Muc5b is required for airway defence

Michelle G. Roy; Alessandra Livraghi-Butrico; Ashley A. Fletcher; Melissa M. McElwee; Scott E. Evans; Ryan M. Boerner; Samantha N. Alexander; Lindsey K. Bellinghausen; Alfred S. Song; Youlia M. Petrova; Michael J. Tuvim; Roberto Adachi; Irlanda Romo; Andrea S. Bordt; M. Gabriela Bowden; Joseph H. Sisson; Prescott G. Woodruff; David J. Thornton; Karine Rousseau; Maria M. De La Garza; Seyed J. Moghaddam; Harry Karmouty-Quintana; Michael R. Blackburn; Scott M. Drouin; C. William Davis; Kristy A. Terrell; Barbara R. Grubb; Wanda K. O'Neal; Sonia C. Flores; Adela Cota-Gomez; Catherine A. Lozupone; Jody M. Donnelly; Alan M. Watson; Corinne E. Hennessy; Rebecca C. Keith; Ivana V. Yang; Lea Barthel; Peter M. Henson; William J. Janssen; David A. Schwartz; Richard C. Boucher; Burton F. Dickey; Christopher M. Evans

doi:10.1038/nature12807

Muc5b is required for airway defence

Michelle G. Roy, Alessandra Livraghi-Butrico, Ashley A. Fletcher, Melissa M. McElwee, Scott E. Evans, Ryan M. Boerner, Samantha N. Alexander, Lindsey K. Bellinghausen, Alfred S. Song, Youlia M. Petrova, Michael J. Tuvim, Roberto Adachi, Irlanda Romo, Andrea S. Bordt, M. Gabriela Bowden, Joseph H. Sisson, Prescott G. Woodruff, David J. Thornton, Karine Rousseau, Maria M. De La GarzaSeyed J. Moghaddam, Harry Karmouty-Quintana, Michael R. Blackburn, Scott M. Drouin, C. William Davis, Kristy A. Terrell, Barbara R. Grubb, Wanda K. O'Neal, Sonia C. Flores, Adela Cota-Gomez, Catherine A. Lozupone, Jody M. Donnelly, Alan M. Watson, Corinne E. Hennessy, Rebecca C. Keith, Ivana V. Yang, Lea Barthel, Peter M. Henson, William J. Janssen, David A. Schwartz, Richard C. Boucher, Burton F. Dickey, Christopher M. Evans

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

529 Scopus citations

Abstract

Respiratory surfaces are exposed to billions of particulates and pathogens daily. A protective mucus barrier traps and eliminates them through mucociliary clearance (MCC). However, excessive mucus contributes to transient respiratory infections and to the pathogenesis of numerous respiratory diseases. MUC5AC and MUC5B are evolutionarily conserved genes that encode structurally related mucin glycoproteins, the principal macromolecules in airway mucus. Genetic variants are linked to diverse lung diseases, but specific roles for MUC5AC and MUC5B in MCC, and the lasting effects of their inhibition, are unknown. Here we show that mouse Muc5b (but not Muc5ac) is required for MCC, for controlling infections in the airways and middle ear, and for maintaining immune homeostasis in mouse lungs, whereas Muc5ac is dispensable. Muc5b deficiency caused materials to accumulate in upper and lower airways. This defect led to chronic infection by multiple bacterial species, including Staphylococcus aureus, and to inflammation that failed to resolve normally. Apoptotic macrophages accumulated, phagocytosis was impaired, and interleukin-23 (IL-23) production was reduced in Muc5b -/- mice. By contrast, in mice that transgenically overexpress Muc5b, macrophage functions improved. Existing dogma defines mucous phenotypes in asthma and chronic obstructive pulmonary disease (COPD) as driven by increased MUC5AC, with MUC5B levels either unaffected or increased in expectorated sputum. However, in many patients, MUC5B production at airway surfaces decreases by as much as 90%. By distinguishing a specific role for Muc5b in MCC, and by determining its impact on bacterial infections and inflammation in mice, our results provide a refined framework for designing targeted therapies to control mucin secretion and restore MCC.

