melphalan and metamelfalan

Peptichemio (PTC), a mixture of six oligopeptides all containing m-L-sarcolysin, has previously shown impressive results in clinical trials. The tripeptide P2 (L-prolyl-m-L-sarcolysyl-p-L-fluorophenylalanine ethyl ester) has been suggested as the main contributor to PTC activity. In contrast to its analogue melphalan, m-L-sarcolysin never reached clinical use. To allow a direct comparison, the corresponding melphalan containing tripeptide J3 (L-prolyl-L-melphalanyl-p-L-fluorophenylalanine ethyl ester) was synthesized and its activity was compared with that of P2; the activities of melphalan and m-L-sarcolysin were studied in parallel. Cytotoxic activity in human tumor cell lines and some fresh human tumor specimens were analyzed as well as effects on cellular metabolism, macromolecular synthesis, and preliminary evaluation of the cell death characteristics. The results show that melphalan and m-L-sarcolysin display similar activity in these systems and that the tripeptides were more active than their parent monomers. Surprisingly however, the melphalan containing tripeptide J3 demonstrated a significantly more rapid and stronger activity than the m-L-sarcolysin analogue P2. Finally, the in vivo toxicity and activity of melphalan and J3 were investigated in mice bearing human leukemia cells in s.c. fibers. The in vitro results seem translatable into the in vivo situation, demonstrating better antileukemic effect of J3 but similar side effects as melphalan.

Topics: Antineoplastic Agents, Alkylating; Cell Line, Tumor; Dipeptides; Drug Screening Assays, Antitumor; Humans; Magnetic Resonance Spectroscopy; Melphalan; Oligopeptides

m-L-sarcolysin (m-L-SL) is an isomer of melphalan (Mel) with the di(2-chloroethyl) amino group being substituted in the meta position of phenylalanine. By covalent conjugation of amino acids to m-L-SL, a peptide complex consisting of six m-L-SL-based oligopeptides known as peptichemio (PTC) was developed previously. In the present study, the cytotoxic activity pattern of the different oligopeptides of PTC was investigated in ten human tumour cell lines representing different mechanisms of cytotoxic drug resistance using the fluorometric microculture cytotoxicity assay (FMCA). In the cell line panel, L-prolyl-m-L-sarcolysyl-L-p-fluorophenylalanine (P2) was the most active oligopeptide, showing slightly lower mean IC50 values (2.6 vs 3.9 and 4.1 microg ml(-1)) than Mel and m-L-SL. The other five oligopeptides were less active than Mel. All active oligopeptides showed mechanistic similarity to Mel as judged by the correlation analysis of the cell line panel log IC50 values (R > or = 0.90), although P2 appeared to be less sensitive to GSH-mediated drug resistance. The relative activity of Mel and P2 was found to be related to degree of proliferation, P2 being more active towards low-proliferating cell lines. P2 and Mel were then further characterized in 49 fresh human tumour samples. In these samples P2 was considerably more active than Mel and showed a higher relative solid tumour activity (2.7 to 4.5-fold). However, the correlation of log IC50s between P2 and Mel in patient cells was high (R = 0.79), indicating a similar mechanism of action in this tumour model too. Cross-resistance with other standard drugs was lower for P2 than Mel. The results show that P2 is the most potent component of PTC and demonstrates a favourable activity profile compared with Mel. These data suggest that further investigation of P2 as a potential anti-tumour agent is warranted.

Topics: Cell Line; Drug Resistance, Neoplasm; Humans; Melphalan; Oligopeptides; Peptichemio; Tumor Cells, Cultured

DNA interstrand, as well as DNA protein cross-linking, was more efficient in phytohaemagglutinin-stimulated human lymphocytes exposed to m-L-sarcolysin as compared to melphalan at equivalent concentrations of the drug. The cellular uptake of m-L-sarcolysin was more efficient as compared to melphalan. With peptichemio, a mixture of 6 peptides containing m-L-sarcolysin, an intermediate level of DNA cross-linking was found. The differences in DNA cross-linking between the 3 drugs were parallel to differences in cytotoxicity. Peptichemio has been ascribed anti-metabolic properties in addition to the alkylating properties conferred by its m-L-sarcolysin content. In the phytohaemagglutinin-stimulated lymphocytes, however, the effect of peptichemio seems linked to its capacity for DNA cross-linking.

Topics: Cell Survival; Cross-Linking Reagents; DNA; Humans; Lymphocyte Activation; Lymphocytes; Melphalan; Peptichemio; Phytohemagglutinins; Stereoisomerism