Co-infections determine patterns of mortality in a population exposed to parasite infection

Mark E.J. Woolhouse; Samuel M. Thumbi; Amy Jennings; Margo Chase-Topping; Rebecca Callaby; Henry Kiara; Marinda C. Oosthuizen; Mary N. Mbole-Kariuki; Ilana Conradie; Ian G. Handel; E. Jane Poole; Evalyne Njiiri; Nicola E. Collins; Gemma Murray; Miika Tapio; Olga Tosas Auguet; Willie Weir; W. Ivan Morrison; Loeske E.B. Kruuk; C. B.Mark De Bronsvoort; Olivier Hanotte; Koos Coetzer; Philip G. Toye

doi:10.1126/sciadv.1400026

Co-infections determine patterns of mortality in a population exposed to parasite infection

Mark E.J. Woolhouse^*, Samuel M. Thumbi, Amy Jennings, Margo Chase-Topping, Rebecca Callaby, Henry Kiara, Marinda C. Oosthuizen, Mary N. Mbole-Kariuki, Ilana Conradie, Ian G. Handel, E. Jane Poole, Evalyne Njiiri, Nicola E. Collins, Gemma Murray, Miika Tapio, Olga Tosas Auguet, Willie Weir, W. Ivan Morrison, Loeske E.B. Kruuk, C. B.Mark De BronsvoortOlivier Hanotte, Koos Coetzer, Philip G. Toye

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

59 Citations (Scopus)

Abstract

Many individual hosts are infected with multiple parasite species, and this may increase or decrease the pathogenicity of the infections. This phenomenon is termed heterologous reactivity and is potentially an important determinant of both patterns ofmorbidity andmortality and of the impact of disease controlmeasures at the population level. Using infections with Theileria parva (a tick-borne protozoan, related to Plasmodium) in indigenous African cattle [where it causes East Coast fever (ECF)] as a model system, we obtain the first quantitative estimate of the effects of heterologous reactivity for any parasitic disease. In individual calves, concurrent co-infection with less pathogenic species of Theileria resulted in an 89% reduction inmortality associated with T. parva infection. Across our study population, this corresponds to a net reduction in mortality due to ECF of greater than 40%. Using a mathematical model, we demonstrate that this degree of heterologous protection provides a unifying explanation for apparently disparate epidemiological patterns: variable disease-inducedmortality rates, age-mortality profiles, weak correlations between the incidence of infection and disease (known as endemic stability), and poor efficacy of interventions that reduce exposure to multiple parasite species. These findings can be generalized to many other infectious diseases, including human malaria, and illustrate how co-infections can play a key role in determining population-level patterns of morbidity and mortality due to parasite infections.

Original language	English
Article number	e1400026
Journal	Science advances
Volume	1
Issue number	2
DOIs	https://doi.org/10.1126/sciadv.1400026
Publication status	Published - Mar 2015

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Woolhouse, M. E. J., Thumbi, S. M., Jennings, A., Chase-Topping, M., Callaby, R., Kiara, H., Oosthuizen, M. C., Mbole-Kariuki, M. N., Conradie, I., Handel, I. G., Poole, E. J., Njiiri, E., Collins, N. E., Murray, G., Tapio, M., Auguet, O. T., Weir, W., Morrison, W. I., Kruuk, L. E. B., ... Toye, P. G. (2015). Co-infections determine patterns of mortality in a population exposed to parasite infection. Science advances, 1(2), Article e1400026. https://doi.org/10.1126/sciadv.1400026

@article{080d9b16081c40c8a45dd5ddddd09eb8,

title = "Co-infections determine patterns of mortality in a population exposed to parasite infection",

abstract = "Many individual hosts are infected with multiple parasite species, and this may increase or decrease the pathogenicity of the infections. This phenomenon is termed heterologous reactivity and is potentially an important determinant of both patterns ofmorbidity andmortality and of the impact of disease controlmeasures at the population level. Using infections with Theileria parva (a tick-borne protozoan, related to Plasmodium) in indigenous African cattle [where it causes East Coast fever (ECF)] as a model system, we obtain the first quantitative estimate of the effects of heterologous reactivity for any parasitic disease. In individual calves, concurrent co-infection with less pathogenic species of Theileria resulted in an 89% reduction inmortality associated with T. parva infection. Across our study population, this corresponds to a net reduction in mortality due to ECF of greater than 40%. Using a mathematical model, we demonstrate that this degree of heterologous protection provides a unifying explanation for apparently disparate epidemiological patterns: variable disease-inducedmortality rates, age-mortality profiles, weak correlations between the incidence of infection and disease (known as endemic stability), and poor efficacy of interventions that reduce exposure to multiple parasite species. These findings can be generalized to many other infectious diseases, including human malaria, and illustrate how co-infections can play a key role in determining population-level patterns of morbidity and mortality due to parasite infections.",