Original language	English (US)
Pages (from-to)	412-416
Number of pages	5
Journal	Nature
Volume	505
Issue number	7483
DOIs	https://doi.org/10.1038/nature12807
State	Published - 2014

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Roy, M. G., Livraghi-Butrico, A., Fletcher, A. A., McElwee, M. M., Evans, S. E., Boerner, R. M., Alexander, S. N., Bellinghausen, L. K., Song, A. S., Petrova, Y. M., Tuvim, M. J., Adachi, R., Romo, I., Bordt, A. S., Bowden, M. G., Sisson, J. H., Woodruff, P. G., Thornton, D. J., Rousseau, K., ... Evans, C. M. (2014). Muc5b is required for airway defence. Nature, 505(7483), 412-416. https://doi.org/10.1038/nature12807

Roy, MG, Livraghi-Butrico, A, Fletcher, AA, McElwee, MM, Evans, SE, Boerner, RM, Alexander, SN, Bellinghausen, LK, Song, AS, Petrova, YM, Tuvim, MJ, Adachi, R, Romo, I, Bordt, AS, Bowden, MG, Sisson, JH, Woodruff, PG, Thornton, DJ, Rousseau, K, De La Garza, MM, Moghaddam, SJ, Karmouty-Quintana, H, Blackburn, MR, Drouin, SM, Davis, CW, Terrell, KA, Grubb, BR, O'Neal, WK, Flores, SC, Cota-Gomez, A, Lozupone, CA, Donnelly, JM, Watson, AM, Hennessy, CE, Keith, RC, Yang, IV, Barthel, L, Henson, PM, Janssen, WJ, Schwartz, DA, Boucher, RC, Dickey, BF & Evans, CM 2014, 'Muc5b is required for airway defence', Nature, vol. 505, no. 7483, pp. 412-416. https://doi.org/10.1038/nature12807

@article{14e64cdc0ce94756b97cc69ab786f4a8,

title = "Muc5b is required for airway defence",

abstract = "Respiratory surfaces are exposed to billions of particulates and pathogens daily. A protective mucus barrier traps and eliminates them through mucociliary clearance (MCC). However, excessive mucus contributes to transient respiratory infections and to the pathogenesis of numerous respiratory diseases. MUC5AC and MUC5B are evolutionarily conserved genes that encode structurally related mucin glycoproteins, the principal macromolecules in airway mucus. Genetic variants are linked to diverse lung diseases, but specific roles for MUC5AC and MUC5B in MCC, and the lasting effects of their inhibition, are unknown. Here we show that mouse Muc5b (but not Muc5ac) is required for MCC, for controlling infections in the airways and middle ear, and for maintaining immune homeostasis in mouse lungs, whereas Muc5ac is dispensable. Muc5b deficiency caused materials to accumulate in upper and lower airways. This defect led to chronic infection by multiple bacterial species, including Staphylococcus aureus, and to inflammation that failed to resolve normally. Apoptotic macrophages accumulated, phagocytosis was impaired, and interleukin-23 (IL-23) production was reduced in Muc5b -/- mice. By contrast, in mice that transgenically overexpress Muc5b, macrophage functions improved. Existing dogma defines mucous phenotypes in asthma and chronic obstructive pulmonary disease (COPD) as driven by increased MUC5AC, with MUC5B levels either unaffected or increased in expectorated sputum. However, in many patients, MUC5B production at airway surfaces decreases by as much as 90%. By distinguishing a specific role for Muc5b in MCC, and by determining its impact on bacterial infections and inflammation in mice, our results provide a refined framework for designing targeted therapies to control mucin secretion and restore MCC.",

