The antifibrotic potential of a sustained release formulation of a PDGF beta-receptor targeted rho kinase inhibitor

F. van Dijk; N. Teekamp; E. Post; D. Schuppan; Y. O. Kim; J. Zuidema; R. Steendam; Matthias H. M.  Klose; Samuel M.  Meier-Menches; A. Casini; P. L. Horvatovich; N. J. Sijbrandi; H. W. Frijlink; W. L. J. Hinrichs; K. Poelstra; L. Beljaars; P. Olinga

doi:10.1016/j.jconrel.2018.12.039

The antifibrotic potential of a sustained release formulation of a PDGF beta-receptor targeted rho kinase inhibitor

F. van Dijk, N. Teekamp, E. Post, D. Schuppan, Y. O. Kim, J. Zuidema, R. Steendam, Matthias H. M. Klose, Samuel M. Meier-Menches, A. Casini, P. L. Horvatovich, N. J. Sijbrandi, H. W. Frijlink, W. L. J. Hinrichs, K. Poelstra, L. Beljaars, P. Olinga^*

^*Corresponding author for this work

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

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Abstract

Rho kinase activity in hepatic stellate cells (HSCs) is associated with activation, transformation and contraction of these cells, leading to extracellular matrix production and portal hypertension in liver cirrhosis. Inhibition of rho kinase activity can reduce these activities, but may also lead to side effects, for instance systemic hypotension. This can be circumvented by liver-specific delivery of a rho kinase inhibitor to effector cells. Therefore, we targeted the rho kinase inhibitor Y27632 to the key pathogenic cells in liver fibrosis, i.e. myofibroblasts including activated HSCs that highly express the PDGF beta-receptor, using the drug carrier pPB-MSA. This carrier consists of mouse serum albumin (MSA) covalently coupled to several PDGF beta-recognizing moieties (pPB). We aimed to create a prolonged release system of such a targeted construct, by encapsulating pPB-MSA-Y27632 in biodegradable polymeric microspheres, thereby reducing short-lasting peak concentrations and the need for frequent administrations. Firstly, we confirmed the vasodilating potency of PDGF beta-receptor targeted Y27632 in vitro in a contraction assay using HSCs seeded on a collagen gel. We subsequently demonstrated the in vivo antifibrotic efficacy of pPB-MSA-Y27632-loaded microspheres in the Mdr2 - / - mouse model of progressive biliary liver fibrosis. A single subcutaneous microsphere administration followed by organ harvest one week later clearly attenuated liver fibrosis progression and significantly suppressed the expression of fibrosis related genes, such as several collagens, profibrotic cytokines and matrix metalloproteinases. In conclusion, we demonstrate that polymeric microspheres are suitable as drug delivery system for the sustained systemic delivery of targeted protein constructs with antifibrotic potential, such as pPB-MSA-Y27632. This formulation appears suitable for the sustained treatment of liver fibrosis and possibly other chronic diseases.

Original language	English
Pages (from-to)	250-257
Number of pages	8
Journal	Journal of Controlled Release
Volume	296
Early online date	22-Jan-2019
DOIs	https://doi.org/10.1016/j.jconrel.2018.12.039
Publication status	Published - 28-Feb-2019

Keywords

Controlled release
Polymeric microspheres
Protein delivery
Drug targeting
Biologicals
Liver fibrosis
HEPATIC STELLATE CELLS
LIVER FIBROSIS
SIGNALING CONTRIBUTES
PORTAL PRESSURE
CIRRHOTIC RATS
ROCK INHIBITOR
DELIVERY
MECHANISMS
Y-27632
VASODILATION

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The anti fi brotic potential of a sustained release formulation of a PDGF β - receptor targeted rho kinase inhibitorFinal publisher's version, 1.2 MBLicence: CC BY-NC-ND

Cite this

van Dijk, F., Teekamp, N., Post, E., Schuppan, D., Kim, Y. O., Zuidema, J., Steendam, R., Klose, M. H. M., Meier-Menches, S. M., Casini, A., Horvatovich, P. L., Sijbrandi, N. J., Frijlink, H. W., Hinrichs, W. L. J., Poelstra, K., Beljaars, L., & Olinga, P. (2019). The antifibrotic potential of a sustained release formulation of a PDGF beta-receptor targeted rho kinase inhibitor. Journal of Controlled Release, 296, 250-257. https://doi.org/10.1016/j.jconrel.2018.12.039

van Dijk, F. ; Teekamp, N. ; Post, E. ; Schuppan, D. ; Kim, Y. O. ; Zuidema, J. ; Steendam, R. ; Klose, Matthias H. M. ; Meier-Menches, Samuel M. ; Casini, A. ; Horvatovich, P. L. ; Sijbrandi, N. J. ; Frijlink, H. W. ; Hinrichs, W. L. J. ; Poelstra, K. ; Beljaars, L. ; Olinga, P. / The antifibrotic potential of a sustained release formulation of a PDGF beta-receptor targeted rho kinase inhibitor. In: Journal of Controlled Release. 2019 ; Vol. 296. pp. 250-257.

