doi: 10.1021/ja501635u.
Epub 2014 Apr 17.
Visualizing dermal permeation of sodium channel modulators by mass spectrometric imaging
Affiliations
- PMID: 24708172
- PMCID: PMC4017602
- DOI: 10.1021/ja501635u
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Visualizing dermal permeation of sodium channel modulators by mass spectrometric imaging
J Am Chem Soc.
.
Abstract
Determining permeability of a given compound through human skin is a principal challenge owing to the highly complex nature of dermal tissue. We describe the application of an ambient mass spectrometry imaging method for visualizing skin penetration of sodium channel modulators, including novel synthetic analogs of natural neurotoxic alkaloids, topically applied ex vivo to human skin. Our simple and label-free approach enables successful mapping of the transverse and lateral diffusion of small molecules having different physicochemical properties without the need for extensive sample preparation.
Figures
Penetration of the sodium channel blocker compounds tested
in human
skin of the same donor using ethanol as the vehicle. Chemical structures
are shown for (a) saxitoxin, (d) lidocaine, (g) aconitine, and (j)
BTX-A. Positive ion mode DESI-MS ion images of the compounds are shown
for human skin in which (b) saxitoxin, (e) lidocaine, (h) aconitine,
and (k) BTX-A were topically applied. Optical images of cross sections
of the same tissue sections imaged by DESI after H&E stain are
shown in (c) for saxitoxin, (f) for lidocaine, (i) for aconitine,
and (l) for BTX-A.
Penetration of novel
synthetic analogue tested in human skin of
the same donor. The chemical structure of STX-ge is shown in (a).
Positive ion mode DESI-MS ion images of the compound are shown for
human skin in which STX-ge was topically applied using (b) ethanol
and (d) DMSO as vehicles. Optical images of the same tissue sections
imaged by DESI after H&E stain are shown in (c) and (f), respectively.
DESI mass spectra of selected skin regions outlined with a small black
box in the optical images in (c) and (f) are shown for STX-ge (d)
in ethanol and (g) in DMSO.
DESI-MS ion images showing the penetration of (a) aconitine,
(b)
BTX-A and (c) STX-ge tested in human skin of the same donor using
EMLA cream. Ion images showing the penetration of lidocaine and prilocaine,
compounds with are both present in the EMLA cream formulation, are
also presented for the three sections analyzed.
DESI-MS ion images showing
the penetration of aconitine tested
in in vivo rat skin using (a) ethanol and (b) DMSO as vehicles. Optical
images of the same tissue sections imaged by DESI after H&E stain
are also shown.
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