Biosynthetic homeostasis and resilience of the complement system in health and infectious disease

Esther Willems; Wynand Alkema; Jenneke Keizer-Garritsen; Anouk Suppers; Michiel van der Flier; Ria H.L.A. Philipsen; Lambert P. van den Heuvel; Elena Volokhina; Renate G. van der Molen; Jethro A. Herberg; Michael Levin; Victoria J. Wright; Inge M.L. Ahout; Gerben Ferwerda; Marieke Emonts; Navin P. Boeddha; Irene Rivero-Calle; Federico Martinon Torres; Hans J.C.T. Wessels; Ronald de Groot; Alain J. van Gool; Jolein Gloerich; Marien I. de Jonge

doi:10.1016/j.ebiom.2019.06.008

Biosynthetic homeostasis and resilience of the complement system in health and infectious disease

Esther Willems^*, Wynand Alkema, Jenneke Keizer-Garritsen, Anouk Suppers, Michiel van der Flier, Ria H.L.A. Philipsen, Lambert P. van den Heuvel, Elena Volokhina, Renate G. van der Molen, Jethro A. Herberg, Michael Levin, Victoria J. Wright, Inge M.L. Ahout, Gerben Ferwerda, Marieke Emonts, Navin P. Boeddha, Irene Rivero-Calle, Federico Martinon Torres, Hans J.C.T. Wessels, Ronald de GrootAlain J. van Gool, Jolein Gloerich, Marien I. de Jonge

^*Corresponding author for this work

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

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Abstract

Background: The complement system is a central component of the innate immune system. Constitutive biosynthesis of complement proteins is essential for homeostasis. Dysregulation as a consequence of genetic or environmental cues can lead to inflammatory syndromes or increased susceptibility to infection. However, very little is known about steady state levels in children or its kinetics during infection. Methods: With a newly developed multiplex mass spectrometry-based method we analyzed the levels of 32 complement proteins in healthy individuals and in a group of pediatric patients infected with bacterial or viral pathogens. Findings: In plasma from young infants we found reduced levels of C4BP, ficolin-3, factor B, classical pathway components C1QA, C1QB, C1QC, C1R, and terminal pathway components C5, C8, C9, as compared to healthy adults; whereas the majority of complement regulating (inhibitory) proteins reach adult levels at very young age. Both viral and bacterial infections in children generally lead to a slight overall increase in complement levels, with some exceptions. The kinetics of complement levels during invasive bacterial infections only showed minor changes, except for a significant increase and decrease of CRP and clusterin, respectively. Interpretation: The combination of lower levels of activating and higher levels of regulating complement proteins, would potentially raise the threshold of activation, which might lead to suppressed complement activation in the first phase of life. There is hardly any measurable complement consumption during bacterial or viral infection. Altogether, expression of the complement proteins appears surprisingly stable, which suggests that the system is continuously replenished. Fund: European Union's Horizon 2020, project PERFORM, grant agreement No. 668303.

Original language	English
Pages (from-to)	303-313
Number of pages	11
Journal	EBioMedicine
Volume	45
DOIs	https://doi.org/10.1016/j.ebiom.2019.06.008
Publication status	Published - 1 Jul 2019

Keywords

C-reactive protein (CRP)
Clusterin
Complement system
Infectious disease
Multiple reaction monitoring (MRM)
Targeted mass spectrometry

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Willems, E., Alkema, W., Keizer-Garritsen, J., Suppers, A., van der Flier, M., Philipsen, R. H. L. A., van den Heuvel, L. P., Volokhina, E., van der Molen, R. G., Herberg, J. A., Levin, M., Wright, V. J., Ahout, I. M. L., Ferwerda, G., Emonts, M., Boeddha, N. P., Rivero-Calle, I., Torres, F. M., Wessels, H. J. C. T., ... de Jonge, M. I. (2019). Biosynthetic homeostasis and resilience of the complement system in health and infectious disease. EBioMedicine, 45, 303-313. https://doi.org/10.1016/j.ebiom.2019.06.008

