Design, Synthesis and Biological Evaluation ofnovel lipoamino acid-based glycolipids for oral drug delivery.

Falconer, Robert A., Toth, I.

January 2007

No / A series of lipoamino acid-based glycolipids were synthesised. Suitably derivatised lipoamino acid derivatives were prepared and conjugated to monosaccharides (including glycosyl azides, isothiocyanates, thiols and sulphones) to yield novel O-, N-, S- and C-linked glycolipids in good yields. Their potential to improve the oral absorption of piperacillin is reported.

Drug delivery

Glycolipid

Lipoamino acid

Liposaccharide

Optimized LC-MS/MS quantification method for the detection of piperacillin and application to the development of charged liposaccharides as penetration enhancers

Violette, A., Cortes, D.F., Bergeon, J.A., Falconer, Robert A., Toth, I.

January 2008

No / Piperacillin, a potent ß-lactam antibiotic, is effective in a large variety of Gram+ and Gram¿ bacterial infections but its administration is limited to the parenteral route as it is not absorbed when given orally. In an attempt to overcome this problem, we have synthesized a novel series of charged liposaccharide complexes of piperacillin comprising a sugar moiety derived from d-glucose conjugated to a lipoamino acid residue with varying side-chain length (cationic entity) and the piperacillin anion. A complete multiple reaction monitoring LC¿MS/MS method was developed to detect and characterize the synthesized complexes. The same method was then successfully applied to assess the in vitro apparent permeability values of the charged liposaccharide complexes in Caco-2 monolayers. / BBSRC

Glycolipid

LC¿MS/MS

Piperacillin

Charged Liposaccharide

Penetration Enhancer

Permeability

Caco-2