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Distribution of Gacyclidine Enantiomers in Spinal Cord Extracellular Fluid (2000)

Hoizey, Guillaume ; Kaltenbach, Matthieu L. ; Dukic, Sylvain ; [et al.]

Springer

Pharmaceutical research 17 (2000), S. 148-153

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ISSN: 1573-904X

Keywords: enantiomers ; extracellular fluid ; gacyclidine ; micro-dialysis ; spinal cord

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. Determination of the pharmacokinetics of gacyclidineenantiomers, a non-competitive NMDA antagonist, in plasma and spinal cordextracellular fluid (ECF) of rats. Methods. Implantation of microdialysis probes in spinal cord (T9).Serial collection of plasma samples and ECF dialysates over 5 hoursafter IV bolus administration of (±)-gacyclidine (2.5 mg/kg). Plasmaprotein binding determined in vivo by equilibrium dialysis. ChiralGC/MS assay. Results. Plasma concentrations of (+)-gacyclidine were ∼25% higherthan those of (−)-gacyclidine over the duration of the experiment inall animals. Plasma concentrations decayed in parallel in a biphasicmanner (t1/2α ∼9 min; t1/2β ∼90 min) with no significant differencebetween enantiomers. Clearance and volume of distribution of(−)-gacyclidine were approximately 20% higher than those of its opticalantipode (CL: 248 vs 197 ml.kg−1.min−1;Vdβ: 31.6 vs 23.5 l/kg).Protein binding (∼90%) was not stereoselective. Both gacyclidineenantiomers were quantifiable in spinal cord ECF 10 min after drugadministration and remained stable over the duration of the experimentin spite of changing blood concentrations. Penetration of(−)-gacyclidine was significantly higher (∼40%) than that of (+)-gacyclidine inall animals. Yet, exposure of spinal cord ECF was similar for bothenantiomers, and not correlated with plasma AUCs. Conclusions. The disposition of gacyclidine enantiomers isstereoselective. Both enantiomers exhibit a high affinity for spinal cord tissueand their distribution may involve a stereoselective and active transportsystem. This hypothesis could also explain the discrepancy betweendrug concentrations in plasma and spinal cord ECF.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007557028313

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Synthesis and expression of laminin during human foetal lung development (1995)

Lallemand, Aude V. ; Ruocco, Sandrine M. ; Gaillard, Dominique A.

New York, NY [u.a.] : Wiley-Blackwell

The @Anatomical Record 242 (1995), S. 233-241

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ISSN: 0003-276X

Keywords: Laminin ; Lung ; Human Foetus ; Development ; Immunohistochemistry ; In situ hybridization ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: Backgrounds: The lung develops by epithelial tubes budding and branching into a flexible mesenchyme. This growth is associated with the remodelling of the epithelial basement membrane, of which laminin is a major component. Methods: Both the synthesis and expression of laminin were studied in the human lung between 10 and 31 weeks of gestation, using in sity hybridization and immunohistochemistry. Results: The synthesis of the β chain was active in the epithelial and surrounding mesenchymal cells. The mRNAs coding for the γ chain were less abundant and mainly found in the epithelium. The synthesis of these two chains continued throughout gestation, and no significant difference in the density of hybridization grains could be detected between the tips of the expanding buds and the proximal portions. Immunohistochemical localization of laminin showed important modifications of the basement membrane during gestation. In the first part of the pseudoglandular stage the epithelial basement membrane stained continuously for laminin. Later, the basement membrane was labelled in a graded fashion: at the apex of the growing buds the staining became weak with focal disruptions. Both epithelial and mesenchymal synthesis of laminin remained active, while the polypeptide was undetectable using immunohistochemistry. Conclusions: These findings suggest that the remodelling of the basement membrane during human lung morphogenesis is probably not related to a decreasing synthesis of laminin, but to either a proteolytic degradation or the assembly of an inadequate complex undetectable with the polyclonal antibody antilaminin. © 1995 Wiley-Liss, Inc.

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