@article{14f0682366b1472caf7e9321c4b54266,

title = "Biosynthetic homeostasis and resilience of the complement system in health and infectious disease",

abstract = "Background: The complement system is a central component of the innate immune system. Constitutive biosynthesis of complement proteins is essential for homeostasis. Dysregulation as a consequence of genetic or environmental cues can lead to inflammatory syndromes or increased susceptibility to infection. However, very little is known about steady state levels in children or its kinetics during infection. Methods: With a newly developed multiplex mass spectrometry-based method we analyzed the levels of 32 complement proteins in healthy individuals and in a group of pediatric patients infected with bacterial or viral pathogens. Findings: In plasma from young infants we found reduced levels of C4BP, ficolin-3, factor B, classical pathway components C1QA, C1QB, C1QC, C1R, and terminal pathway components C5, C8, C9, as compared to healthy adults; whereas the majority of complement regulating (inhibitory) proteins reach adult levels at very young age. Both viral and bacterial infections in children generally lead to a slight overall increase in complement levels, with some exceptions. The kinetics of complement levels during invasive bacterial infections only showed minor changes, except for a significant increase and decrease of CRP and clusterin, respectively. Interpretation: The combination of lower levels of activating and higher levels of regulating complement proteins, would potentially raise the threshold of activation, which might lead to suppressed complement activation in the first phase of life. There is hardly any measurable complement consumption during bacterial or viral infection. Altogether, expression of the complement proteins appears surprisingly stable, which suggests that the system is continuously replenished. Fund: European Union's Horizon 2020, project PERFORM, grant agreement No. 668303.",

keywords = "C-reactive protein (CRP), Clusterin, Complement system, Infectious disease, Multiple reaction monitoring (MRM), Targeted mass spectrometry",

author = "Esther Willems and Wynand Alkema and Jenneke Keizer-Garritsen and Anouk Suppers and {van der Flier}, Michiel and Philipsen, {Ria H.L.A.} and {van den Heuvel}, {Lambert P.} and Elena Volokhina and {van der Molen}, {Renate G.} and Herberg, {Jethro A.} and Michael Levin and Wright, {Victoria J.} and Ahout, {Inge M.L.} and Gerben Ferwerda and Marieke Emonts and Boeddha, {Navin P.} and Irene Rivero-Calle and Torres, {Federico Martinon} and Wessels, {Hans J.C.T.} and {de Groot}, Ronald and {van Gool}, {Alain J.} and Jolein Gloerich and {de Jonge}, {Marien I.}",

