Relevance of drug uptake, cellular distribution and cell membrane fluidity to the enhanced sensitivity of Down's syndrome fibroblasts to anticancer antibiotic—mitoxantrone

Sensitivity of human fibroblasts derived from Down's syndrome (DS) individuals (S-240, T-158, T-74, T-164) and normal donors (S-126, WA-1) to anticancer antibiotic—mitoxantrone (1,4-dihydroxy-5,8-bis((2-((2-hydroxy-ethyl)amino)ethyl)amino)-9,10-anthracenedione dihydrochloride; MIT) and its rela...

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Bibliographic Details
Published in:Biochimica et biophysica acta 2003-04, Vol.1611 (1), p.161-170
Main Authors: Przybylska, Maria, Jóźwiak, Zofia
Format: Article
Language:English
Subjects:
Antibiotics, Antineoplastic - therapeutic use
Biological Transport
Cell Membrane - drug effects
Cell Membrane - metabolism
Cell Survival - drug effects
Cells, Cultured
Down Syndrome - drug therapy
Down Syndrome - metabolism
Down's syndrome
Drug accumulation
Fibroblasts - drug effects
Fibroblasts - metabolism
Fluidity
Fluorescence Polarization
Humans
Membrane Fluidity - drug effects
Mitoxantrone
Mitoxantrone - therapeutic use
Survival
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Summary:Sensitivity of human fibroblasts derived from Down's syndrome (DS) individuals (S-240, T-158, T-74, T-164) and normal donors (S-126, WA-1) to anticancer antibiotic—mitoxantrone (1,4-dihydroxy-5,8-bis((2-((2-hydroxy-ethyl)amino)ethyl)amino)-9,10-anthracenedione dihydrochloride; MIT) and its relationship to the transport rate, cellular distribution and interaction with cell membrane were studied. The survival assay showed that MIT was more toxic to trisomic fibroblast lines than to normal cells. Studies of transport kinetics indicated that the amount of drug taken up and extruded by DS cells was diminished, compared to control cells. In contrast, the cellular level of MIT associated with DNA was greater in trisomic than in normal cells. The fluorescence anisotropy measurements of TMA-DPH and 12-AS demonstrated that the fluidity of the polar region of the outer lipid monolayer of DS cell membrane was decreased in comparison with normal cells. MIT treatment decreased fluidity of the inner hydrophobic region of plasma membrane, but only slightly influenced the fluidity of the outer surface of the cell membrane. Finally, we concluded that lowered membrane fluidity, diminished amount of MIT extruded by cells and the enhanced level of the drug associated with DNA could be responsible for the enhanced sensitivity of DS fibroblasts to the MIT treatment.
ISSN:0005-2736
0006-3002
1879-2642
DOI:10.1016/S0005-2736(03)00051-8