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title = "The antifibrotic potential of a sustained release formulation of a PDGF beta-receptor targeted rho kinase inhibitor",

abstract = "Rho kinase activity in hepatic stellate cells (HSCs) is associated with activation, transformation and contraction of these cells, leading to extracellular matrix production and portal hypertension in liver cirrhosis. Inhibition of rho kinase activity can reduce these activities, but may also lead to side effects, for instance systemic hypotension. This can be circumvented by liver-specific delivery of a rho kinase inhibitor to effector cells. Therefore, we targeted the rho kinase inhibitor Y27632 to the key pathogenic cells in liver fibrosis, i.e. myofibroblasts including activated HSCs that highly express the PDGF beta-receptor, using the drug carrier pPB-MSA. This carrier consists of mouse serum albumin (MSA) covalently coupled to several PDGF beta-recognizing moieties (pPB). We aimed to create a prolonged release system of such a targeted construct, by encapsulating pPB-MSA-Y27632 in biodegradable polymeric microspheres, thereby reducing short-lasting peak concentrations and the need for frequent administrations. Firstly, we confirmed the vasodilating potency of PDGF beta-receptor targeted Y27632 in vitro in a contraction assay using HSCs seeded on a collagen gel. We subsequently demonstrated the in vivo antifibrotic efficacy of pPB-MSA-Y27632-loaded microspheres in the Mdr2 - / - mouse model of progressive biliary liver fibrosis. A single subcutaneous microsphere administration followed by organ harvest one week later clearly attenuated liver fibrosis progression and significantly suppressed the expression of fibrosis related genes, such as several collagens, profibrotic cytokines and matrix metalloproteinases. In conclusion, we demonstrate that polymeric microspheres are suitable as drug delivery system for the sustained systemic delivery of targeted protein constructs with antifibrotic potential, such as pPB-MSA-Y27632. This formulation appears suitable for the sustained treatment of liver fibrosis and possibly other chronic diseases.",

keywords = "Controlled release, Polymeric microspheres, Protein delivery, Drug targeting, Biologicals, Liver fibrosis, HEPATIC STELLATE CELLS, LIVER FIBROSIS, SIGNALING CONTRIBUTES, PORTAL PRESSURE, CIRRHOTIC RATS, ROCK INHIBITOR, DELIVERY, MECHANISMS, Y-27632, VASODILATION",

author = "{van Dijk}, F. and N. Teekamp and E. Post and D. Schuppan and Kim, {Y. O.} and J. Zuidema and R. Steendam and Klose, {Matthias H. M.} and Meier-Menches, {Samuel M.} and A. Casini and Horvatovich, {P. L.} and Sijbrandi, {N. J.} and Frijlink, {H. W.} and Hinrichs, {W. L. J.} and K. Poelstra and L. Beljaars and P. Olinga",

note = "Copyright {\textcopyright} 2018. Published by Elsevier B.V.",

year = "2019",

month = feb,

day = "28",

doi = "10.1016/j.jconrel.2018.12.039",

language = "English",

volume = "296",

pages = "250--257",

journal = "Journal of Controlled Release",

issn = "0168-3659",

publisher = "Elsevier Bedrijfsinformatie b.v.",

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van Dijk, F, Teekamp, N, Post, E, Schuppan, D, Kim, YO, Zuidema, J, Steendam, R, Klose, MHM, Meier-Menches, SM, Casini, A, Horvatovich, PL, Sijbrandi, NJ, Frijlink, HW , Hinrichs, WLJ , Poelstra, K, Beljaars, L & Olinga, P 2019, 'The antifibrotic potential of a sustained release formulation of a PDGF beta-receptor targeted rho kinase inhibitor', Journal of Controlled Release, vol. 296, pp. 250-257. https://doi.org/10.1016/j.jconrel.2018.12.039

The antifibrotic potential of a sustained release formulation of a PDGF beta-receptor targeted rho kinase inhibitor. / van Dijk, F.; Teekamp, N.; Post, E.; Schuppan, D.; Kim, Y. O.; Zuidema, J.; Steendam, R.; Klose, Matthias H. M. ; Meier-Menches, Samuel M. ; Casini, A.; Horvatovich, P. L.; Sijbrandi, N. J.; Frijlink, H. W.; Hinrichs, W. L. J.; Poelstra, K.; Beljaars, L.; Olinga, P.

In: Journal of Controlled Release, Vol. 296, 28.02.2019, p. 250-257.

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

TY - JOUR

T1 - The antifibrotic potential of a sustained release formulation of a PDGF beta-receptor targeted rho kinase inhibitor

AU - van Dijk, F.

AU - Teekamp, N.

AU - Post, E.

AU - Schuppan, D.

AU - Kim, Y. O.