note = "Funding Information: This research, part of the PERFORM project, has received funding from the European Union 's Horizon 2020 research and innovation program under grant agreement No. 668303 . The samples were collected previously funded by: the European Seventh Framework Programme for Research and Technological Development (FP7) under EUCLIDS Grant Agreement n o . 279185 ; Virgo consortium, funded by the Dutch Government project number FES0908 and by the Netherlands Genomics Initiative (NGI) project number 050-060-452 ; and the Immunopathology of Respiratory, Inflammatory and Infectious Disease Study (IRIS). Funding Information: We thank the PERFORM consortium for their collaboration and fruitful discussions. We are thankful for the patient samples from the VENTURIUS, IRIS, and EUCLIDS study. We also would like to thank all healthy volunteers and the patients for donating their blood for these studies. This research, part of the PERFORM project, has received funding from the European Union's Horizon 2020 research and innovation program under grant agreement No. 668303. The samples were collected previously funded by: the European Seventh Framework Programme for Research and Technological Development (FP7) under EUCLIDS Grant Agreement no. 279185; Virgo consortium, funded by the Dutch Government project number FES0908 and by the Netherlands Genomics Initiative (NGI) project number 050-060-452; and the Immunopathology of Respiratory, Inflammatory and Infectious Disease Study (IRIS). Dr. Alkema reports grants from European Commission, during the conduct of the study; Dr. van der Flier reports grants from CSL Behring, grants from Shire, outside the submitted work; Dr. Emonts reports grants from EU FP7, grants from European Union's Horizon 2020 research and innovation programme, during the conduct of the study; personal fees from Newcastle upon Tyne Hospitals NHS Foundation Trust, personal fees from Newcastle University, outside the submitted work; Dr. Irene Rivero-Calle reports other from Ablynx, other from Jansen, other from GSK, other from Medimmune and other from Sanofi Pasteur; personal fees and other from Pfizer, personal fees and other from MSD; all outside the submitted work. Conceptualization, E.W. and M.I.J.; Methodology, E.W. J.G. and M.I.J.; Investigation, E.W. and J.K.; Validation, E.W. and J.K.; Software, W.A. and A.S.; Formal Analysis, W.A.; Visualization, E.W. and W.A.; Resources, M.F, R.H.L.A.P. L.P.H. E.V. R.G.M. J.A.H. V.J.W. I.M.L.A, G.F. M.E. N.P.B. I.R. F.M.T.; Writing – Original Draft, E.W. and M.I.J.; Writing – Review & Editing, E.W. M.I.J, J.G. W.A. M.F. E.V. R.G.M. V.J.W. I.M.L.A. G.F. M.E. H.J.T.C.W. R.G. and A.G.; Funding Acquisition, M.F. R.G. M.I.J and M.L.; Supervision, J.G. and M.I.J. Funding Information: We thank the PERFORM consortium for their collaboration and fruitful discussions. We are thankful for the patient samples from the VENTURIUS, IRIS, and EUCLIDS study. We also would like to thank all healthy volunteers and the patients for donating their blood for these studies. This research, part of the PERFORM project, has received funding from the European Union's Horizon 2020 research and innovation program under grant agreement No. 668303. The samples were collected previously funded by: the European Seventh Framework Programme for Research and Technological Development (FP7) under EUCLIDS Grant Agreement no. 279185; Virgo consortium, funded by the Dutch Government project number FES0908 and by the Netherlands Genomics Initiative (NGI) project number 050-060-452; and the Immunopathology of Respiratory, Inflammatory and Infectious Disease Study (IRIS). Dr. Alkema reports grants from European Commission, during the conduct of the study; Dr. van der Flier reports grants from CSL Behring, grants from Shire, outside the submitted work; Dr. Emonts reports grants from EU FP7, grants from European Union's Horizon 2020 research and innovation programme, during the conduct of the study; personal fees from Newcastle upon Tyne Hospitals NHS Foundation Trust, personal fees from Newcastle University, outside the submitted work; Dr. Irene Rivero-Calle reports other from Ablynx, other from Jansen, other from GSK, other from Medimmune and other from Sanofi Pasteur; personal fees and other from Pfizer, personal fees and other from MSD; all outside the submitted work. Conceptualization, E.W. and M.I.J.; Methodology, E.W. J.G. and M.I.J.; Investigation, E.W. and J.K.; Validation, E.W. and J.K.; Software, W.A. and A.S.; Formal Analysis, W.A.; Visualization, E.W. and W.A.; Resources, M.F, R.H.L.A.P. L.P.H. E.V. R.G.M. J.A.H. V.J.W. I.M.L.A, G.F. M.E. N.P.B. I.R. F.M.T.; Writing ? Original Draft, E.W. and M.I.J.; Writing ? Review & Editing, E.W. M.I.J, J.G. W.A. M.F. E.V. R.G.M. V.J.W. I.M.L.A. G.F. M.E. H.J.T.C.W. R.G. and A.G.; Funding Acquisition, M.F. R.G. M.I.J and M.L.; Supervision, J.G. and M.I.J. Publisher Copyright: {\textcopyright} 2019 The Authors",

year = "2019",

month = jul,

day = "1",

doi = "10.1016/j.ebiom.2019.06.008",

language = "English",

volume = "45",

pages = "303--313",

}

Willems, E, Alkema, W, Keizer-Garritsen, J, Suppers, A, van der Flier, M, Philipsen, RHLA, van den Heuvel, LP, Volokhina, E, van der Molen, RG, Herberg, JA, Levin, M, Wright, VJ, Ahout, IML, Ferwerda, G, Emonts, M, Boeddha, NP, Rivero-Calle, I, Torres, FM, Wessels, HJCT, de Groot, R, van Gool, AJ, Gloerich, J & de Jonge, MI 2019, 'Biosynthetic homeostasis and resilience of the complement system in health and infectious disease', EBioMedicine, vol. 45, pp. 303-313. https://doi.org/10.1016/j.ebiom.2019.06.008

TY - JOUR

T1 - Biosynthetic homeostasis and resilience of the complement system in health and infectious disease

AU - Willems, Esther

AU - Alkema, Wynand

AU - Keizer-Garritsen, Jenneke

AU - Suppers, Anouk

AU - van der Flier, Michiel

AU - Philipsen, Ria H.L.A.

AU - van den Heuvel, Lambert P.

AU - Volokhina, Elena

AU - van der Molen, Renate G.

AU - Herberg, Jethro A.

AU - Levin, Michael

AU - Wright, Victoria J.

AU - Ahout, Inge M.L.

AU - Ferwerda, Gerben

AU - Emonts, Marieke

AU - Boeddha, Navin P.

AU - Rivero-Calle, Irene

AU - Torres, Federico Martinon

AU - Wessels, Hans J.C.T.

