AI Article Synopsis
- A series of novel di- and tripeptides containing melphalan were developed, with J1 (l-melphalanyl-p-l-fluorophenylalanine ethyl ester) showing particularly high cytotoxicity compared to melphalan itself, likely due to enhanced cellular uptake and breakdown into melphalan once inside tumor cells.
- Overexpression of hydrolytic enzymes in various cancers presents an opportunity for targeted chemotherapy, as these enzymes aid in the selective activation of prodrugs like J1.
- Experiments revealed that quick intracellular conversion of J1 to melphalan occurred within 15 minutes, with a half-life of about 1 hour, and inhibition of peptidases significantly reduced the drug's effectiveness, indicating
Article Abstract
Recently, we presented a series of melphalan containing di- and tripeptides with high cytotoxic activity and J1 (l-melphalanyl-p-l-fluorophenylalanine ethyl ester) was identified as one of the most interesting compounds. It was speculated that the increased activity compared to melphalan itself, demonstrated both in vitro and in vivo, resided in increased transport over the tumour cell membrane and/or hydrolytic cleavage and liberation of melphalan inside the cells. Indeed, overexpression of hydrolytic enzymes like peptidases, esterases and proteases has been described in several types of human malignancies, thus providing a target for selective chemotherapy. In this work, the details of the increased activity was further investigated and potential tumour selectivity is discussed. The intracellular delivery of melphalan is investigated in detail using peptidase resistant dipeptide derivatives, by enzyme inhibitors and probes for enzymatic activity and by studying the time dependency of drug effect as well as intracellular drug concentrations (cellular pharmacokinetics). The results show that the activity of the dipeptide mustards is highly dependent on intracellular hydrolysis, which result in rapid intracellular release of the alkylating unit (i.e. free melphalan) in cells with high enzymatic activity. The maximum intracellular melphalan concentration following J1 exposure was reached already after 15 min, thereafter declining with a half-life of approximately 1 h. This rapid intracellular loading resulted in less reduction of activity for J1 than for melphalan and six other standard drugs when human tumour cell lines were exposed to the drugs for a limited time (simulating short half-life in vivo). Peptidase inhibitors inhibited the activity and intracellular release of melphalan, and dipeptide derivatives designed to resist the action of peptidases was less active than the corresponding normal dipeptide.
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| http://dx.doi.org/10.1080/10611860310001647140 | DOI Listing |
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