author = "Woolhouse, {Mark E.J.} and Thumbi, {Samuel M.} and Amy Jennings and Margo Chase-Topping and Rebecca Callaby and Henry Kiara and Oosthuizen, {Marinda C.} and Mbole-Kariuki, {Mary N.} and Ilana Conradie and Handel, {Ian G.} and Poole, {E. Jane} and Evalyne Njiiri and Collins, {Nicola E.} and Gemma Murray and Miika Tapio and Auguet, {Olga Tosas} and Willie Weir and Morrison, {W. Ivan} and Kruuk, {Loeske E.B.} and {De Bronsvoort}, {C. B.Mark} and Olivier Hanotte and Koos Coetzer and Toye, {Philip G.}",

note = "Publisher Copyright: {\textcopyright} 2015 The Authors, some rights reserved.",

year = "2015",

month = mar,

doi = "10.1126/sciadv.1400026",

language = "English",

volume = "1",

journal = "Science advances",

issn = "2375-2548",

publisher = "American Association for the Advancement of Science",

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Woolhouse, MEJ, Thumbi, SM, Jennings, A, Chase-Topping, M, Callaby, R, Kiara, H, Oosthuizen, MC, Mbole-Kariuki, MN, Conradie, I, Handel, IG, Poole, EJ, Njiiri, E, Collins, NE, Murray, G, Tapio, M, Auguet, OT, Weir, W, Morrison, WI, Kruuk, LEB, De Bronsvoort, CBM, Hanotte, O, Coetzer, K & Toye, PG 2015, 'Co-infections determine patterns of mortality in a population exposed to parasite infection', Science advances, vol. 1, no. 2, e1400026. https://doi.org/10.1126/sciadv.1400026

TY - JOUR

T1 - Co-infections determine patterns of mortality in a population exposed to parasite infection

AU - Woolhouse, Mark E.J.

AU - Thumbi, Samuel M.

AU - Jennings, Amy

AU - Chase-Topping, Margo

AU - Callaby, Rebecca

AU - Kiara, Henry

AU - Oosthuizen, Marinda C.

AU - Mbole-Kariuki, Mary N.

AU - Conradie, Ilana

AU - Handel, Ian G.

AU - Poole, E. Jane

AU - Njiiri, Evalyne

AU - Collins, Nicola E.

AU - Murray, Gemma

AU - Tapio, Miika

AU - Auguet, Olga Tosas

AU - Weir, Willie

AU - Morrison, W. Ivan

AU - Kruuk, Loeske E.B.

AU - De Bronsvoort, C. B.Mark

AU - Hanotte, Olivier

AU - Coetzer, Koos

AU - Toye, Philip G.

PY - 2015/3

Y1 - 2015/3

N2 - Many individual hosts are infected with multiple parasite species, and this may increase or decrease the pathogenicity of the infections. This phenomenon is termed heterologous reactivity and is potentially an important determinant of both patterns ofmorbidity andmortality and of the impact of disease controlmeasures at the population level. Using infections with Theileria parva (a tick-borne protozoan, related to Plasmodium) in indigenous African cattle [where it causes East Coast fever (ECF)] as a model system, we obtain the first quantitative estimate of the effects of heterologous reactivity for any parasitic disease. In individual calves, concurrent co-infection with less pathogenic species of Theileria resulted in an 89% reduction inmortality associated with T. parva infection. Across our study population, this corresponds to a net reduction in mortality due to ECF of greater than 40%. Using a mathematical model, we demonstrate that this degree of heterologous protection provides a unifying explanation for apparently disparate epidemiological patterns: variable disease-inducedmortality rates, age-mortality profiles, weak correlations between the incidence of infection and disease (known as endemic stability), and poor efficacy of interventions that reduce exposure to multiple parasite species. These findings can be generalized to many other infectious diseases, including human malaria, and illustrate how co-infections can play a key role in determining population-level patterns of morbidity and mortality due to parasite infections.

AB - Many individual hosts are infected with multiple parasite species, and this may increase or decrease the pathogenicity of the infections. This phenomenon is termed heterologous reactivity and is potentially an important determinant of both patterns ofmorbidity andmortality and of the impact of disease controlmeasures at the population level. Using infections with Theileria parva (a tick-borne protozoan, related to Plasmodium) in indigenous African cattle [where it causes East Coast fever (ECF)] as a model system, we obtain the first quantitative estimate of the effects of heterologous reactivity for any parasitic disease. In individual calves, concurrent co-infection with less pathogenic species of Theileria resulted in an 89% reduction inmortality associated with T. parva infection. Across our study population, this corresponds to a net reduction in mortality due to ECF of greater than 40%. Using a mathematical model, we demonstrate that this degree of heterologous protection provides a unifying explanation for apparently disparate epidemiological patterns: variable disease-inducedmortality rates, age-mortality profiles, weak correlations between the incidence of infection and disease (known as endemic stability), and poor efficacy of interventions that reduce exposure to multiple parasite species. These findings can be generalized to many other infectious diseases, including human malaria, and illustrate how co-infections can play a key role in determining population-level patterns of morbidity and mortality due to parasite infections.

UR - http://www.scopus.com/inward/record.url?scp=84953737172&partnerID=8YFLogxK

U2 - 10.1126/sciadv.1400026

DO - 10.1126/sciadv.1400026

M3 - Article

SN - 2375-2548

VL - 1

JO - Science advances

JF - Science advances

IS - 2

M1 - e1400026

ER -

Co-infections determine patterns of mortality in a population exposed to parasite infection

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