Targeting of αv integrin identifies a core molecular pathway that regulates fibrosis in several organs

Neil C. Henderson; Thomas D. Arnold; Yoshio Katamura; Marilyn M. Giacomini; Juan D. Rodriguez; Joseph H. McCarty; Antonella Pellicoro; Elisabeth Raschperger; Christer Betsholtz; Peter G. Ruminski; David W. Griggs; Michael J. Prinsen; Jacquelyn J. Maher; John P. Iredale; Adam Lacy-Hulbert; Ralf H. Adams; Dean Sheppard

doi:10.1038/nm.3282

Targeting of α_v integrin identifies a core molecular pathway that regulates fibrosis in several organs

Neil C. Henderson, Thomas D. Arnold, Yoshio Katamura, Marilyn M. Giacomini, Juan D. Rodriguez, Joseph H. McCarty, Antonella Pellicoro, Elisabeth Raschperger, Christer Betsholtz, Peter G. Ruminski, David W. Griggs, Michael J. Prinsen, Jacquelyn J. Maher, John P. Iredale, Adam Lacy-Hulbert, Ralf H. Adams, Dean Sheppard

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652 Scopus citations

Abstract

Myofibroblasts are the major source of extracellular matrix components that accumulate during tissue fibrosis, and hepatic stellate cells (HSCs) are believed to be the major source of myofibroblasts in the liver. To date, robust systems to genetically manipulate these cells have not been developed. We report that Cre under control of the promoter of Pdgfrb (Pdgfrb-Cre) inactivates loxP-flanked genes in mouse HSCs with high efficiency. We used this system to delete the gene encoding α v integrin subunit because various α v-containing integrins have been suggested as central mediators of fibrosis in multiple organs. Such depletion protected mice from carbon tetrachloride-induced hepatic fibrosis, whereas global loss of β₃, β₅ or β₆ integrins or conditional loss of β₈ integrins in HSCs did not. We also found that Pdgfrb-Cre effectively targeted myofibroblasts in multiple organs, and depletion of the α_v integrin subunit using this system was protective in other models of organ fibrosis, including pulmonary and renal fibrosis. Pharmacological blockade of α v-containing integrins by a small molecule (CWHM 12) attenuated both liver and lung fibrosis, including in a therapeutic manner. These data identify a core pathway that regulates fibrosis and suggest that pharmacological targeting of all α_v integrins may have clinical utility in the treatment of patients with a broad range of fibrotic diseases.

Original language	English (US)
Pages (from-to)	1617-1624
Number of pages	8
Journal	Nature medicine
Volume	19
Issue number	12
DOIs	https://doi.org/10.1038/nm.3282
State	Published - Dec 2013

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1038/nm.3282

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Henderson, N. C., Arnold, T. D., Katamura, Y., Giacomini, M. M., Rodriguez, J. D., McCarty, J. H., Pellicoro, A., Raschperger, E., Betsholtz, C., Ruminski, P. G., Griggs, D. W., Prinsen, M. J., Maher, J. J., Iredale, J. P., Lacy-Hulbert, A., Adams, R. H., & Sheppard, D. (2013). Targeting of α_v integrin identifies a core molecular pathway that regulates fibrosis in several organs. Nature medicine, 19(12), 1617-1624. https://doi.org/10.1038/nm.3282

Henderson, NC, Arnold, TD, Katamura, Y, Giacomini, MM, Rodriguez, JD, McCarty, JH, Pellicoro, A, Raschperger, E, Betsholtz, C, Ruminski, PG, Griggs, DW, Prinsen, MJ, Maher, JJ, Iredale, JP, Lacy-Hulbert, A, Adams, RH & Sheppard, D 2013, 'Targeting of α_v integrin identifies a core molecular pathway that regulates fibrosis in several organs', Nature medicine, vol. 19, no. 12, pp. 1617-1624. https://doi.org/10.1038/nm.3282