AU - de Groot, Ronald

AU - van Gool, Alain J.

AU - Gloerich, Jolein

AU - de Jonge, Marien I.

N1 - Funding Information: This research, part of the PERFORM project, has received funding from the European Union 's Horizon 2020 research and innovation program under grant agreement No. 668303 . The samples were collected previously funded by: the European Seventh Framework Programme for Research and Technological Development (FP7) under EUCLIDS Grant Agreement n o . 279185 ; Virgo consortium, funded by the Dutch Government project number FES0908 and by the Netherlands Genomics Initiative (NGI) project number 050-060-452 ; and the Immunopathology of Respiratory, Inflammatory and Infectious Disease Study (IRIS). Funding Information: We thank the PERFORM consortium for their collaboration and fruitful discussions. We are thankful for the patient samples from the VENTURIUS, IRIS, and EUCLIDS study. We also would like to thank all healthy volunteers and the patients for donating their blood for these studies. This research, part of the PERFORM project, has received funding from the European Union's Horizon 2020 research and innovation program under grant agreement No. 668303. The samples were collected previously funded by: the European Seventh Framework Programme for Research and Technological Development (FP7) under EUCLIDS Grant Agreement no. 279185; Virgo consortium, funded by the Dutch Government project number FES0908 and by the Netherlands Genomics Initiative (NGI) project number 050-060-452; and the Immunopathology of Respiratory, Inflammatory and Infectious Disease Study (IRIS). Dr. Alkema reports grants from European Commission, during the conduct of the study; Dr. van der Flier reports grants from CSL Behring, grants from Shire, outside the submitted work; Dr. Emonts reports grants from EU FP7, grants from European Union's Horizon 2020 research and innovation programme, during the conduct of the study; personal fees from Newcastle upon Tyne Hospitals NHS Foundation Trust, personal fees from Newcastle University, outside the submitted work; Dr. Irene Rivero-Calle reports other from Ablynx, other from Jansen, other from GSK, other from Medimmune and other from Sanofi Pasteur; personal fees and other from Pfizer, personal fees and other from MSD; all outside the submitted work. Conceptualization, E.W. and M.I.J.; Methodology, E.W. J.G. and M.I.J.; Investigation, E.W. and J.K.; Validation, E.W. and J.K.; Software, W.A. and A.S.; Formal Analysis, W.A.; Visualization, E.W. and W.A.; Resources, M.F, R.H.L.A.P. L.P.H. E.V. R.G.M. J.A.H. V.J.W. I.M.L.A, G.F. M.E. N.P.B. I.R. F.M.T.; Writing – Original Draft, E.W. and M.I.J.; Writing – Review & Editing, E.W. M.I.J, J.G. W.A. M.F. E.V. R.G.M. V.J.W. I.M.L.A. G.F. M.E. H.J.T.C.W. R.G. and A.G.; Funding Acquisition, M.F. R.G. M.I.J and M.L.; Supervision, J.G. and M.I.J. Funding Information: We thank the PERFORM consortium for their collaboration and fruitful discussions. We are thankful for the patient samples from the VENTURIUS, IRIS, and EUCLIDS study. We also would like to thank all healthy volunteers and the patients for donating their blood for these studies. This research, part of the PERFORM project, has received funding from the European Union's Horizon 2020 research and innovation program under grant agreement No. 668303. The samples were collected previously funded by: the European Seventh Framework Programme for Research and Technological Development (FP7) under EUCLIDS Grant Agreement no. 279185; Virgo consortium, funded by the Dutch Government project number FES0908 and by the Netherlands Genomics Initiative (NGI) project number 050-060-452; and the Immunopathology of Respiratory, Inflammatory and Infectious Disease Study (IRIS). Dr. Alkema reports grants from European Commission, during the conduct of the study; Dr. van der Flier reports grants from CSL Behring, grants from Shire, outside the submitted work; Dr. Emonts reports grants from EU FP7, grants from European Union's Horizon 2020 research and innovation programme, during the conduct of the study; personal fees from Newcastle upon Tyne Hospitals NHS Foundation Trust, personal fees from Newcastle University, outside the submitted work; Dr. Irene Rivero-Calle reports other from Ablynx, other from Jansen, other from GSK, other from Medimmune and other from Sanofi Pasteur; personal fees and other from Pfizer, personal fees and other from MSD; all outside the submitted work. Conceptualization, E.W. and M.I.J.; Methodology, E.W. J.G. and M.I.J.; Investigation, E.W. and J.K.; Validation, E.W. and J.K.; Software, W.A. and A.S.; Formal Analysis, W.A.; Visualization, E.W. and W.A.; Resources, M.F, R.H.L.A.P. L.P.H. E.V. R.G.M. J.A.H. V.J.W. I.M.L.A, G.F. M.E. N.P.B. I.R. F.M.T.; Writing ? Original Draft, E.W. and M.I.J.; Writing ? Review & Editing, E.W. M.I.J, J.G. W.A. M.F. E.V. R.G.M. V.J.W. I.M.L.A. G.F. M.E. H.J.T.C.W. R.G. and A.G.; Funding Acquisition, M.F. R.G. M.I.J and M.L.; Supervision, J.G. and M.I.J. Publisher Copyright: © 2019 The Authors

