DNA topoisomerase IIα (TOP2α) is a prominent target for anticancer drugs whose clinical efficacy is often limited by chemoresistance. Using antibody specific for the N-terminal of TOP2α, immunoassays indicated the existence of two TOP2α isoforms, 170 and 90 kDa, present in K562 leukemia cells and in an acquired etoposide (VP-16)-resistant clone (K/VP.5). TOP2α/90 expression was dramatically increased in etoposide-resistant K/VP.5 compared with parental K562 cells. We hypothesized that TOP2α/90 was the translation product of novel alternatively processed pre-mRNA, confirmed by 3'-rapid amplification of cDNA ends, polymerase chain reaction, and sequencing. TOP2α/90 mRNA includes retained intron 19, which harbors an in-frame stop codon, and two consensus poly(A) sites. The processed transcript is polyadenylated. TOP2α/90 mRNA encodes a 90,076-Da translation product missing the C-terminal 770 amino acids of TOP2α/170, replaced by 25 unique amino acids through translation of the exon 19/intron 19 read-through. Immunoassays, utilizing antisera raised against these unique amino acids, confirmed that TOP2α/90 is expressed in both cell types, with overexpression in K/VP.5 cells. Immunodetection of complex of enzyme-to-DNA and single-cell gel electrophoresis (Comet) assays demonstrated that K562 cells transfected with a TOP2α/90 expression plasmid exhibited reduced etoposide-mediated TOP2α-DNA covalent complexes and decreased etoposide-induced DNA damage, respectively, compared with similarly treated K562 cells transfected with empty vector. Because TOP2α/90 lacks the active site tyrosine (Tyr) of full-length TOP2α, these results strongly suggest that TOP2α/90 exhibits dominant-negative properties. Further studies are underway to characterize the mechanism(s) by which TOP2α/90 plays a role in acquired resistance to etoposide and other TOP2α targeting agents.
DNA topoisomerase II (170 kDa, TOP2/170) is essential in proliferating cells by resolving DNA topological entanglements during chromosome condensation, replication, and segregation. We previously characterized a C-terminally truncated isoform (TOP2/90), detectable in human leukemia K562 cells but more abundantly expressed in a clonal subline, K/VP.5, with acquired resistance to the anticancer agent etoposide. TOP2/90 (786 aa) is the translation product of a TOP2 mRNA that retains a processed intron 19. TOP2/90 lacks the active-site tyrosine-805 required to generate double-strand DNA breaks as well as nuclear localization signals present in the TOP2/170 isoform (1531 aa). Here, we found that TOP2/90, like TOP2/170, was detectable in the nucleus and cytoplasm of K562 and K/VP.5 cells. Coimmunoprecipitation of endogenous TOP2/90 and TOP2/170 demonstrated heterodimerization of these isoforms. Forced expression of TOP2/90 in K562 cells suppressed, whereas siRNA-mediated knockdown of TOP2/90 in K/VP.5 cells enhanced, etoposide-mediated DNA strand breaks compared with similarly treated cells transfected with empty vector or control siRNAs, respectively. In addition, forced expression of TOP2/90 in K562 cells inhibited etoposide cytotoxicity assessed by clonogenic assays. qPCR and immunoassays demonstrated TOP2/90 mRNA and protein expression in normal human tissues/cells and in leukemia cells from patients. Together, results strongly suggest that TOP2/90 expression decreases drug-induced TOP2-DNA covalent complexes and is a determinant of chemoresistance through a dominant-negative effect related to heterodimerization with TOP2/170. Alternative processing of TOP2 pre-mRNA, and subsequent synthesis of TOP2/90, may be an important mechanism regulating the formation and/or stability of cytotoxic TOP2/170-DNA covalent complexes in response to TOP2-targeting agents.
Two new (1 and 2) and four known arylnaphthalene lignan lactones (3–6) were isolated from different plant parts of Phyllanthus poilanei collected in Vietnam, with two further known analogues (7 and 8) being prepared from phyllanthusmin C (4). The structures of the new compounds were determined by interpretation of their spectroscopic data and by chemical methods, and the structure of phyllanthusmin D (1) was confirmed by single-crystal X-ray diffraction analysis. Several of these arylnaphthalene lignan lactones were cytotoxic toward HT-29 human colon cancer cells, with compounds 1 and 7-O-[(2,3,4-tri-O-acetyl)-α-l-arabinopyranosyl)]diphyllin (7) found to be the most potent, exhibiting IC50 values of 170 and 110 nM, respectively. Compound 1 showed activity when tested in an in vivo hollow fiber assay using HT-29 cells implanted in immunodeficient NCr nu/nu mice. Mechanistic studies showed that this compound mediated its cytotoxic effects by inducing tumor cell apoptosis through activation of caspase-3, but it did not inhibit DNA topoisomerase IIα activity.
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