Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release

Julie Heremans; Lucie Chevillard; Morgane Mannes; Jessica Mangialetto; Kaat Leroy; Jacinta F. White; Mathieu Vinken; James Gardiner; Bruno Van Mele; Niko Van den Brande; Richard Hoogenboom; Annemieke Madder; Vicky Caveliers; Bruno Megarbane; Sophie Hernot; Steven Ballet; Charlotte Martin

doi:10.1016/j.jconrel.2022.08.027

Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release

Julie Heremans, Lucie Chevillard, Morgane Mannes, Jessica Mangialetto, Kaat Leroy, Jacinta F. White, Mathieu Vinken, James Gardiner, Bruno Van Mele, Niko Van den Brande, Richard Hoogenboom, Annemieke Madder, Vicky Caveliers, Bruno Megarbane, Sophie Hernot, Steven Ballet, Charlotte Martin

Onderzoeksoutput: Article › peer review

12 Citaten (Scopus)

Samenvatting

Peptide-based hydrogels represent promising systems for the sustained release of different types of drugs, ranging from small molecules to biologicals. Aiming at subcutaneous injection, which is a desirable parenteral administration route, especially for biologicals, we herein focus on physically crosslinked systems possessing thixotropic behaviour. The purpose of this study was to evaluate the in vitro and in vivo properties of hydrogels based on the amphipathic hexapeptide H-FQFQFK-NH2, which served as the lead sequence. Upon doubling the length of this peptide, the dodecapeptide H-FQFQFKFQFQFK-NH2 gave a significant improvement in terms of hydrogel’s in vivo stability post-injection, as monitored by nuclear SPECT/CT imaging. This increased hydrogel stability also led to a more prolonged in vivo release of encapsulated peptide cargoes. Even though no direct link with the mechanical properties of the hydrogels before injection can be made, an important effect of the subcutaneous medium was noticed in post in vivo injection measurements. The results were validated for a therapeutically relevant analgesic peptide using the hot-plate test as an acute pain model. Gratifyingly, it was confirmed that elongation of the hydrogelator sequence induced more extended antinociceptive effects. Altogether, this simple structural modification of the hydrogelating peptide could provide a basis for reaching longer durations of action upon use of these soft biomaterials.

Originele taal-2	English
Pagina's (van-tot)	514-524
Aantal pagina's	11
Tijdschrift	Journal of Controlled Release
Volume	350
DOI's	https://doi.org/10.1016/j.jconrel.2022.08.027
Status	Published - okt 2022

Bibliografische nota

Funding Information:
The Research Foundation Flanders is acknowledged for funding ( G054119N , 1128520N ). C.M., V.C., S.H. and S.B. thank the Research Council of the VUB for the financial support through the Strategic Research Programme ( SRP50 ). The authors thank TA Instruments for providing the Peltier Plate as well as Solvent Trap and Evaporation Blocker accessories.

Publisher Copyright:
© 2022 Elsevier B.V.

Copyright:
Copyright 2023 Elsevier B.V., All rights reserved.

Toegang tot document

10.1016/j.jconrel.2022.08.027

Andere bestanden en links

Link naar publicatie in Scopus

1 Afgelopen
1 Actief

SRP50: SRP-Onderzoekszwaartepunt: Exploiting Peptides: Protein Binders, Modulators and Inhibitors for Imaging and Therapy [Exploit-PeptIT]
Ballet, S., Caveliers, V., Hernot, S., Versées, W., Vinken, M., Muyldermans, S., Devoogdt, N., Bridoux, J. & Martin, C.
1/03/19 → 30/09/25
Project: Fundamenteel
FWOAL926: Moleculaire engineering van peptide gebaseerde hydrogelen voor vertraagde medicijnafgifte
Hoogenboom, R., Ballet, S., Martin, C., Caveliers, V. & Bridoux, J.
1/01/19 → 31/12/22
Project: Fundamenteel

