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Ergosterol
Ball-and-stick model of ergosterol
Names
IUPAC name
(22E)-Ergosta-5,7,22-trien-3β-ol
Systematic IUPAC name
(1R,3aR,7S,9aR,9bS,11aR)-1-[(2R,3E,5R)-5,6-Dimethylhept-3-en-2-yl]-7-hydroxy-9a,11a-dimethyl-2,3,3a,6,7,8,9,9a,9b,10,11,11a-dodecahydro-1H-cyclopenta[a]phenanthren-7-ol
Identifiers
3D model ( JSmol)
ChEBI
ChEMBL
ChemSpider
ECHA InfoCard 100.000.320 Edit this at Wikidata
EC Number
  • 200-352-7
MeSH Ergosterol
PubChem CID
UNII
  • InChI=1S/C28H44O/c1-18(2)19(3)7-8-20(4)24-11-12-25-23-10-9-21-17-22(29)13-15-27(21,5)26(23)14-16-28(24,25)6/h7-10,18-20,22,24-26,29H,11-17H2,1-6H3/b8-7+/t19-,20+,22-,24+,25-,26-,27-,28+/m0/s1 checkY
    Key: DNVPQKQSNYMLRS-APGDWVJJSA-N checkY
  • InChI=1/C28H44O/c1-18(2)19(3)7-8-20(4)24-11-12-25-23-10-9-21-17-22(29)13-15-27(21,5)26(23)14-16-28(24,25)6/h7-10,18-20,22,24-26,29H,11-17H2,1-6H3/b8-7+/t19-,20+,22-,24+,25-,26-,27-,28+/m0/s1
    Key: DNVPQKQSNYMLRS-APGDWVJJBI
  • O[C@@H]4C/C3=C/C=C1\[C@H](CC[C@]2([C@H]1CC[C@@H]2[C@@H](/C=C/[C@H](C)C(C)C)C)C)[C@@]3(C)CC4
Properties
C28H44O
Molar mass 396.65 g/mol
Melting point 160 °C (320 °F; 433 K)
Boiling point 250 °C (482 °F; 523 K)
-279.6·10−6 cm3/mol
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
☒N  verify ( what is checkY☒N ?)

Ergosterol (ergosta-5,7,22-trien-3β-ol) is a mycosterol found in cell membranes of fungi and protozoa, serving many of the same functions that cholesterol serves in animal cells. Because many fungi and protozoa cannot survive without ergosterol, the enzymes that synthesize it have become important targets for drug discovery. In human nutrition, ergosterol is a provitamin form of vitamin D2; exposure to ultraviolet (UV) light causes a chemical reaction that produces vitamin D2.

Role in fungi

Ergosterol (ergosta-5,7,22-trien-3β-ol) is a sterol found in fungi, and named after ergot, the common name of members of the fungal genus Claviceps from which ergosterol was first isolated. Ergosterol is a component of yeast and other fungal cell membranes, serving many of the same functions that cholesterol serves in animal cells. [1] Its specificity in higher fungi is thought to be related to the climatic instabilities (highly varying humidity and moisture conditions) encountered by these organisms in their typical ecological niches (plant and animal surfaces, soil). Thus, despite the added energy requirements of ergosterol synthesis (if compared to cholesterol), ergosterol is thought to have evolved as a nearly ubiquitous, evolutionarily advantageous fungal alternative to cholesterol. [2] This advantage could be linked to the presence of two conjugated double bonds in the structure (B-ring) of ergosterol giving it antioxidant properties. [3]

Target for antifungal drugs

Because ergosterol is present in cell membranes of fungi, yet absent in those of animals, it is a useful target for antifungal drugs. Ergosterol is also present in the cell membranes of some protists, such as trypanosomes. [4] This is the basis for the use of some antifungals against West African sleeping sickness.

Amphotericin B, an antifungal drug, targets ergosterol. It binds physically to ergosterol within the membrane, thus creating a polar pore in fungal membranes. This causes ions (predominantly potassium and hydrons) and other molecules to leak out, which will kill the cell. [5] Amphotericin B has been replaced by safer agents in most circumstances, but is still used, despite its side effects, for life-threatening fungal or protozoan infections.

