Solid Lipid Particles for Oral Delivery of Peptide and Protein Drugs II - The Digestion of Trilaurin Protects Desmopressin from Proteolytic Degradation

Philip Carsten Christophersen; Long Zhang; Anette Müllertz; Hanne Mørck Nielsen; Mingshi Yang; Huiling Mu

doi:10.1007/s11095-014-1337-z

Solid Lipid Particles for Oral Delivery of Peptide and Protein Drugs II - The Digestion of Trilaurin Protects Desmopressin from Proteolytic Degradation

Philip Carsten Christophersen, Long Zhang, Anette Müllertz, Hanne Mørck Nielsen, Mingshi Yang, Huiling Mu

28 Citations (Scopus)

Abstract

Methods: The release of desmopressin from different solid lipid microparticles in the absence and presence of a microbial lipase and protease was determined. Trilaurin (TG12), trimyristin (TG14), tripalmitin (TG16), and tristearin (TG18) were used as lipid excipients to produce solid lipid microparticles.

Results: In the presence of lipase, the rate of drug release from different lipid particles was in the order of TG14 > TG16 > TG18, which is the same rank order as the lipid degradation rate. A reverse rank order was found for the protection of desmopressin from enzymatic degradation due to spatial separation of desmopressin from the protease. TG12 accelerated the release of desmopressin from all lipid particles when added as either drug-free microparticles to the lipolysis medium or incorporated in TG16 particles. Additionally, TG12 particles protected desmopressin from degradation when present in the lipolysis medium with the other lipid microparticles.

Conclusions: TG12 is a very interesting lipid for oral lipid formulations containing peptides and proteins as it alters release and degradation of the incorporated desmopressin. The present study demonstrates the possibility of bio-relevant in vitro evaluation of lipid-based solid particles.

Purpose: To investigate the in vitro release and degradation of desmopressin from saturated triglyceride microparticles under both lipolytic and proteolytic conditions.

Original language	English
Journal	Pharmaceutical Research
Volume	31
Issue number	9
Pages (from-to)	2420-28
Number of pages	9
DOIs	https://doi.org/10.1007/s11095-014-1337-z
Publication status	Published - 13 Mar 2014

Access to Document

10.1007/s11095-014-1337-z

Cite this

Solid Lipid Particles for Oral Delivery of Peptide and Protein Drugs II - The Digestion of Trilaurin Protects Desmopressin from Proteolytic Degradation. / Christophersen, Philip Carsten; Zhang, Long; Müllertz, Anette et al.

In: Pharmaceutical Research, Vol. 31, No. 9, 13.03.2014, p. 2420-28.

Research output: Contribution to journal › Journal article › Research › peer-review

@article{67ab969f98c246fbb8db0ed3113c0a2a,

title = "Solid Lipid Particles for Oral Delivery of Peptide and Protein Drugs II - The Digestion of Trilaurin Protects Desmopressin from Proteolytic Degradation",

abstract = "Methods: The release of desmopressin from different solid lipid microparticles in the absence and presence of a microbial lipase and protease was determined. Trilaurin (TG12), trimyristin (TG14), tripalmitin (TG16), and tristearin (TG18) were used as lipid excipients to produce solid lipid microparticles.Results: In the presence of lipase, the rate of drug release from different lipid particles was in the order of TG14 > TG16 > TG18, which is the same rank order as the lipid degradation rate. A reverse rank order was found for the protection of desmopressin from enzymatic degradation due to spatial separation of desmopressin from the protease. TG12 accelerated the release of desmopressin from all lipid particles when added as either drug-free microparticles to the lipolysis medium or incorporated in TG16 particles. Additionally, TG12 particles protected desmopressin from degradation when present in the lipolysis medium with the other lipid microparticles.Conclusions: TG12 is a very interesting lipid for oral lipid formulations containing peptides and proteins as it alters release and degradation of the incorporated desmopressin. The present study demonstrates the possibility of bio-relevant in vitro evaluation of lipid-based solid particles.Purpose: To investigate the in vitro release and degradation of desmopressin from saturated triglyceride microparticles under both lipolytic and proteolytic conditions.",