AU - Zuidema, J.

AU - Steendam, R.

AU - Klose, Matthias H. M.

AU - Meier-Menches, Samuel M.

AU - Casini, A.

AU - Horvatovich, P. L.

AU - Sijbrandi, N. J.

AU - Frijlink, H. W.

AU - Hinrichs, W. L. J.

AU - Poelstra, K.

AU - Beljaars, L.

AU - Olinga, P.

PY - 2019/2/28

Y1 - 2019/2/28

N2 - Rho kinase activity in hepatic stellate cells (HSCs) is associated with activation, transformation and contraction of these cells, leading to extracellular matrix production and portal hypertension in liver cirrhosis. Inhibition of rho kinase activity can reduce these activities, but may also lead to side effects, for instance systemic hypotension. This can be circumvented by liver-specific delivery of a rho kinase inhibitor to effector cells. Therefore, we targeted the rho kinase inhibitor Y27632 to the key pathogenic cells in liver fibrosis, i.e. myofibroblasts including activated HSCs that highly express the PDGF beta-receptor, using the drug carrier pPB-MSA. This carrier consists of mouse serum albumin (MSA) covalently coupled to several PDGF beta-recognizing moieties (pPB). We aimed to create a prolonged release system of such a targeted construct, by encapsulating pPB-MSA-Y27632 in biodegradable polymeric microspheres, thereby reducing short-lasting peak concentrations and the need for frequent administrations. Firstly, we confirmed the vasodilating potency of PDGF beta-receptor targeted Y27632 in vitro in a contraction assay using HSCs seeded on a collagen gel. We subsequently demonstrated the in vivo antifibrotic efficacy of pPB-MSA-Y27632-loaded microspheres in the Mdr2 - / - mouse model of progressive biliary liver fibrosis. A single subcutaneous microsphere administration followed by organ harvest one week later clearly attenuated liver fibrosis progression and significantly suppressed the expression of fibrosis related genes, such as several collagens, profibrotic cytokines and matrix metalloproteinases. In conclusion, we demonstrate that polymeric microspheres are suitable as drug delivery system for the sustained systemic delivery of targeted protein constructs with antifibrotic potential, such as pPB-MSA-Y27632. This formulation appears suitable for the sustained treatment of liver fibrosis and possibly other chronic diseases.

AB - Rho kinase activity in hepatic stellate cells (HSCs) is associated with activation, transformation and contraction of these cells, leading to extracellular matrix production and portal hypertension in liver cirrhosis. Inhibition of rho kinase activity can reduce these activities, but may also lead to side effects, for instance systemic hypotension. This can be circumvented by liver-specific delivery of a rho kinase inhibitor to effector cells. Therefore, we targeted the rho kinase inhibitor Y27632 to the key pathogenic cells in liver fibrosis, i.e. myofibroblasts including activated HSCs that highly express the PDGF beta-receptor, using the drug carrier pPB-MSA. This carrier consists of mouse serum albumin (MSA) covalently coupled to several PDGF beta-recognizing moieties (pPB). We aimed to create a prolonged release system of such a targeted construct, by encapsulating pPB-MSA-Y27632 in biodegradable polymeric microspheres, thereby reducing short-lasting peak concentrations and the need for frequent administrations. Firstly, we confirmed the vasodilating potency of PDGF beta-receptor targeted Y27632 in vitro in a contraction assay using HSCs seeded on a collagen gel. We subsequently demonstrated the in vivo antifibrotic efficacy of pPB-MSA-Y27632-loaded microspheres in the Mdr2 - / - mouse model of progressive biliary liver fibrosis. A single subcutaneous microsphere administration followed by organ harvest one week later clearly attenuated liver fibrosis progression and significantly suppressed the expression of fibrosis related genes, such as several collagens, profibrotic cytokines and matrix metalloproteinases. In conclusion, we demonstrate that polymeric microspheres are suitable as drug delivery system for the sustained systemic delivery of targeted protein constructs with antifibrotic potential, such as pPB-MSA-Y27632. This formulation appears suitable for the sustained treatment of liver fibrosis and possibly other chronic diseases.

KW - Controlled release

KW - Polymeric microspheres

KW - Protein delivery

KW - Drug targeting

KW - Biologicals

KW - Liver fibrosis

KW - HEPATIC STELLATE CELLS

KW - LIVER FIBROSIS

KW - SIGNALING CONTRIBUTES

KW - PORTAL PRESSURE

KW - CIRRHOTIC RATS

KW - ROCK INHIBITOR

KW - DELIVERY

KW - MECHANISMS

KW - Y-27632

KW - VASODILATION

U2 - 10.1016/j.jconrel.2018.12.039

DO - 10.1016/j.jconrel.2018.12.039

M3 - Article

C2 - 30682444

VL - 296

SP - 250

EP - 257

JO - Journal of Controlled Release

JF - Journal of Controlled Release

SN - 0168-3659

ER -