Fluconazole, miconazole, itraconazole, clotrimazole, and myclobutanil work in a different way, inhibiting synthesis of ergosterol from lanosterol by interfering with 14α-demethylase. [6] Ergosterol is a smaller molecule than lanosterol; it is synthesized by combining two molecules of farnesyl pyrophosphate, a 15-carbon-long terpenoid, into lanosterol, which has 30 carbons. Then, two methyl groups are removed, making ergosterol. The "azole" class of antifungal agents inhibit the enzyme that performs these demethylation steps in the biosynthetic pathway between lanosterol and ergosterol. [6]

Target for antiprotozoal drugs

Some protozoa, including Trichomonas and Leishmania are inhibited by drugs that target ergosterol synthesis and function [7]

As a vitamin D2 precursor

Ergosterol is a biological precursor of vitamin D2, the chemical name of which is ergocalciferol. Exposure of white button mushrooms to UV-C irradiation at 0.403 mW per cm2 intensity from 30 cm distance produced time-dependent increases in vitamin D2 concentrations. [8] [9] [10]

This happens naturally to a certain extent, and many mushrooms are irradiated after harvest to increase their vitamin D content. Fungi are also grown industrially so that ergosterol can be extracted and converted to Vitamin D for sale as a dietary supplement and food additive. [10]

Preparations of irradiated ergosterol containing a mixture of previtamin and vitamin D2 were called viosterol in the 1930s. [11]

Toxicity

Ergosterol powder is an irritant to skin, eyes, and the respiratory tract. Ingestion of large amounts can cause hypercalcemia, which (if prolonged) can lead to calcium salt deposits in the soft tissues and kidneys. [12]

See also

References

  1. ^ Weete JD, Abril M, Blackwell M (May 2010). "Phylogenetic distribution of fungal sterols". PLOS ONE. 5 (5): e10899. Bibcode: 2010PLoSO...510899W. doi: 10.1371/journal.pone.0010899. PMC  2878339. PMID  20526375.
  2. ^ Dupont S, Lemetais G, Ferreira T, Cayot P, Gervais P, Beney L (September 2012). "Ergosterol biosynthesis: a fungal pathway for life on land?". Evolution; International Journal of Organic Evolution. 66 (9): 2961–2968. doi: 10.1111/j.1558-5646.2012.01667.x. PMID  22946816.
  3. ^ Dupont S, Fleurat-Lessard P, Cruz RG, Lafarge C, Grangeteau C, Yahou F, Gerbeau-Pissot P, Abrahão Júnior O, Gervais P, Simon-Plas F, Cayot P, Beney L (June 2021). "Antioxidant Properties of Ergosterol and Its Role in Yeast Resistance to Oxidation". Antioxidants. 10 (7): 1024. doi: 10.3390/antiox10071024. PMC  8300696. PMID  34202105.
  4. ^ Roberts CW, McLeod R, Rice DW, Ginger M, Chance ML, Goad LJ (February 2003). "Fatty acid and sterol metabolism: potential antimicrobial targets in apicomplexan and trypanosomatid parasitic protozoa". Molecular and Biochemical Parasitology. 126 (2): 129–142. doi: 10.1016/S0166-6851(02)00280-3. PMID  12615312.
  5. ^ Ellis D (February 2002). "Amphotericin B: spectrum and resistance". The Journal of Antimicrobial Chemotherapy. 49 (Suppl 1): 7–10. doi: 10.1093/jac/49.suppl_1.7. PMID  11801575.
  6. ^ a b Lv QZ, Yan L, Jiang YY (August 2016). "The synthesis, regulation, and functions of sterols in Candida albicans: Well-known but still lots to learn". Virulence. 7 (6): 649–659. doi: 10.1080/21505594.2016.1188236. PMC  4991322. PMID  27221657.
  7. ^ Carrillo-Muñoz AJ, Tur-Tur C, Giusiano G, Marcos-Arias C, Eraso E, Jauregizar N, Quindós G (April 2013). "Sertaconazole: an antifungal agent for the topical treatment of superficial candidiasis". Expert Review of Anti-Infective Therapy. 11 (4): 347–358. doi: 10.1586/eri.13.17. hdl: 11336/8943. PMID  23566144. S2CID  24585556.
  8. ^ Koyyalamudi SR, Jeong SC, Song CH, Cho KY, Pang G (April 2009). "Vitamin D2 formation and bioavailability from Agaricus bisporus button mushrooms treated with ultraviolet irradiation". Journal of Agricultural and Food Chemistry. 57 (8): 3351–3355. doi: 10.1021/jf803908q. PMID  19281276.
  9. ^ Haytowitz, DB. "Vitamin D in mushrooms" (PDF). US Department of Agriculture. Archived (PDF) from the original on 2013-05-12. Retrieved 2014-08-23.
  10. ^ a b Hirsch AL (12 May 2011). "Chapter 6: Industrial Aspects of Vitamin D". In Feldman D, Pike JW, Adam JS (eds.). Vitamin D: Two-Volume Set. Academic Press. ISBN  978-0123819789.
  11. ^ Science Service (1930). "Viosterol official name for irradiated ergosterol". Journal of Chemical Education. 7 (1): 166. Bibcode: 1930JChEd...7..166S. doi: 10.1021/ed007p166.
  12. ^ "Material Safety Data Sheet for Ergosterol". Fisher Scientific. Archived from the original on 2016-03-03. Retrieved 2009-06-16.