author = "Christophersen, {Philip Carsten} and Long Zhang and Anette M{\"u}llertz and Nielsen, {Hanne M{\o}rck} and Mingshi Yang and Huiling Mu",

year = "2014",

month = mar,

day = "13",

doi = "10.1007/s11095-014-1337-z",

language = "English",

volume = "31",

pages = "2420--28",

journal = "Pharmaceutical Research",

issn = "0724-8741",

publisher = "Springer",

number = "9",

}

TY - JOUR

T1 - Solid Lipid Particles for Oral Delivery of Peptide and Protein Drugs II - The Digestion of Trilaurin Protects Desmopressin from Proteolytic Degradation

AU - Christophersen, Philip Carsten

AU - Zhang, Long

AU - Müllertz, Anette

AU - Nielsen, Hanne Mørck

AU - Yang, Mingshi

AU - Mu, Huiling

PY - 2014/3/13

Y1 - 2014/3/13

N2 - Methods: The release of desmopressin from different solid lipid microparticles in the absence and presence of a microbial lipase and protease was determined. Trilaurin (TG12), trimyristin (TG14), tripalmitin (TG16), and tristearin (TG18) were used as lipid excipients to produce solid lipid microparticles.Results: In the presence of lipase, the rate of drug release from different lipid particles was in the order of TG14 > TG16 > TG18, which is the same rank order as the lipid degradation rate. A reverse rank order was found for the protection of desmopressin from enzymatic degradation due to spatial separation of desmopressin from the protease. TG12 accelerated the release of desmopressin from all lipid particles when added as either drug-free microparticles to the lipolysis medium or incorporated in TG16 particles. Additionally, TG12 particles protected desmopressin from degradation when present in the lipolysis medium with the other lipid microparticles.Conclusions: TG12 is a very interesting lipid for oral lipid formulations containing peptides and proteins as it alters release and degradation of the incorporated desmopressin. The present study demonstrates the possibility of bio-relevant in vitro evaluation of lipid-based solid particles.Purpose: To investigate the in vitro release and degradation of desmopressin from saturated triglyceride microparticles under both lipolytic and proteolytic conditions.

AB - Methods: The release of desmopressin from different solid lipid microparticles in the absence and presence of a microbial lipase and protease was determined. Trilaurin (TG12), trimyristin (TG14), tripalmitin (TG16), and tristearin (TG18) were used as lipid excipients to produce solid lipid microparticles.Results: In the presence of lipase, the rate of drug release from different lipid particles was in the order of TG14 > TG16 > TG18, which is the same rank order as the lipid degradation rate. A reverse rank order was found for the protection of desmopressin from enzymatic degradation due to spatial separation of desmopressin from the protease. TG12 accelerated the release of desmopressin from all lipid particles when added as either drug-free microparticles to the lipolysis medium or incorporated in TG16 particles. Additionally, TG12 particles protected desmopressin from degradation when present in the lipolysis medium with the other lipid microparticles.Conclusions: TG12 is a very interesting lipid for oral lipid formulations containing peptides and proteins as it alters release and degradation of the incorporated desmopressin. The present study demonstrates the possibility of bio-relevant in vitro evaluation of lipid-based solid particles.Purpose: To investigate the in vitro release and degradation of desmopressin from saturated triglyceride microparticles under both lipolytic and proteolytic conditions.

U2 - 10.1007/s11095-014-1337-z

DO - 10.1007/s11095-014-1337-z

M3 - Journal article

C2 - 24623481

SN - 0724-8741

VL - 31

SP - 2420

EP - 2428

JO - Pharmaceutical Research

JF - Pharmaceutical Research

IS - 9

ER -

Solid Lipid Particles for Oral Delivery of Peptide and Protein Drugs II - The Digestion of Trilaurin Protects Desmopressin from Proteolytic Degradation

Abstract

Access to Document

Fingerprint

Cite this