author = "Roy, {Michelle G.} and Alessandra Livraghi-Butrico and Fletcher, {Ashley A.} and McElwee, {Melissa M.} and Evans, {Scott E.} and Boerner, {Ryan M.} and Alexander, {Samantha N.} and Bellinghausen, {Lindsey K.} and Song, {Alfred S.} and Petrova, {Youlia M.} and Tuvim, {Michael J.} and Roberto Adachi and Irlanda Romo and Bordt, {Andrea S.} and Bowden, {M. Gabriela} and Sisson, {Joseph H.} and Woodruff, {Prescott G.} and Thornton, {David J.} and Karine Rousseau and {De La Garza}, {Maria M.} and Moghaddam, {Seyed J.} and Harry Karmouty-Quintana and Blackburn, {Michael R.} and Drouin, {Scott M.} and Davis, {C. William} and Terrell, {Kristy A.} and Grubb, {Barbara R.} and O'Neal, {Wanda K.} and Flores, {Sonia C.} and Adela Cota-Gomez and Lozupone, {Catherine A.} and Donnelly, {Jody M.} and Watson, {Alan M.} and Hennessy, {Corinne E.} and Keith, {Rebecca C.} and Yang, {Ivana V.} and Lea Barthel and Henson, {Peter M.} and Janssen, {William J.} and Schwartz, {David A.} and Boucher, {Richard C.} and Dickey, {Burton F.} and Evans, {Christopher M.}",

note = "Funding Information: Acknowledgements We thank F. Ttofali, D. Harper, D. Raclawska, V. Mdoe, C. Ramsey and J. Parker-Thornburg for their assistance. We also thank K. Naff and the MD Anderson Cancer Center Department of Veterinary Medicine and Surgery for support in animal care. This work was supported by the National Institutes of Health Grants R01 HL080396 (C.M.E.); R01 AA008769 (J.H.S.), R01 HL109517 (W.J.J.); R01 HL114381 (P.M.H.); R01 HL097000 (B.F.D.), P01 HL108808, P01 HL110873, P50 HL107168, P30 DK065988 (R.C.B.),MedicalResearchCouncilGrantG1000450 (D.J.T.)andCystic Fibrosis Foundation Grants 06IO (C.M.E.) and RDP R026-CR11 (R.C.B.). Additional support was provided by National Institutes of Health Cancer Center Support Grants CA016672 for the MD Anderson Cancer Center and CA046934 for the University of Colorado transgenic mouse facilities; by CA016086 for the UNC Biomedical Research Imaging Center Small Animal Imaging Facility, and for the UNC Michael Hooker Microscopy Facility funded by an anonymous private donor.",

year = "2014",

doi = "10.1038/nature12807",

language = "English (US)",

volume = "505",

pages = "412--416",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Publishing Group",

number = "7483",

}

TY - JOUR

T1 - Muc5b is required for airway defence

AU - Roy, Michelle G.

AU - Livraghi-Butrico, Alessandra

AU - Fletcher, Ashley A.

AU - McElwee, Melissa M.

AU - Evans, Scott E.

AU - Boerner, Ryan M.

AU - Alexander, Samantha N.

AU - Bellinghausen, Lindsey K.

AU - Song, Alfred S.

AU - Petrova, Youlia M.

AU - Tuvim, Michael J.

AU - Adachi, Roberto

AU - Romo, Irlanda

AU - Bordt, Andrea S.

AU - Bowden, M. Gabriela

AU - Sisson, Joseph H.

AU - Woodruff, Prescott G.

AU - Thornton, David J.

AU - Rousseau, Karine

AU - De La Garza, Maria M.

AU - Moghaddam, Seyed J.

AU - Karmouty-Quintana, Harry

AU - Blackburn, Michael R.

AU - Drouin, Scott M.

AU - Davis, C. William

AU - Terrell, Kristy A.

AU - Grubb, Barbara R.

AU - O'Neal, Wanda K.

AU - Flores, Sonia C.

AU - Cota-Gomez, Adela

AU - Lozupone, Catherine A.

AU - Donnelly, Jody M.

AU - Watson, Alan M.

AU - Hennessy, Corinne E.

AU - Keith, Rebecca C.

AU - Yang, Ivana V.

AU - Barthel, Lea

AU - Henson, Peter M.

AU - Janssen, William J.

AU - Schwartz, David A.

AU - Boucher, Richard C.

AU - Dickey, Burton F.

AU - Evans, Christopher M.

