TY - JOUR
T1 - Drastic differences between the release kinetics of two highly related porphyrins in liposomal membranes
T2 - mTHPP and pTHPP
AU - Kuntsche, Judith
AU - Rajakulendran, Kirishana
AU - Sabriye, Hibo Mohamed Takane
AU - Tawakal, Navidullah
AU - Khandelia, Himanshu
AU - Hakami Zanjani, Ali Asghar
N1 - Funding Information:
H.K. is supported by a Lundbeckfonden Ascending Investigator grant no. R344-2020-1023. A.A.H.Z. and H.K. are supported by the Novo Nordisk Foundation grant no. NNF18OC0034936. The simulations were performed on the Novo Nordisk Foundation-funded ROBUST Resource for Biomolecular Simulations no. NNF18OC0032608 and the DECI resource Kay based in Ireland at ICHEC with support from the PRACE aisbl. The authors thank late Dr. Tomasz Ròg for sharing force field parameters for the compounds and Lipoid GmbH for providing lecithin Lipoid E80S and DSPE-mPEG 2000.
Funding Information:
H.K. is supported by a Lundbeckfonden Ascending Investigator grant no. R344-2020-1023. A.A.H.Z. and H.K. are supported by the Novo Nordisk Foundation grant no. NNF18OC0034936. The simulations were performed on the Novo Nordisk Foundation-funded ROBUST Resource for Biomolecular Simulations no. NNF18OC0032608 and the DECI resource Kay based in Ireland at ICHEC with support from the PRACE aisbl.
Publisher Copyright:
© 2023 The Authors
PY - 2023/12
Y1 - 2023/12
N2 - Hypothesis: The release of hydrophobic compounds from liposomal membranes occurs by partitioning and is thus determined by the physicochemical properties (e.g. logP and water solubility) of the drug. We postulate that even minor structural differences, e.g. the position of the phenolic OH-group of the hydrophobic porphyrins mTHPP and pTHPP (meta vs. para substitution), distinctly affect their partitioning and release behavior from liposomes. Experiments: The release and redistribution of mTHPP and pTHPP from lecithin or POPC/POPG liposomes to different acceptor particles (DSPE-mPEG micelles and liposomes) was studied by asymmetrical flow field-flow fractionation to separate donor and acceptor particles. Reversed phase HPLC was applied to detect differences in partitioning. Molecular dynamics (MD) simulations were carried out to obtain molecular insight in the different behavior of the two compounds inside a lipid bilayer. Findings: Despite the minor differences in chemical structure, mTHPP is more hydrophobic and redistributes much slower to both acceptor phases than pTHPP. MD simulations indicate that compared to pTHPP, mTHPP makes stronger hydrogen bonds with the lipid head groups, is oriented more parallel to the lipid tails and is embedded slightly deeper in the membrane.
AB - Hypothesis: The release of hydrophobic compounds from liposomal membranes occurs by partitioning and is thus determined by the physicochemical properties (e.g. logP and water solubility) of the drug. We postulate that even minor structural differences, e.g. the position of the phenolic OH-group of the hydrophobic porphyrins mTHPP and pTHPP (meta vs. para substitution), distinctly affect their partitioning and release behavior from liposomes. Experiments: The release and redistribution of mTHPP and pTHPP from lecithin or POPC/POPG liposomes to different acceptor particles (DSPE-mPEG micelles and liposomes) was studied by asymmetrical flow field-flow fractionation to separate donor and acceptor particles. Reversed phase HPLC was applied to detect differences in partitioning. Molecular dynamics (MD) simulations were carried out to obtain molecular insight in the different behavior of the two compounds inside a lipid bilayer. Findings: Despite the minor differences in chemical structure, mTHPP is more hydrophobic and redistributes much slower to both acceptor phases than pTHPP. MD simulations indicate that compared to pTHPP, mTHPP makes stronger hydrogen bonds with the lipid head groups, is oriented more parallel to the lipid tails and is embedded slightly deeper in the membrane.
KW - Drug release
KW - Liposomes
KW - Molecular dynamics simulation
KW - Partitioning
KW - Porphyrin
U2 - 10.1016/j.jcis.2023.07.152
DO - 10.1016/j.jcis.2023.07.152
M3 - Journal article
C2 - 37572612
AN - SCOPUS:85167450705
SN - 0021-9797
VL - 651
SP - 750
EP - 759
JO - Journal of Colloid and Interface Science
JF - Journal of Colloid and Interface Science
ER -