Supplemented nutrition increases immunity and drug efficacy in a natural host-helminth system

Abstract

AbstractGastrointestinal helminths are common parasites of humans, wildlife, and livestock, leading to chronic infections in large parts of the world. In humans, there is also an overlap in the incidence of malnutrition and helminth infections which can predispose individuals to higher infection burdens and reduced anthelmintic efficacy due to compromised immunity. This relationship has been well-studied in laboratory models by testing for the impact of dramatic reductions of specific nutrients on infection outcomes. However, much less is known about the benefits of whole-diet supplementation in natural host-helminth systems. We experimentally supplemented the diet of wood mice (Apodemus sylvaticus) and measured resistance to the gastrointestinal nematode Heligmosomoides polygyrus and anthelmintic treatment efficacy in both natural and captive populations. Supplemented wood mice were more resistant to H. polygyrus infection, cleared worms more efficiently after treatment, produced stronger general and parasite-specific antibody responses, and maintained better body condition. In addition, supplemented nutrition in conjunction with anthelminthic treatment significantly reduced H. polygyrus transmission potential. These large-scale improvements in condition and immunity of supplemented nutrition found in controlled and wild environments show the rapid and extensive benefits of a well-balanced diet and have important implications for using diet interventions to improve disease control programmes.Author SummaryGastrointestinal helminths are ubiquitous parasites which cause chronic infections and debilitating symptoms worldwide for human and animal populations alike. Efforts to control helminth infections rely primarily on deworming drugs. However, despite high availability and low cost of these drugs, reinfection is common and helminths remain a substantial problem in many areas of the world. One factor which contributes to the persistence of helminth infections is co-occurrence of malnutrition. Extensive work in model laboratory systems has shown that deficiencies in both macro- and micronutrients can impair host immune responses to helminth infections, but how this relationship translates to natural host-helminth systems and drug efficacy is still poorly understood. Here, we used a combination of experimental nutrition supplementation and deworming treatment in paired wood mouse populations in both wild and captive environments to determine the role of a well-balanced diet for infection control in a natural host-helminth system. We found that mice on a supplemented diet had lower burden of infection and increased drug efficacy, body condition, and immune responses. We also found that supplementation lowered transmission potential of hosts. These broad and rapid effects of increased nutrition quality have important implications for the benefits of diet interventions alongside deworming drugs.