Although FM

and DTIC are the members of the alkylating ag

Although FM

and DTIC are the members of the alkylating agent family, they inactivate HTB140 cells in different ways. Due to its major inherent toxicity, FM exhibited very high killing ability within the incubation time proper for the evaluation of clonogenic survival, i.e. 7 days after administration [10]. The highest effectiveness of the single DTIC treatment was 72 h after its administration and it almost disappeared with the prolonged incubation up to 7 days [10]. Therefore, as an example of cellular resistance, the human HTB140 melanoma cell Androgen Receptor Antagonist molecular weight line was used as a model system. To achieve better cellular inactivation than it has been obtained by single treatments with either protons or drugs a study of combined effects of these agents has been undertaken.

Irradiation doses were those frequently used in proton therapy [16], whereas drug concentrations were close to those that produce 50% of growth inhibition [3, 10, 21]. The level of cellular radiosensitivity is almost exclusively assessed by clonogenic assay. Different viability tests, for instance SRB, microtetrasolium (MTT) or BrdU are basically employed for the estimation of cellular chemosensitivity. They are also adapted for the evaluation of the cellular response to the radiation damage [22, 23]. All biological assays used in this study were selected to enable see more the comparison of sensitivity levels of HTB140 cells after applying radiation, alkylating agents or their combination. These methods were particularly chosen because they measure distinct biological parameters in cells [24–26]. In combined treatments the common order of administration of different agents is exposure to drug and then to radiation [27, 28]. Consequently, in an initial experiment the HTB140 cells were pretreated with FM or DTIC (100 or 250 μM) and were irradiated with protons (12 or 16 Gy) 24 h later [11]. Cell viability was assessed 48

h after irradiation, the time appropriate to the maximum drug effect [10, 21]. For all treatments the obtained levels of viability BCKDHA were about 50%, without major changes between single and combined applications. The viability levels in these combined treatments are probably due only to the effects of drugs [11]. In another experimental setup the effects of combination of drugs and protons were estimated 7 days after irradiation of HTB140 cells [12]. The selected time point is proper for the evaluation of radiobiological survival, i.e., survival after at least six doubling times following irradiation. This combination of FM and protons considerably reduced cell proliferation, providing better inactivation level than each single treatment. Effects of the combination of DTIC and protons were small for cell proliferation and viability [12].

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