Alternaria tenuissima is a saprophyticfungus and opportunistic plant pathogen. It is cosmopolitan in distribution, and can colonize a wide range of plant hosts.[1] Colonies of A. tenuissima produce chains on agar growth media.[1] The fungus often forms concentric ring patterns on infected plant leaves.[2] This species produces the allergen Alt a 1, one of the most important outdoor seasonal fungal allergens associated with allergy and asthma provocation.[3] In rare circumstances, this species is also known to infect immunosuppressed humans and animals.[4]
Growth and morphology
Unlike many other species of Alternaria, the conidiophores of A. tenuissima can develop in darkness after the colony has been exposed to light even very briefly; however its growth is more robust with longer periods of light exposure.[5] After 5–7 days in culture, colonies of A. tenuissima reach a diameter of 5 cm on PCA or V-8 agar (vegetable juice agar).[1] Colonies grown on PCA are brown in colour with a loose, cottony texture and bearing golden-brown conidia in chains.[1] Conidia are on the areas of the colony that receive the most light exposure, forming concentric sporulating rings of uncrowded conidial chains growing from branching hyphae on PCA.[1] Sporulation tends to be much more crowded in colonies grown on V-8 agar.[1] Simple unbranched and branched conidial chains of moderate length as well as solitary conidia are interspersed across the colony especially areas that receive little light.[1]
The light, golden-brown colour of the conidia, and their tendency to taper into long beaks, distinguish A. tenuissima from similar species notably A. alternata which produces dark brown conidia with short beaks.[4] Conidia of A. tenuissima also grow individually or in short chains[6] of 2-5 units,[1] while A. alternata tends to grow in longer chains.[7]Alternaria tenuissima conidia are smooth-walled[6] and have a median and subconstricting transverse septum.[1] Colonies of A. tenuissima on natural substrates (e.g., plant leaves) often develop a concentric, ringed pattern.[2]
Physiology
Alternaria tenuissima is a saprophyte, living on dead matter.[8] It produces the mycotoxins alternariol (AOH), alternariol methyl ester (AME), altenuene (ALT), altertoxin (ATX), and tenuazonic acid (TA), that are variously involved pathogenicity and interference competition.[8] Mycotoxins of this species are optimally produced at 25 °C.[9]
Habitat and ecology
Alternaria tenuissima is a cosmopolitan species, common on an array of various plant hosts in many countries spanning a range of environmental conditions.[10] It often colonizes blueberries,[11] tomatoes, grapevine, and strawberries.[7] It has also been found on several cereal grain species.[8] Optimal growth occurs between 25–30 °C (77–86 °F).[12] Although A. tenuissima is normally an opportunistic pathogen of plants, rare cases of skin infections in immunocompromised people have been reported.[13][14]
Medical significance
Cutaneous and subcutaneousalternariosis is a skin or tissue infection caused by members of the genus Alternaria, most commonly A. alternata and A. tenuissima.[4] Because of the inability of A. tenuissima to invade healthy host tissue, alternariosis tends to be restricted to people with abrogated cellular immunity and occasionally the elderly.[4] Complication following organ transplantion, Cushing's syndrome and immunosuppressive therapies are some of the typical settings in which alternariosis has been reported.[4] Alternariosis appears on the skin as red pustules that may produce ulcers over time.[4]Alternaria tenuissima is a prolific producer of the allergen Alt a 1.[15] Exposure to this protein can induce an allergic reaction in sensitized individuals by reacting with circulating IgEantibody.[3] Exposure to Alt a 1 has been associated with asthmatic exacerbation.[16]Alternaria tenuissima also produces the mycotoxintenuazonic acid[17] which has received attention as a candidate antitumor medication.[18]
References
^ abcdefghiSimmons, Emory G. (2007). Alternaria: An Identification Manual (fully illustrated and with catalogue raisonné 1796-2007). Utrecht, The Netherlands: CBS Fungal Biodiversity Centre. pp. 500–502. ISBN978-90-70351-68-7.
^ abNasehi, A.; Kadir, J. B.; Abidin, M. A. Zainal; Wong, M. Y.; Mahmodi, F. (August 2012). "First Report of Alternaria tenuissima Causing Leaf Spot on Eggplant in Malaysia". Plant Disease. 96 (8): 1226. doi:10.1094/PDIS-03-12-0237-PDN. PMID30727083.
^ abIbarrola, Ignacio; Suárez-Cervera, María; Arilla, M. Carmen; Martínez, Alberto; Monteseirín, Javier; Conde, José; Asturias, Juan A. (December 2004). "Production profile of the major allergen Alt a 1 in Alternaria alternata cultures". Annals of Allergy, Asthma & Immunology. 93 (6): 589–593. doi:10.1016/S1081-1206(10)61268-9. PMID15609770.
^Rotem, Joseph (1998). The genus Alternaria : biology, epidemiology, and pathogenicity (2nd print ed.). St. Paul, Minn: APS-Press. ISBN978-0890541524.
^ abEllis, Martin B.; Ellis, J. Pamela (1997). Microfungi on land plants : an identification handbook (New enl. ed.). Slough: RP Richmond Publ. p. 289. ISBN085546-245-0.
^ abcChełkowski, J; Visconti, A (1992). Alternaria: biology, plant diseases and metabolites. Amsterdam [u.a.]: Elsevier. pp. 364–365. ISBN0-444-88998-1.
^Weidenbörner, Martin (2001). Encyclopedia of Food Mycotoxins. Berlin, Heidelberg: Springer Berlin Heidelberg. ISBN978-3-662-04464-3.
^Farr, David F.; Bills, Gerald F.; Chamuris, George P.; Rossman, Amy Y. (1989). Fungi: on plants and plant products in the United States. Minnesota, USA: The American Phytopathological Society.
^Patriarca, A.; Medina, A.; Pinto, V. Fernández; Magan, N. (January 2014). "Temperature and water stress impacts on growth and production of altertoxin-II by strains of Alternaria tenuissima from Argentinean wheat". World Mycotoxin Journal. 7 (3): 329–334. doi:10.3920/WMJ2013.1711. hdl:11336/22873.
^Saenz-de-Santamaria, M.; Postigo, I.; Gutierrez-Rodriguez, A.; Cardona, G.; Guisantes, J. A.; Asturias, J.; Martinez, J. (March 2006). "The major allergen of Alternaria alternata (Alt a 1) is expressed in other members of the Pleosporaceae family". Mycoses. 49 (2): 91–95. doi:10.1111/j.1439-0507.2006.01195.x. PMID16466440. S2CID24588508.
^Antony, M; Gupta, KP; Janardanan, KK; Mehrotra, NK (9 December 1991). "Inhibition of mouse skin tumor promotion by tenuazonic acid". Cancer Letters. 61 (1): 21–5. doi:10.1016/0304-3835(91)90072-p. PMID1764695.