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  • Title: Thymidylate synthase as a target for growth inhibition in methotrexate-sensitive and -resistant human head and neck cancer and leukemia cell lines.
    Author: McGuire JJ, Magee KJ, Russell CA, Canestrari JM.
    Journal: Oncol Res; 1997; 9(3):139-47. PubMed ID: 9220499.
    Abstract:
    Thymidylate synthase (TS) inhibitor effects on growth of human head and neck squamous cell carcinoma (HNSCC) cell lines and CCRF-CEM human leukemia cells and sublines with acquired methotrexate (2,4-diamino-10-methylpteroylglutamic acid) (MTX) resistance were studied. During 120-h treatment, HNSCC cell lines A253 and FaDu are equally sensitive to MTX, whereas the polyglutamylatable TS inhibitors ZD1694 and BW1843U89 are 5- to 35-fold more potent than MTX and the lipophilic AG331 is approximately 10(2)-fold less potent than MTX. A253 is intrinsically resistant to intermittent (24 h) MTX and BW1843U89 exposure (higher EC50 values and shallower slopes of concentration-response curves relative to FaDu); AG331 and ZD1694 largely overcome this intrinsic resistance to intermittent exposure. Thymidine (TdR) protects against growth inhibition by these inhibitors, confirming that TS is their target in HNSCC; at high AG331 levels, TdR only partially protects, implying that a second site of action exists. Growth inhibition of HNSCC by ZD1694 and BW1843U89 is protected by leucovorin (LV) at > or = 10(-7) and > 10(-3) M, respectively; 10(-4) M LV cannot protect HNSCC cells against AG331. Results similar to protection studies are obtained if LV addition is delayed < or = 24 h after ZD1694 or BW1843U89 exposure. CCRF-CEM sublines with acquired MTX resistance resulting from dihydrofolate reductase (DHFR) overexpression, defective MTX transport, or defective MTX polyglutamylation retain full sensitivity to AG331. Cells with defective MTX transport are highly cross-resistant to ZD1694 and BW1843U89, implicating the reduced folate/MTX carrier in their transport. Minor cross-resistance of the DHFR overexpressing line to ZD1694 and BW1843U89 is observed. A subline with highly defective MTX polyglutamylation is cross-resistant to 120-h exposure to ZD1694, but not to BW1843U89, suggesting a profound contribution of polyglutamylation to the mechanism of action of ZD1694.
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