Auto-fluorescent PAMAM-based dendritic molecules and their potential application in pharmaceutical sciences

Alaa M.M. El-Betany; Elbadawy A. Kamoun; Craig James; Abdulhakim Jangher; Ghaith Aljayyoussi; Peter Griffiths; Neil B. McKeown; Mark Gumbleton

doi:10.1016/j.ijpharm.2020.119187

Auto-fluorescent PAMAM-based dendritic molecules and their potential application in pharmaceutical sciences

Alaa M.M. El-Betany
, Elbadawy A. Kamoun
, Craig James
, Abdulhakim Jangher
, Ghaith Aljayyoussi
, Peter Griffiths
, Neil B. McKeown
, Mark Gumbleton

Tropical Disease Biology

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

6 Citations (Scopus)

Abstract

The epithelial permeation of water-soluble fluorescent PAMAM dendrons based on 7H-benz[de] benzimidazo [2,1-a] isoquinoline-7-one as a fluorescent core across epithelial cell models MDCK I and MDCK II has been quantified. Hydrodynamic radii have been derived from self-diffusion coefficients obtained via pulsed-gradient spin-echo Nuclear Magnetic Resonance (PGSE-NMR). Results indicate that these dendritic molecules are molecularly disperse, non-aggregating, and only slightly larger than their parent homologues. MDCK I permeability studies across epithelial barriers show that these dendritic molecules are biocompatible with the chosen epithelial in-vitro model and can permeate across MDCK cell monolayers. Permeability is demonstrated to be a property of dendritic size and cell barrier restrictiveness indicating that paracellular mechanisms play the predominant role in the transport of these molecules.

Original language	English
Article number	119187
Pages (from-to)	119187
Journal	International Journal of Pharmaceutics
Volume	579
Early online date	2 Mar 2020
DOIs	https://doi.org/10.1016/j.ijpharm.2020.119187
Publication status	Published - 12 Apr 2020

Keywords

Hydrodynamic radii
Imaging and visualisation
PAMAM dendrons
Permeability
Self-diffusion coefficient
Water-soluble fluorescent dendrons

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10.1016/j.ijpharm.2020.119187

IJPmanuscript GAAccepted author manuscript, 392 KBLicence: CC BY-NC-ND

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title = "Auto-fluorescent PAMAM-based dendritic molecules and their potential application in pharmaceutical sciences",

abstract = "The epithelial permeation of water-soluble fluorescent PAMAM dendrons based on 7H-benz[de] benzimidazo [2,1-a] isoquinoline-7-one as a fluorescent core across epithelial cell models MDCK I and MDCK II has been quantified. Hydrodynamic radii have been derived from self-diffusion coefficients obtained via pulsed-gradient spin-echo Nuclear Magnetic Resonance (PGSE-NMR). Results indicate that these dendritic molecules are molecularly disperse, non-aggregating, and only slightly larger than their parent homologues. MDCK I permeability studies across epithelial barriers show that these dendritic molecules are biocompatible with the chosen epithelial in-vitro model and can permeate across MDCK cell monolayers. Permeability is demonstrated to be a property of dendritic size and cell barrier restrictiveness indicating that paracellular mechanisms play the predominant role in the transport of these molecules.",

keywords = "Hydrodynamic radii, Imaging and visualisation, PAMAM dendrons, Permeability, Self-diffusion coefficient, Water-soluble fluorescent dendrons",

author = "El-Betany, \{Alaa M.M.\} and Kamoun, \{Elbadawy A.\} and Craig James and Abdulhakim Jangher and Ghaith Aljayyoussi and Peter Griffiths and McKeown, \{Neil B.\} and Mark Gumbleton",

year = "2020",

month = apr,

day = "12",

doi = "10.1016/j.ijpharm.2020.119187",

language = "English",

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pages = "119187",

journal = "International Journal of Pharmaceutics",

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T1 - Auto-fluorescent PAMAM-based dendritic molecules and their potential application in pharmaceutical sciences

AU - El-Betany, Alaa M.M.

AU - Kamoun, Elbadawy A.

AU - James, Craig

AU - Jangher, Abdulhakim

AU - Aljayyoussi, Ghaith

AU - Griffiths, Peter

AU - McKeown, Neil B.

AU - Gumbleton, Mark

PY - 2020/4/12

Y1 - 2020/4/12

N2 - The epithelial permeation of water-soluble fluorescent PAMAM dendrons based on 7H-benz[de] benzimidazo [2,1-a] isoquinoline-7-one as a fluorescent core across epithelial cell models MDCK I and MDCK II has been quantified. Hydrodynamic radii have been derived from self-diffusion coefficients obtained via pulsed-gradient spin-echo Nuclear Magnetic Resonance (PGSE-NMR). Results indicate that these dendritic molecules are molecularly disperse, non-aggregating, and only slightly larger than their parent homologues. MDCK I permeability studies across epithelial barriers show that these dendritic molecules are biocompatible with the chosen epithelial in-vitro model and can permeate across MDCK cell monolayers. Permeability is demonstrated to be a property of dendritic size and cell barrier restrictiveness indicating that paracellular mechanisms play the predominant role in the transport of these molecules.

AB - The epithelial permeation of water-soluble fluorescent PAMAM dendrons based on 7H-benz[de] benzimidazo [2,1-a] isoquinoline-7-one as a fluorescent core across epithelial cell models MDCK I and MDCK II has been quantified. Hydrodynamic radii have been derived from self-diffusion coefficients obtained via pulsed-gradient spin-echo Nuclear Magnetic Resonance (PGSE-NMR). Results indicate that these dendritic molecules are molecularly disperse, non-aggregating, and only slightly larger than their parent homologues. MDCK I permeability studies across epithelial barriers show that these dendritic molecules are biocompatible with the chosen epithelial in-vitro model and can permeate across MDCK cell monolayers. Permeability is demonstrated to be a property of dendritic size and cell barrier restrictiveness indicating that paracellular mechanisms play the predominant role in the transport of these molecules.

KW - Hydrodynamic radii

KW - Imaging and visualisation

KW - PAMAM dendrons

KW - Permeability

KW - Self-diffusion coefficient

KW - Water-soluble fluorescent dendrons

U2 - 10.1016/j.ijpharm.2020.119187

DO - 10.1016/j.ijpharm.2020.119187

M3 - Article

SN - 0378-5173

VL - 579

SP - 119187

JO - International Journal of Pharmaceutics

JF - International Journal of Pharmaceutics

M1 - 119187

ER -

Auto-fluorescent PAMAM-based dendritic molecules and their potential application in pharmaceutical sciences

Abstract

Keywords

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