N1 - Funding Information: Acknowledgements We thank F. Ttofali, D. Harper, D. Raclawska, V. Mdoe, C. Ramsey and J. Parker-Thornburg for their assistance. We also thank K. Naff and the MD Anderson Cancer Center Department of Veterinary Medicine and Surgery for support in animal care. This work was supported by the National Institutes of Health Grants R01 HL080396 (C.M.E.); R01 AA008769 (J.H.S.), R01 HL109517 (W.J.J.); R01 HL114381 (P.M.H.); R01 HL097000 (B.F.D.), P01 HL108808, P01 HL110873, P50 HL107168, P30 DK065988 (R.C.B.),MedicalResearchCouncilGrantG1000450 (D.J.T.)andCystic Fibrosis Foundation Grants 06IO (C.M.E.) and RDP R026-CR11 (R.C.B.). Additional support was provided by National Institutes of Health Cancer Center Support Grants CA016672 for the MD Anderson Cancer Center and CA046934 for the University of Colorado transgenic mouse facilities; by CA016086 for the UNC Biomedical Research Imaging Center Small Animal Imaging Facility, and for the UNC Michael Hooker Microscopy Facility funded by an anonymous private donor.

PY - 2014

Y1 - 2014

N2 - Respiratory surfaces are exposed to billions of particulates and pathogens daily. A protective mucus barrier traps and eliminates them through mucociliary clearance (MCC). However, excessive mucus contributes to transient respiratory infections and to the pathogenesis of numerous respiratory diseases. MUC5AC and MUC5B are evolutionarily conserved genes that encode structurally related mucin glycoproteins, the principal macromolecules in airway mucus. Genetic variants are linked to diverse lung diseases, but specific roles for MUC5AC and MUC5B in MCC, and the lasting effects of their inhibition, are unknown. Here we show that mouse Muc5b (but not Muc5ac) is required for MCC, for controlling infections in the airways and middle ear, and for maintaining immune homeostasis in mouse lungs, whereas Muc5ac is dispensable. Muc5b deficiency caused materials to accumulate in upper and lower airways. This defect led to chronic infection by multiple bacterial species, including Staphylococcus aureus, and to inflammation that failed to resolve normally. Apoptotic macrophages accumulated, phagocytosis was impaired, and interleukin-23 (IL-23) production was reduced in Muc5b -/- mice. By contrast, in mice that transgenically overexpress Muc5b, macrophage functions improved. Existing dogma defines mucous phenotypes in asthma and chronic obstructive pulmonary disease (COPD) as driven by increased MUC5AC, with MUC5B levels either unaffected or increased in expectorated sputum. However, in many patients, MUC5B production at airway surfaces decreases by as much as 90%. By distinguishing a specific role for Muc5b in MCC, and by determining its impact on bacterial infections and inflammation in mice, our results provide a refined framework for designing targeted therapies to control mucin secretion and restore MCC.

AB - Respiratory surfaces are exposed to billions of particulates and pathogens daily. A protective mucus barrier traps and eliminates them through mucociliary clearance (MCC). However, excessive mucus contributes to transient respiratory infections and to the pathogenesis of numerous respiratory diseases. MUC5AC and MUC5B are evolutionarily conserved genes that encode structurally related mucin glycoproteins, the principal macromolecules in airway mucus. Genetic variants are linked to diverse lung diseases, but specific roles for MUC5AC and MUC5B in MCC, and the lasting effects of their inhibition, are unknown. Here we show that mouse Muc5b (but not Muc5ac) is required for MCC, for controlling infections in the airways and middle ear, and for maintaining immune homeostasis in mouse lungs, whereas Muc5ac is dispensable. Muc5b deficiency caused materials to accumulate in upper and lower airways. This defect led to chronic infection by multiple bacterial species, including Staphylococcus aureus, and to inflammation that failed to resolve normally. Apoptotic macrophages accumulated, phagocytosis was impaired, and interleukin-23 (IL-23) production was reduced in Muc5b -/- mice. By contrast, in mice that transgenically overexpress Muc5b, macrophage functions improved. Existing dogma defines mucous phenotypes in asthma and chronic obstructive pulmonary disease (COPD) as driven by increased MUC5AC, with MUC5B levels either unaffected or increased in expectorated sputum. However, in many patients, MUC5B production at airway surfaces decreases by as much as 90%. By distinguishing a specific role for Muc5b in MCC, and by determining its impact on bacterial infections and inflammation in mice, our results provide a refined framework for designing targeted therapies to control mucin secretion and restore MCC.

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U2 - 10.1038/nature12807

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JO - Nature

JF - Nature

IS - 7483

ER -

Muc5b is required for airway defence

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