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title = "Targeting of αv integrin identifies a core molecular pathway that regulates fibrosis in several organs",

abstract = "Myofibroblasts are the major source of extracellular matrix components that accumulate during tissue fibrosis, and hepatic stellate cells (HSCs) are believed to be the major source of myofibroblasts in the liver. To date, robust systems to genetically manipulate these cells have not been developed. We report that Cre under control of the promoter of Pdgfrb (Pdgfrb-Cre) inactivates loxP-flanked genes in mouse HSCs with high efficiency. We used this system to delete the gene encoding α v integrin subunit because various α v-containing integrins have been suggested as central mediators of fibrosis in multiple organs. Such depletion protected mice from carbon tetrachloride-induced hepatic fibrosis, whereas global loss of β3, β5 or β6 integrins or conditional loss of β8 integrins in HSCs did not. We also found that Pdgfrb-Cre effectively targeted myofibroblasts in multiple organs, and depletion of the αv integrin subunit using this system was protective in other models of organ fibrosis, including pulmonary and renal fibrosis. Pharmacological blockade of α v-containing integrins by a small molecule (CWHM 12) attenuated both liver and lung fibrosis, including in a therapeutic manner. These data identify a core pathway that regulates fibrosis and suggest that pharmacological targeting of all αv integrins may have clinical utility in the treatment of patients with a broad range of fibrotic diseases.",

author = "Henderson, {Neil C.} and Arnold, {Thomas D.} and Yoshio Katamura and Giacomini, {Marilyn M.} and Rodriguez, {Juan D.} and McCarty, {Joseph H.} and Antonella Pellicoro and Elisabeth Raschperger and Christer Betsholtz and Ruminski, {Peter G.} and Griggs, {David W.} and Prinsen, {Michael J.} and Maher, {Jacquelyn J.} and Iredale, {John P.} and Adam Lacy-Hulbert and Adams, {Ralf H.} and Dean Sheppard",

note = "Funding Information: This work was supported by a Wellcome Trust Intermediate Clinical Fellowship (ref. 085187) to N.C.H., National Institutes of Health grants HL102292, HL53949 and AI077439 (to D.S.), a University of California, San Francisco (UCSF) Liver Center Tool and Technology grant (to N.C.H) and P30 DK026743 (UCSF Liver Center). We thank K. Thorn at the UCSF Nikon Imaging Center for assistance with image analysis. We also thank C. Her, N. Wu, S. Huling, D. Rodrigues and R. Aucott for expert technical assistance. We also acknowledge the contribution of M. Singh (chemical synthesis of compounds CWHM 12 and CWHM 96), D. Tajfirouz, S. Freeman and M. Yates at Saint Louis University for technical assistance in conducting integrin functional assays to characterize compound activities. L. Reichardt (UCSF) provided Itgb8flox/flox mice and R. Hynes (Massachusetts Institute of Technology) provided Itgb3−/− mice on 129/svJae background. S. Violette (Biogen Idec) provided antibody to αvβ6 (human/mouse chimeric 2A1), W. Stallcup (Sanford-Burnham Medical Research Institute) provided antibody to PDGFR-β and H. Yagita (Juntendo University) provided antibody to αv integrin (clone RMV-7).",

year = "2013",

month = dec,

doi = "10.1038/nm.3282",

language = "English (US)",

volume = "19",

pages = "1617--1624",

journal = "Nature medicine",

issn = "1078-8956",

publisher = "Nature Publishing Group",

number = "12",

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TY - JOUR

T1 - Targeting of αv integrin identifies a core molecular pathway that regulates fibrosis in several organs

AU - Henderson, Neil C.

AU - Arnold, Thomas D.

AU - Katamura, Yoshio

AU - Giacomini, Marilyn M.

AU - Rodriguez, Juan D.

AU - McCarty, Joseph H.

AU - Pellicoro, Antonella

AU - Raschperger, Elisabeth

AU - Betsholtz, Christer

AU - Ruminski, Peter G.

AU - Griggs, David W.

AU - Prinsen, Michael J.

AU - Maher, Jacquelyn J.

AU - Iredale, John P.

AU - Lacy-Hulbert, Adam

AU - Adams, Ralf H.

