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- mTHPC (2)
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The platinum(II) complexes carboplatin (CBDCA), cisplatin (CDDP) and oxaliplatin
(1-OHP) are used as anticancer drugs in a large number of tumour chemotherapy regimens.
Many attempts have been made to combine Pt(II)-based chemotherapy with alternative treatment
strategies. One such alternative anticancer approach is known as photodynamic therapy (PDT),
where a non-toxic photosensitizer (PS) produces oxidative stress via the formation of reactive
oxygen species (ROS) after local illumination of the affected tissue. A very promising PS is
5,10,15,20-tetra(m-hydroxyphenyl)chlorin (mTHPC, Temoporfin), which is approved for the treatment
of head and neck cancer in Europe. In the present study, a combination of mTHPC-mediated PDT
and either CBDCA, CDDP, or 1-OHP was applied to five human cancer cell lines from different
tumour origins. Cytotoxicity was determined by the MTT assay and synergistic effects on cytotoxicity
were evaluated by calculation of Combination Indices (CI). Synergy was identified in some of the
combinations, for example, with 1-OHP in three of the tested cell lines but antagonism was also
observed for a number of combinations in certain cell lines. In cases of synergy, elevated ROS levels
were observed after combination but apoptosis induction was not necessarily increased compared
to a treatment with a single compound. Cell cycle analysis revealed a formation of apoptotic
subG1 populations and S phase as well as G2/M phase arrests after combination. In conclusion,
pre-treatment with mTHPC-PDT has the potential to sensitize some types of tumour cells towards
Pt(II) complexes, in particular 1-OHP but synergy is highly dependent on the type of cancer.
Abstract
Objectives
In this study, the pharmacological properties of six spirocyclic piperidines 1–6 showing very high σ1 receptor affinity (Ki = 0.2–16 nm) were investigated.
Methods
In vitro receptor binding studies, retinal ganglion assay and in vivo capsaicin assay were used to determine the affinity, selectivity and activity. Influence on human tumour cell growth (cell lines A427, LCLC‐103H, 5637 and DAN‐G) was determined in different assays. The effect on the ergosterol and cholesterol biosynthesis was determined by GLC/MS analysis.
Key findings
Receptor binding studies demonstrated high selectivity for the σ1 receptor. The increased Ca2+ influx mediated by 2 and the analgesic activity of 1, 4, 5 and 6 confirm σ1 receptor antagonistic activity. Inhibition of human tumour cell growth further supports the σ1 antagonistic effects. Treatment of A427 tumour cells with 2 led to cell detachment and cell degradation. Whereas the ergosterol biosynthesis was not affected, the sterol C14‐reductase, a key enzyme in the cholesterol biosynthesis, was weakly inhibited.
Conclusions
Due to the high selectivity, off‐target effects are not expected. The antiallodynic activity underlines the clinical potential of the spirocyclic piperidines for the treatment of neuropathic pain. Due to the antiproliferative activity, the spirocyclic σ1 antagonists represent promising antitumour agents.