. Riou B, Berdeaux A, Pussard E, Giudicelli JF (1993). "Comparison of the hemodynamic effects of hydroxocobalamin and cobalt edetate at equipotent cyanide antidotal doses in conscious dogs". Intensive Care Medicine. 19 (1): 26–32. doi:10.1007/BF01709274. PMID 8440794.
    18. Beers, Donald O.; Karst, Kurt R. (2020). Generic and Innovator Drugs: A Guide to FDA Approval Requirements (8th ed.). Walters Kluwer. p. 38. ISBN 978-1-4548-3609-4. Archived from the original on 2021-08-28. Retrieved 2021-01-06.
    19. Koratala A, Chamarthi G, Segal MS (June 2018). "Not all that is red is blood: a curious case of chromaturia". Clinical Case Reports. 6 (6): 1179–1180. doi:10.1002/ccr3.1514. PMC 5986001. PMID 29881591.
    20. 1 2 3 Katzung, 1989
    21. Hardman, 2001
    22. Lindenbaum et al. 1994
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