AU - Sheppard, Dean

N1 - Funding Information: This work was supported by a Wellcome Trust Intermediate Clinical Fellowship (ref. 085187) to N.C.H., National Institutes of Health grants HL102292, HL53949 and AI077439 (to D.S.), a University of California, San Francisco (UCSF) Liver Center Tool and Technology grant (to N.C.H) and P30 DK026743 (UCSF Liver Center). We thank K. Thorn at the UCSF Nikon Imaging Center for assistance with image analysis. We also thank C. Her, N. Wu, S. Huling, D. Rodrigues and R. Aucott for expert technical assistance. We also acknowledge the contribution of M. Singh (chemical synthesis of compounds CWHM 12 and CWHM 96), D. Tajfirouz, S. Freeman and M. Yates at Saint Louis University for technical assistance in conducting integrin functional assays to characterize compound activities. L. Reichardt (UCSF) provided Itgb8flox/flox mice and R. Hynes (Massachusetts Institute of Technology) provided Itgb3−/− mice on 129/svJae background. S. Violette (Biogen Idec) provided antibody to αvβ6 (human/mouse chimeric 2A1), W. Stallcup (Sanford-Burnham Medical Research Institute) provided antibody to PDGFR-β and H. Yagita (Juntendo University) provided antibody to αv integrin (clone RMV-7).

PY - 2013/12

Y1 - 2013/12

N2 - Myofibroblasts are the major source of extracellular matrix components that accumulate during tissue fibrosis, and hepatic stellate cells (HSCs) are believed to be the major source of myofibroblasts in the liver. To date, robust systems to genetically manipulate these cells have not been developed. We report that Cre under control of the promoter of Pdgfrb (Pdgfrb-Cre) inactivates loxP-flanked genes in mouse HSCs with high efficiency. We used this system to delete the gene encoding α v integrin subunit because various α v-containing integrins have been suggested as central mediators of fibrosis in multiple organs. Such depletion protected mice from carbon tetrachloride-induced hepatic fibrosis, whereas global loss of β3, β5 or β6 integrins or conditional loss of β8 integrins in HSCs did not. We also found that Pdgfrb-Cre effectively targeted myofibroblasts in multiple organs, and depletion of the αv integrin subunit using this system was protective in other models of organ fibrosis, including pulmonary and renal fibrosis. Pharmacological blockade of α v-containing integrins by a small molecule (CWHM 12) attenuated both liver and lung fibrosis, including in a therapeutic manner. These data identify a core pathway that regulates fibrosis and suggest that pharmacological targeting of all αv integrins may have clinical utility in the treatment of patients with a broad range of fibrotic diseases.

AB - Myofibroblasts are the major source of extracellular matrix components that accumulate during tissue fibrosis, and hepatic stellate cells (HSCs) are believed to be the major source of myofibroblasts in the liver. To date, robust systems to genetically manipulate these cells have not been developed. We report that Cre under control of the promoter of Pdgfrb (Pdgfrb-Cre) inactivates loxP-flanked genes in mouse HSCs with high efficiency. We used this system to delete the gene encoding α v integrin subunit because various α v-containing integrins have been suggested as central mediators of fibrosis in multiple organs. Such depletion protected mice from carbon tetrachloride-induced hepatic fibrosis, whereas global loss of β3, β5 or β6 integrins or conditional loss of β8 integrins in HSCs did not. We also found that Pdgfrb-Cre effectively targeted myofibroblasts in multiple organs, and depletion of the αv integrin subunit using this system was protective in other models of organ fibrosis, including pulmonary and renal fibrosis. Pharmacological blockade of α v-containing integrins by a small molecule (CWHM 12) attenuated both liver and lung fibrosis, including in a therapeutic manner. These data identify a core pathway that regulates fibrosis and suggest that pharmacological targeting of all αv integrins may have clinical utility in the treatment of patients with a broad range of fibrotic diseases.

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ER -

Targeting of α_v integrin identifies a core molecular pathway that regulates fibrosis in several organs

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