Isaria sinclairii

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Isaria sinclairii
Isaria sinclarii fungus.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Fungi
Division: Ascomycota
Class: Sordariomycetes
Order: Hypocreales
Family: Cordycipitaceae
Genus: Isaria
Species:
I. sinclairii
Binomial name
Isaria sinclairii
Synonyms   [1]
  • Cordyceps sinclairiiBerk. (teleomorph)
  • Torrubia caespitosaTul. & C. Tul.
  • Cordyceps caespitosa(Tul. & C. Tul.) Sacc.

Isaria sinclairii is a species of entomopathogenic fungus mostly infecting the underground nymphs of cicadas. It produces myriocin, from which the synthetic drug fingolimod, a treatment for multiple sclerosis, was developed.

Contents


Taxonomy

Isaria sinclairii is the name of the anamorph; the teleomorph is Cordyceps sinclairii, Cordycipitaceae. [1] The species was first described in 1855 by Miles Joseph Berkeley from specimens collected in the garden of Archdeacon William Williams at Tūranga, Poverty Bay. [2] It was moved to the genus Isaria in 1923 by Curtis Gates Lloyd. [3]

Ecology

Isaria sinclairii from Bushy Park, New Zealand, showing the fruiting bodies and parasitised cicada nymphs FourIsariasinclairii.jpg
Isaria sinclairii from Bushy Park, New Zealand, showing the fruiting bodies and parasitised cicada nymphs

Isaria sinclairii is a fungus which attacks insects, including cicada larvae. The larvae typically die just beneath the soil surface, and the fungus produces white tufts which grow up from the soil and release powdery white spores. [4] I. sinclairii is found from Asia (particularly China, Japan, and Korea) through to New Zealand. In New Zealand it attacks cicadas of the genera Amphipsalta and Melampsalta. [5] [6] In the lab it can be cultured on the bodies of silkworms.

Cicada nymphs parasitised by I. sinclairii IsariasinclairiiCloseup.jpg
Cicada nymphs parasitised by I. sinclairii

Uses

Isaria sinclairii and similar vegetable caterpillar species such as Ophiocordyceps sinensis have been used in traditional Tibetan medicine and in traditional Chinese medicine as tonics believed to impart eternal youth. [7] [8] A sphingolipid derivative produced by I. sinclairii, myriocin, was discovered to have powerful immunosuppressive properties, a function of the way the fungus attacks living insects. [9] [7] Because myriocin is too toxic to use in humans, a synthetic derivative was developed in 1992, named FTY720 or fingolimod. [10] [8] Under its trade name Gilenya, fingolimod was approved by the FDA in 2010 as the first oral drug for treating the autoimmune disease multiple sclerosis. [9] Fingolimod shows promise as a cancer medication, [11] and has been tested as a possible treatment for obesity. [12]

Related Research Articles

<i>Ophiocordyceps sinensis</i> Species of fungus

Ophiocordyceps sinensis, known colloquially as caterpillar fungus, is an entomopathogenic fungus in the family Ophiocordycipitaceae. It is mainly found in the meadows above 3,500 metres (11,500 ft) on the Tibetan Plateau in Tibet and the Himalayan regions of Bhutan and Nepal. It parasitizes larvae of ghost moths and produces a fruiting body which is valued in traditional Chinese medicine as an aphrodisiac. Caterpillar fungus contains the compound cordycepin, an adenosine derivative. However, the fruiting bodies harvested in nature usually contain high amounts of arsenic and other heavy metals, so they are potentially toxic and sales have been strictly regulated by China's State Administration for Market Regulation since 2016.

<i>Cordyceps</i> Genus of fungi

Cordyceps is a genus of ascomycete fungi that includes about 600 worldwide species. Diverse variants of cordyceps have had more than 1,500 years of use in Chinese medicine. Most Cordyceps species are endoparasitoids, parasitic mainly on insects and other arthropods ; a few are parasitic on other fungi.

<span class="mw-page-title-main">Fingolimod</span> Chemical compound

Fingolimod, sold under the brand name Gilenya, is an immunomodulating medication, used for the treatment of multiple sclerosis. Fingolimod is a sphingosine-1-phosphate receptor modulator, which sequesters lymphocytes in lymph nodes, preventing them from contributing to an autoimmune reaction. It has been reported to reduce the rate of relapses in relapsing-remitting multiple sclerosis by approximately one-half over a two-year period.

<span class="mw-page-title-main">Entomopathogenic fungus</span> Fungus that can act as a parasite of insects

An entomopathogenic fungus is a fungus that can kill or seriously disable insects.

Tolypocladium inflatum is an ascomycete fungus originally isolated from a Norwegian soil sample that, under certain conditions, produces the immunosuppressant drug ciclosporin. In its sexual stage (teleomorph) it is a parasite on scarab beetles. It forms a small, compound ascocarp that arises from the cadaver of its host beetle. In its asexual stage (anamorph) it is a white mold that grows on soil. It is much more commonly found in its asexual stage and this is the stage that was originally given the name Tolypocladium inflatum.