12 Citaties
2 Poster

Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release
Heremans, J., Chevillard, L., Mannes, M., Mangialetto, J., Van Mele, B., Van den Brande, N., Hoogenboom, R., Madder, A., Caveliers, V., Megarbane, B., Hernot, S., Ballet, S. & Martin, C., 31 aug 2022.
Onderzoeksoutput: Poster
Rheological and biological evaluation of peptide-based hydrogels
Heremans, J., Mangialetto, J., White, J. F., Gardiner, J., Van Mele, B., Van den Brande, N., Hoogenboom, R., Madder, A., Caveliers, V., Hernot, S., Ballet, S. & Martin, C., 5 jul 2022.
Onderzoeksoutput: Poster

1 Talk or presentation at a conference

Peptide-based hydrogels as controlled drug delivery platform
Julie Heremans (Speaker)
2 dec 2022
Activiteit: Talk or presentation at a conference

Citeer dit

Heremans, J., Chevillard, L., Mannes, M., Mangialetto, J., Leroy, K., White, J. F., Vinken, M., Gardiner, J., Van Mele, B., Van den Brande, N., Hoogenboom, R., Madder, A., Caveliers, V., Megarbane, B., Hernot, S., Ballet, S., & Martin, C. (2022). Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release. Journal of Controlled Release, 350, 514-524. https://doi.org/10.1016/j.jconrel.2022.08.027

Heremans, Julie ; Chevillard, Lucie ; Mannes, Morgane ; Mangialetto, Jessica ; Leroy, Kaat ; White, Jacinta F. ; Vinken, Mathieu ; Gardiner, James ; Van Mele, Bruno ; Van den Brande, Niko ; Hoogenboom, Richard ; Madder, Annemieke ; Caveliers, Vicky ; Megarbane, Bruno ; Hernot, Sophie ; Ballet, Steven ; Martin, Charlotte. / Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release. In: Journal of Controlled Release. 2022 ; Vol. 350. blz. 514-524.

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abstract = "Peptide-based hydrogels represent promising systems for the sustained release of different types of drugs, ranging from small molecules to biologicals. Aiming at subcutaneous injection, which is a desirable parenteral administration route, especially for biologicals, we herein focus on physically crosslinked systems possessing thixotropic behaviour. The purpose of this study was to evaluate the in vitro and in vivo properties of hydrogels based on the amphipathic hexapeptide H-FQFQFK-NH2, which served as the lead sequence. Upon doubling the length of this peptide, the dodecapeptide H-FQFQFKFQFQFK-NH2 gave a significant improvement in terms of hydrogel{\textquoteright}s in vivo stability post-injection, as monitored by nuclear SPECT/CT imaging. This increased hydrogel stability also led to a more prolonged in vivo release of encapsulated peptide cargoes. Even though no direct link with the mechanical properties of the hydrogels before injection can be made, an important effect of the subcutaneous medium was noticed in post in vivo injection measurements. The results were validated for a therapeutically relevant analgesic peptide using the hot-plate test as an acute pain model. Gratifyingly, it was confirmed that elongation of the hydrogelator sequence induced more extended antinociceptive effects. Altogether, this simple structural modification of the hydrogelating peptide could provide a basis for reaching longer durations of action upon use of these soft biomaterials.",

author = "Julie Heremans and Lucie Chevillard and Morgane Mannes and Jessica Mangialetto and Kaat Leroy and White, {Jacinta F.} and Mathieu Vinken and James Gardiner and {Van Mele}, Bruno and {Van den Brande}, Niko and Richard Hoogenboom and Annemieke Madder and Vicky Caveliers and Bruno Megarbane and Sophie Hernot and Steven Ballet and Charlotte Martin",

note = "Funding Information: The Research Foundation Flanders is acknowledged for funding ( G054119N , 1128520N ). C.M., V.C., S.H. and S.B. thank the Research Council of the VUB for the financial support through the Strategic Research Programme ( SRP50 ). The authors thank TA Instruments for providing the Peltier Plate as well as Solvent Trap and Evaporation Blocker accessories. Publisher Copyright: {\textcopyright} 2022 Elsevier B.V. Copyright: Copyright 2023 Elsevier B.V., All rights reserved.",

year = "2022",

month = oct,

doi = "10.1016/j.jconrel.2022.08.027",

language = "English",

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Heremans, J, Chevillard, L, Mannes, M , Mangialetto, J, Leroy, K, White, JF, Vinken, M, Gardiner, J, Van Mele, B , Van den Brande, N, Hoogenboom, R, Madder, A, Caveliers, V, Megarbane, B, Hernot, S , Ballet, S & Martin, C 2022, 'Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release', Journal of Controlled Release, vol. 350, blz. 514-524. https://doi.org/10.1016/j.jconrel.2022.08.027

Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release. / Heremans, Julie; Chevillard, Lucie; Mannes, Morgane ; Mangialetto, Jessica; Leroy, Kaat; White, Jacinta F.; Vinken, Mathieu; Gardiner, James; Van Mele, Bruno ; Van den Brande, Niko; Hoogenboom, Richard; Madder, Annemieke; Caveliers, Vicky; Megarbane, Bruno; Hernot, Sophie ; Ballet, Steven ; Martin, Charlotte.

In: Journal of Controlled Release, Vol. 350, 10.2022, blz. 514-524.

Onderzoeksoutput: Article › peer review

TY - JOUR

T1 - Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release

AU - Heremans, Julie

AU - Chevillard, Lucie

AU - Mannes, Morgane

AU - Mangialetto, Jessica

AU - Leroy, Kaat

AU - White, Jacinta F.

AU - Vinken, Mathieu

AU - Gardiner, James

AU - Van Mele, Bruno

AU - Van den Brande, Niko

AU - Hoogenboom, Richard

AU - Madder, Annemieke

AU - Caveliers, Vicky

AU - Megarbane, Bruno

AU - Hernot, Sophie

AU - Ballet, Steven

AU - Martin, Charlotte

N1 - Funding Information: The Research Foundation Flanders is acknowledged for funding ( G054119N , 1128520N ). C.M., V.C., S.H. and S.B. thank the Research Council of the VUB for the financial support through the Strategic Research Programme ( SRP50 ). The authors thank TA Instruments for providing the Peltier Plate as well as Solvent Trap and Evaporation Blocker accessories. Publisher Copyright: © 2022 Elsevier B.V. Copyright: Copyright 2023 Elsevier B.V., All rights reserved.

PY - 2022/10

Y1 - 2022/10

N2 - Peptide-based hydrogels represent promising systems for the sustained release of different types of drugs, ranging from small molecules to biologicals. Aiming at subcutaneous injection, which is a desirable parenteral administration route, especially for biologicals, we herein focus on physically crosslinked systems possessing thixotropic behaviour. The purpose of this study was to evaluate the in vitro and in vivo properties of hydrogels based on the amphipathic hexapeptide H-FQFQFK-NH2, which served as the lead sequence. Upon doubling the length of this peptide, the dodecapeptide H-FQFQFKFQFQFK-NH2 gave a significant improvement in terms of hydrogel’s in vivo stability post-injection, as monitored by nuclear SPECT/CT imaging. This increased hydrogel stability also led to a more prolonged in vivo release of encapsulated peptide cargoes. Even though no direct link with the mechanical properties of the hydrogels before injection can be made, an important effect of the subcutaneous medium was noticed in post in vivo injection measurements. The results were validated for a therapeutically relevant analgesic peptide using the hot-plate test as an acute pain model. Gratifyingly, it was confirmed that elongation of the hydrogelator sequence induced more extended antinociceptive effects. Altogether, this simple structural modification of the hydrogelating peptide could provide a basis for reaching longer durations of action upon use of these soft biomaterials.

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ER -

Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release

Samenvatting

Bibliografische nota

Toegang tot document

Andere bestanden en links

Vingerafdruk

Projecten

SRP50: SRP-Onderzoekszwaartepunt: Exploiting Peptides: Protein Binders, Modulators and Inhibitors for Imaging and Therapy [Exploit-PeptIT]

FWOAL926: Moleculaire engineering van peptide gebaseerde hydrogelen voor vertraagde medicijnafgifte

Onderzoekersoutput

Impact of doubling peptide length on in vivo hydrogel stability and sustained drug release

Rheological and biological evaluation of peptide-based hydrogels

Activiteiten

Peptide-based hydrogels as controlled drug delivery platform

Citeer dit