A M Dance scite author profile

A number of polyamine derivatives have demonstrated potential as therapeutic agents. For example, 1,12-bisethylspermine and bisnaphthalimide (elinafide) are currently in phase I clinical trials for the treatment of certain cancers. Here, the biological activities of two new groups of polyamine derivative, namely the oxa-polyamines and the bisnaphthalimides, are presented. The most active compounds in the oxa-polyamine and bisnaphthalimido series possessed IC(50) values of 2.93 and 1.38 microM, respectively, against MCF7 cells after 48 h of exposure. The structure-relationship activities of each group of compounds are discussed. Bisnaphthalimido compounds are DNA-binding agents. Addition of the bisnaphthalimides PK3, PK4, PK5, PK6 and PK7, at a concentration of 10 microM, to the calf thymus DNA duplex increased the T (m) of DNA by 11.55+/-0.56, 14.545+/-1.59, 6.23+/-2.45, 12.56+/-1.84 and 16.45+/-0.39 degrees C respectively. With the exception of PK5, all compounds bind to DNA by intercalation as judged by effect of compounds on DNA mobility. Ethidium bromide displacement assay showed that all the compounds have significant affinity for calf thymus DNA (the drug concentration required to reduce the fluorescence of initially DNA-bound ethidium bromide by 50%, C(50), was 1.21-17.33 microM). The order of DNA-binding strength was PK4 > PK3 > PK7 > PK6 > PK5. In HL-60 promyelocytic leukaemia cells, oxa-polyamine and bisnaphthalimido treatment resulted in a decline in cell proliferation and viability. The assays performed suggested that apoptosis was not the principal cell death mechanism involved in oxa-polyamine cytotoxicity. In contrast, HL-60 cell death induced by the bisnaphthalimido series was characterized by early exposure of phosphatidylserine exclusive from membrane damage, elevated caspase-3 activity, increased DNA instability and, ultimately, DNA fragmentation. Thus the principal cytotoxic members of the bisnaphthalimido series appear to induce apoptosis.

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Caspase-independence and characterization of bisnaphthalimidopropyl spermidine induced cytotoxicity in HL60 cells

Bestwick

Milne

Dance

et al. 2018

Toxicology in Vitro

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Bisnaphthalimides are DNA intercalators of potential use as chemotherapeutics but for which the range of mechanism of action is only gradually being elucidated. Using human promyelocytic HL-60 cells, we extend characterization of the cytotoxicity of bisnaphthalimidopropylspermidine (BNIPSpd) and examine the relationship with caspase-activity. Within 4 h exposure, BNIPSpd (1-10 μM) induced significant DNA strand breakage. Evidence of apoptosis was progressive through the experimental period. Within 6 h, BNIPSpd increased the proportion of cells exhibiting plasma membrane phosphatidylserine exposure. Within 12 h, active caspase expression increased and was sustained with 5 and 10 μM BNIPSpd. Flow cytometric analysis revealed caspase activity in cells with and without damaged membranes. By 24 h, 5 and 10 μM BNIPSpd increased hypodiploid DNA content and internucleosomal DNA fragmentation (DNA ladders) typical of the later stages of apoptosis. 1 μM BNIPSpd exposure also increased hypodiploid DNA content by 48 h. Polyamine levels decreased by 24 h BNIPSpd exposure. The pan-caspase inhibitor, z-VAD-fmk, significantly decreased DNA degradation (hypodiploid DNA and DNA ladders) and cytotoxicity. Despite this, cell growth and viability remained significantly impaired. We propose that BNIPSpd cytotoxicity arises through DNA damage and not polyamine depletion and that cytotoxicity is dominated by but not dependent upon caspase driven apoptosis.

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A M Dance

Synthesis and biological activities of bisnaphthalimido polyamines derivatives: cytotoxicity, DNA binding, DNA damage and drug localization in breast cancer MCF 7 cells

The biological activities of new polyamine derivatives as potential therapeutic agents

Caspase-independence and characterization of bisnaphthalimidopropyl spermidine induced cytotoxicity in HL60 cells

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