<i>Paecilomyces</i> Genus of fungi

Paecilomyces is a genus of fungi. A number of species in this genus are plant pathogens.

<span class="mw-page-title-main">Gliotoxin</span> Chemical compound

Gliotoxin is a sulfur-containing mycotoxin that belongs to a class of naturally occurring 2,5-diketopiperazines produced by several species of fungi, especially those of marine origin. It is the most prominent member of the epipolythiopiperazines, a large class of natural products featuring a diketopiperazine with di- or polysulfide linkage. These highly bioactive compounds have been the subject of numerous studies aimed at new therapeutics. Gliotoxin was originally isolated from Gliocladium fimbriatum, and was named accordingly. It is an epipolythiodioxopiperazine metabolite that is one of the most abundantly produced metabolites in human invasive Aspergillosis (IA).

Hyphomycetes are a form classification of fungi, part of what has often been referred to as fungi imperfecti, Deuteromycota, or anamorphic fungi. Hyphomycetes lack closed fruit bodies, and are often referred to as moulds. Most hyphomycetes are now assigned to the Ascomycota, on the basis of genetic connections made by life-cycle studies or by phylogenetic analysis of DNA sequences; many remain unassigned phylogenetically.

<i>Beauveria</i> Genus of fungi

Beauveria is a genus of asexually-reproducing fungi allied with the ascomycete family Cordycipitaceae. Its several species are typically insect pathogens. The sexual states (teleomorphs) of Beauveria species, where known, are species of Cordyceps.

<i>Ophiocordyceps unilateralis</i> Species of fungus

Ophiocordyceps unilateralis, commonly known as zombie-ant fungus, is an insect-pathogenic fungus, discovered by the British naturalist Alfred Russel Wallace in 1859, and currently found predominantly in tropical forest ecosystems. O. unilateralis infects ants of the tribe Camponotini, with the full pathogenesis being characterized by alteration of the behavioral patterns of the infected ant. Infected hosts leave their canopy nests and foraging trails for the forest floor, an area with a temperature and humidity suitable for fungal growth; they then use their mandibles to attach themselves to a major vein on the underside of a leaf, where the host remains after its eventual death. The process, leading up to mortality, takes 4–10 days, and includes a reproductive stage where fruiting bodies grow from the ant's head, rupturing to release the fungus's spores. O. unilateralis is, in turn, also susceptible to fungal infection itself, an occurrence that can limit its impact on ant populations, which has otherwise been known to devastate ant colonies.

Ophiocordyceps myrmecophila is a species of fungus that parasitizes insect hosts, in particular members of the order Hymenoptera.

<i>Aspergillus ustus</i> Species of fungus

Aspergillus ustus is a microfungus and member of the division Ascomycota. It is commonly found in indoor environments and soil. Isolated cases of human infection resulting from A. ustus have been described; however the majority of these are nail infections.

Fungal isolates have been researched for decades. Because fungi often exist in thin mycelial monolayers, with no protective shell, immune system, and limited mobility, they have developed the ability to synthesize a variety of unusual compounds for survival. Researchers have discovered fungal isolates with anticancer, antimicrobial, immunomodulatory, and other bio-active properties. The first statins, β-Lactam antibiotics, as well as a few important antifungals, were discovered in fungi.

Medicinal fungi are fungi that contain metabolites or can be induced to produce metabolites through biotechnology to develop prescription drugs. Compounds successfully developed into drugs or under research include antibiotics, anti-cancer drugs, cholesterol and ergosterol synthesis inhibitors, psychotropic drugs, immunosuppressants and fungicides.

<i>Ophiocordyceps formicarum</i> Species of fungus

Ophiocordyceps formicarum is an entomopathogenic fungus belonging to the order Hypocreales (Ascomycota) in the family Ophiocordycipitaceae. The fungus was first described by mycologist George S. Kobayashi in 1939 as a species of Cordyceps. Originally found in Japan growing on an adult Hercules ant, it was reported from Guizhou, China, in 2003. It was transferred to the new genus Ophiocordyceps in 2007 when the family Cordycipitaceae was reorganized. A technique has been developed to grow the fungus in an agar growth medium supplemented with yeast extract, inosine, and glucose.

<i>Ophiocordyceps robertsii</i> Species of fungus

Ophiocordyceps robertsii, known in New Zealand as vegetable caterpillar is an entomopathogenic fungus belonging to the order Hypocreales (Ascomycota) in the family Ophiocordycipitaceae. It invades the caterpillars of leaf-litter dwelling moths and turns them into fungal mummies, sending up a fruiting spike above the forest floor to shed its spores. Caterpillars eat the spores whilst feeding on leaf litter to complete the fungal life cycle. Evidence of this fungus can be seen when small brown stems push through the forest floor: underneath will be the dried remains of the host caterpillar. This species was first thought by Europeans to be a worm or caterpillar that burrowed from the top of a tree to the roots, where it exited and then grew a shoot of the plant out of its head. It was the first fungus provided with a binomial name from New Zealand.