PY - 2019/7/1

Y1 - 2019/7/1

N2 - Background: The complement system is a central component of the innate immune system. Constitutive biosynthesis of complement proteins is essential for homeostasis. Dysregulation as a consequence of genetic or environmental cues can lead to inflammatory syndromes or increased susceptibility to infection. However, very little is known about steady state levels in children or its kinetics during infection. Methods: With a newly developed multiplex mass spectrometry-based method we analyzed the levels of 32 complement proteins in healthy individuals and in a group of pediatric patients infected with bacterial or viral pathogens. Findings: In plasma from young infants we found reduced levels of C4BP, ficolin-3, factor B, classical pathway components C1QA, C1QB, C1QC, C1R, and terminal pathway components C5, C8, C9, as compared to healthy adults; whereas the majority of complement regulating (inhibitory) proteins reach adult levels at very young age. Both viral and bacterial infections in children generally lead to a slight overall increase in complement levels, with some exceptions. The kinetics of complement levels during invasive bacterial infections only showed minor changes, except for a significant increase and decrease of CRP and clusterin, respectively. Interpretation: The combination of lower levels of activating and higher levels of regulating complement proteins, would potentially raise the threshold of activation, which might lead to suppressed complement activation in the first phase of life. There is hardly any measurable complement consumption during bacterial or viral infection. Altogether, expression of the complement proteins appears surprisingly stable, which suggests that the system is continuously replenished. Fund: European Union's Horizon 2020, project PERFORM, grant agreement No. 668303.

AB - Background: The complement system is a central component of the innate immune system. Constitutive biosynthesis of complement proteins is essential for homeostasis. Dysregulation as a consequence of genetic or environmental cues can lead to inflammatory syndromes or increased susceptibility to infection. However, very little is known about steady state levels in children or its kinetics during infection. Methods: With a newly developed multiplex mass spectrometry-based method we analyzed the levels of 32 complement proteins in healthy individuals and in a group of pediatric patients infected with bacterial or viral pathogens. Findings: In plasma from young infants we found reduced levels of C4BP, ficolin-3, factor B, classical pathway components C1QA, C1QB, C1QC, C1R, and terminal pathway components C5, C8, C9, as compared to healthy adults; whereas the majority of complement regulating (inhibitory) proteins reach adult levels at very young age. Both viral and bacterial infections in children generally lead to a slight overall increase in complement levels, with some exceptions. The kinetics of complement levels during invasive bacterial infections only showed minor changes, except for a significant increase and decrease of CRP and clusterin, respectively. Interpretation: The combination of lower levels of activating and higher levels of regulating complement proteins, would potentially raise the threshold of activation, which might lead to suppressed complement activation in the first phase of life. There is hardly any measurable complement consumption during bacterial or viral infection. Altogether, expression of the complement proteins appears surprisingly stable, which suggests that the system is continuously replenished. Fund: European Union's Horizon 2020, project PERFORM, grant agreement No. 668303.

KW - C-reactive protein (CRP)

KW - Clusterin

KW - Complement system

KW - Infectious disease

KW - Multiple reaction monitoring (MRM)

KW - Targeted mass spectrometry

UR - http://www.scopus.com/inward/record.url?scp=85068063823&partnerID=8YFLogxK

U2 - 10.1016/j.ebiom.2019.06.008

DO - 10.1016/j.ebiom.2019.06.008

M3 - Article

C2 - 31262714

AN - SCOPUS:85068063823

SN - 2352-3964

VL - 45

SP - 303

EP - 313

JO - EBioMedicine

JF - EBioMedicine

ER -

Biosynthetic homeostasis and resilience of the complement system in health and infectious disease

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