Little Ainslie E F, Murakami Takahiro, Mueller Ulrich G, Currie Cameron R
Department of Bacteriology, University of Wisconsin-Madison, Madison, WI 53706, USA.
Biol Lett. 2006 Mar 22;2(1):12-6. doi: 10.1098/rsbl.2005.0371.
Parasites influence host biology and population structure, and thus shape the evolution of their hosts. Parasites often accelerate the evolution of host defences, including direct defences such as evasion and sanitation and indirect defences such as the management of beneficial microbes that aid in the suppression or removal of pathogens. Fungus-growing ants are doubly burdened by parasites, needing to protect their crops as well as themselves from infection. We show that parasite removal from fungus gardens is more complex than previously realized. In response to infection of their fungal gardens by a specialized virulent parasite, ants gather and compress parasitic spores and hyphae in their infrabuccal pockets, then deposit the resulting pellet in piles near their gardens. We reveal that the ants' infrabuccal pocket functions as a specialized sterilization device, killing spores of the garden parasite Escovopsis. This is apparently achieved through a symbiotic association with actinomycetous bacteria in the infrabuccal pocket that produce antibiotics which inhibit Escovopsis. The use of the infrabuccal pocket as a receptacle to sequester Escovopsis, and as a location for antibiotic administration by the ants' bacterial mutualist, illustrates how the combination of behaviour and microbial symbionts can be a successful defence strategy for hosts.
寄生虫会影响宿主的生物学特性和种群结构,进而塑造宿主的进化。寄生虫常常加速宿主防御机制的进化,这些防御机制包括逃避和清洁等直接防御,以及对有助于抑制或清除病原体的有益微生物的管理等间接防御。培育真菌的蚂蚁受到寄生虫的双重困扰,它们既要保护自己的作物,又要防止自身受到感染。我们发现,从真菌园清除寄生虫比之前认为的更为复杂。当它们的真菌园被一种特殊的烈性寄生虫感染时,蚂蚁会在它们的口下囊收集并挤压寄生孢子和菌丝,然后将形成的颗粒状物质堆积在真菌园附近。我们发现,蚂蚁的口下囊起到了专门的消毒装置的作用,能够杀死真菌园寄生虫埃斯科沃普斯菌(Escovopsis)的孢子。这显然是通过与口下囊中放线菌的共生关系实现的,这些放线菌会产生抑制埃斯科沃普斯菌的抗生素。蚂蚁利用口下囊来隔离埃斯科沃普斯菌,并作为其细菌共生体施用抗生素的场所,这说明了行为与微生物共生体的结合如何能够成为宿主成功的防御策略。