<span class="mw-page-title-main">Sphingosine-1-phosphate receptor modulator</span> Drug class

Sphingosine-1-phosphate receptor modulators are a class of drugs used as immunomodulators, most notably in cases of multiple sclerosis.

Exophiala pisciphila is a mesophilic black yeast and member of the dark septate endophytes. This saprotrophic fungus is found commonly in marine and soil environments. It is abundant in harsh environments like soil contaminated with heavy metals. E. pisciphila forms symbiotic relationships with various plants by colonizing on roots, conferring resistance to drought and heavy metal stress. It is an opportunistic pathogen that commonly causes infections in captive fish and amphibians, while rarely causing disease in humans. Secondary metabolites produced by this species have potential clinical antibiotic and antiretroviral applications.

<i>Isaria cicadae</i> Species of fungi

Isaria cicadae is an ascomycete fungus that parasitizes cicada larvae. It forms white and yellow asexual fruiting structures resembling synnema. While mostly being found throughout Asia in warm, humid regions, it has been found on various other continents. It is known in Traditional Chinese Medicine as Chan Hua and commonly called “cicada flower.” Its medicinal uses date back to the fifth century AD in China. It can also be used in various foods and tonics.

Purpureocillium takamizusanense is a species of fungus in the genus Purpureocillium in the order of Hypocreales.

References

  1. 1 2 "Species: Isaria sinclairii (Berk.) Lloyd [stat. anam.], Mycological Writings 7: 1179 (1923)". New Zealand Fungi. Landcare Research . Retrieved March 25, 2011.
  2. Hooker, Joseph Dalton (1855). The botany of the Antarctic voyage of H.M. discovery ships Erebus and Terror in the Years 1839–1843. Vol. 2. London: Reeve Brothers. p. 348.
  3. Lloyd, C. G. (1923). "Mycological Notes 68". Mycological Writings. 7 (68): 1169–1184.
  4. "Isaria". Fungal Guide. Landcare Research . Retrieved March 25, 2011.
  5. Glare, Travis; O'Callaghan, Maureen; Wigley, Peter J. (1993). "Checklist of naturally occurring entomopathogenic microbes and nematodes in New Zealand". New Zealand Journal of Zoology. 20 (2): 95–120. doi:10.1080/03014223.1993.10422867.
  6. Cunningham, G.H. (1921). "The genus Cordyceps in New Zealand". Transactions of the Royal Society of New Zealand. 53: 372–382.
  7. 1 2 Tetsuro Fujita; Kenichiro Inoue; Satoshi Yamamoto; Takeshi Ikumoto; Shigeo Sasaki; Ryousuke Toyama; Kenji Chiba; Yukio Hoshino; Takeki Okumoto (1994). "Fungal metabolites. Part 11. A potent immunosuppressive activity found in Isaria sinclairii metabolite". The Journal of Antibiotics . 47 (2): 208–215. doi: 10.7164/antibiotics.47.208 . PMID   8150717.
  8. 1 2 Strader, C.R.; Pearce, C.J.; Oberlies, N.H. (2011). "Fingolimod (FTY720): a recently approved multiple sclerosis drug based on a fungal secondary metabolite". Journal of Natural Products. 74 (4): 900–907. doi:10.1021/np2000528. PMID   21456524.
  9. 1 2 Burridge, Samia (October 27, 2010). "Myriocin". Lipid Maps. doi:10.1038/lipidmaps.2010.34. Archived from the original on March 9, 2013. Retrieved March 26, 2011.
  10. Tetsuro Fujita; Kenichiro Inoue; Satoshi Yamamoto; Takeshi Ikumoto; Shigeo Sasaki; Ryousuke Toyama; Kenji Chiba; Yukio Hoshino; Takeki Okumoto (1994). "Fungal metabolites. Part 12. Potent immunosuppressant, 14-deoxomyriocin, (2S,3R,4R)-(E)-2-amino-3,4-dihydroxy-2-hydroxymethyleicos-6-enoic acid and structure-activity relationships of myriocin derivatives". The Journal of Antibiotics . 47 (2): 216–224. doi: 10.7164/antibiotics.47.216 . PMID   8150718.
  11. White, C.; Alshaker, H.; Cooper, C.; Winkler, M.; Pchejetski, D (2016). "The emerging role of FTY720 (Fingolimod) in cancer treatment". Oncotarget. 7 (17): 23106–23127. doi:10.18632/oncotarget.7145. PMC   5029614 . PMID   27036015.
  12. Ahn, M.Y.; Jee, S.D.; Lee, B.M. (2007). "Antiobesity effects of Isaria sinclairii by repeated oral treatment in obese Zucker rats over a 4-month period". Journal of Toxicology and Environmental Health, Part A. 70 (15–16): 1395–1401. doi:10.1080/15287390701428556. PMID   17654260. S2CID   911043.