Abstract
Mycobacterium bovis is the causative agent of bovine tuberculosis and the predominant cause of zoonotic tuberculosis in people. Bovine tuberculosis occurs in farmed cattle but also in a variety of wild animals, which form a reservoir of infection. Although direct transmission of tuberculosis occurs between mammals, the low frequency of contact between different host species and abundant shedding of bacilli by infected animals suggests an infectious route via environmental contamination. Other intracellular pathogens that transmit via the environment deploy strategies to survive or exploit predation by environmental amoebae. To explore if M. bovis has this capability, we investigated its interactions with the soil and dung-dwelling amoeba, Dictyostelium discoideum. We demonstrated that M. bovis evades phagocytosis and destruction by D. discoideum and actively transits through the amoeba using the ESX-1 Type VII Secretion System as part of a programme of mechanisms, many of which have been co-opted as virulence factors in the mammalian host. This capacity of M. bovis to utilise an environmental stage between mammalian hosts may enhance its transmissibility. In addition, our data provide molecular evidence to support an evolutionary role for amoebae as training grounds for the pathogenic M. tuberculosis complex.
Highlights
Mycobacterium bovis, a member of the M. tuberculosis complex, causes bovine tuberculosis, one of the most important veterinary health problems in the UK and Ireland [1, 2]
We investigated the survival of M. bovis AF2122/97 in D. discoideum over 2 days of infection, and compared it with the survival of the discoideum was infected with an MOI of 10 with (c) M. marinum M strain, (d) M. smegmatis mc2155 strain, or (e) M. bovis AF2122/97
This study demonstrates for the first time that a member of the M. tuberculosis complex is adapted to actively combat predation/phagocytosis by amoebae at environmental temperature
Summary
Mycobacterium bovis, a member of the M. tuberculosis complex, causes bovine tuberculosis, one of the most important veterinary health problems in the UK and Ireland [1, 2]. Studies on Mycobacterium marinum, a pathogen of poikilotherms such as fish and frogs [14, 24,25,26] and the environmental opportunistic pathogens of the M. avium complex [27, 28], support this view, with overlap in the virulence mechanisms/genes used to replicate and survive in both amoebae and the phagocytes of higher organisms. We screened M. bovis genetic mutants to reveal that escape from the host amoeba required numerous genes/molecular mechanisms that are required for full virulence of M. tuberculosis complex bacteria in mammals. This is supportive of an evolutionary history in which adaptation to intracellular survival first occurred in amoebae and was later co-opted by the M. tuberculosis complex and other pathogenic mycobacteria for infection of phagocytes from vertebrates
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