A novel cromakalim analogue induces cell cycle arrest and apoptosis in human cervical carcinoma HeLa cells through the caspase- and mitochondria-dependent pathway.

In the present study, a series of seven synthetic croma-kalim analogues were prepared and evaluated for cytotoxic effect on human cervical carcinoma HeLa cells using WST-8 assay. A preliminary screening of these cromakalim analogues showed that 1-[(3S,4R)-4-(2-ethoxy-4-methyl-1H-pyrrol-1-yl)-3-hydroxy- 2,2-dimethylchroman-6-yl-3-phenylurea (compound 6) had the highest cytotoxic effect (IC50 of 138 µM) and significantly inhibited HeLa cell proliferation after 36 h. In an effort to understand the cytotoxic mechanism of compound 6, we examined its effect on apoptosis and cell cycle distribution. Our results showed that compound 6 induced marked changes in apoptotic morphology and significantly increased early apoptosis of HeLa cells after 48 h by using Annexin V-FITC/PI dual staining assay. This apoptotic induction was associated with an increase in Bax expression, a decrease in Bcl-2 expression, release of cytochrome c and subsequent activation of caspase-9 and -3, which indicated that compound 6 induced apoptosis via caspase- and mitochondria-dependent pathway. By DNA content analysis and [3H]thymidine incorporation assay, compound 6 was found to induce an increase in the number of cells in G1 phase, accompanied by a decrease in the S phase to prevent DNA synthesis after 24 h of treatment. In addition, compound 6 caused significant DNA damage, as detected by the alkaline comet assay. Taken together, the data demonstrate that compound 6 induces apoptosis in HeLa cells through caspase- and mitochondria-dependent pathway and this apoptotic effect is associated with cell cycle arrest and DNA damage. These findings provide further understanding of the molecular mechanisms of compound 6 in cervical cancer.

[1]  N. Kokudo,et al.  Bufalin and cinobufagin induce apoptosis of human hepatocellular carcinoma cells via Fas‐ and mitochondria‐mediated pathways , 2011, Cancer science.

[2]  Wei Tang,et al.  Cinobufacini, an aqueous extract from Bufo bufo gargarizans Cantor, induces apoptosis through a mitochondria-mediated pathway in human hepatocellular carcinoma cells. , 2010, Journal of ethnopharmacology.

[3]  R. Youle,et al.  The role of mitochondria in apoptosis*. , 2009, Annual review of genetics.

[4]  Juan Du,et al.  Apoptotic activity of fatty acid derivatives may correlate with their inhibition of DNA replication. , 2008, International journal of oncology.

[5]  Chunfu Wu,et al.  3-Chloro-2,5-dihydroxybenzyl alcohol activates human cervical carcinoma HeLa cell apoptosis by inducing DNA damage. , 2007, International journal of oncology.

[6]  S. Gasser DNA damage response and development of targeted cancer treatments , 2007, Annals of medicine.

[7]  Brian David Dynlacht,et al.  New insights into cyclins, CDKs, and cell cycle control. , 2005, Seminars in cell & developmental biology.

[8]  B. Pirotte,et al.  4,6-Disubstituted 2,2-dimethylchromans structurally related to the K(ATP) channel opener cromakalim: design, synthesis, and effect on insulin release and vascular tone. , 2005, Journal of medicinal chemistry.

[9]  S. Fulda,et al.  Targeting apoptosis pathways in cancer therapy. , 2004, Current cancer drug targets.

[10]  T. Kuwana,et al.  Bcl-2-family proteins and the role of mitochondria in apoptosis. , 2003, Current opinion in cell biology.

[11]  Trevelyan Square,et al.  Recommendations for conducting the in vivo alkaline Comet assay , 2003 .

[12]  Sudhir Gupta,et al.  Molecular signaling in death receptor and mitochondrial pathways of apoptosis (Review). , 2003, International journal of oncology.

[13]  A. Girstun,et al.  SF2/ASF protein inhibits camptothecin-induced DNA cleavage by human topoisomerase I. , 2002, European journal of biochemistry.

[14]  Wenyi Wei,et al.  Role of p21 in Apoptosis and Senescence of Human Colon Cancer Cells Treated with Camptothecin* , 2002, The Journal of Biological Chemistry.

[15]  Chien-Huang Lin,et al.  Magnolol suppresses proliferation of cultured human colon and liver cancer cells by inhibiting DNA synthesis and activating apoptosis , 2002, Journal of cellular biochemistry.

[16]  D. Green,et al.  Remodeling for demolition: changes in mitochondrial ultrastructure during apoptosis. , 2002, Molecular cell.

[17]  K. Yi,et al.  A novel anti-ischemic ATP-sensitive potassium channel (K(ATP)) opener without vasorelaxation: N-(6-aminobenzopyranyl)-N'-benzyl-N' '-cyanoguanidine analogue. , 2001, Journal of medicinal chemistry.

[18]  G. Evan,et al.  Proliferation, cell cycle and apoptosis in cancer , 2001, Nature.

[19]  D. Smith,et al.  Regulation of tumor cell apoptotic sensitivity during the cell cycle (Review). , 2000, International journal of molecular medicine.

[20]  M. Hengartner The biochemistry of apoptosis , 2000, Nature.

[21]  S. Korsmeyer,et al.  BCL-2 family members and the mitochondria in apoptosis. , 1999, Genes & development.

[22]  P. Grieco,et al.  Synthesis, Biological Activity and Conformational Study of 1,4-Benzoxazine Derivatives as Potassium Channel Modulators. , 1999 .

[23]  E. Rojas,et al.  Single cell gel electrophoresis assay: methodology and applications. , 1999, Journal of chromatography. B, Biomedical sciences and applications.

[24]  Z. Darżynkiewicz,et al.  Comparison of methods based on annexin‐V binding, DNA content or TUNEL for evaluating cell death in HL‐60 and adherent MCF‐7 cells , 1999, Cell proliferation.

[25]  T. Hamamoto,et al.  A water-soluble tetrazolium salt useful for colorimetric cell viability assay , 1999 .

[26]  B. Wouters,et al.  Apoptosis , p 53 , and Tumor Cell Sensitivity to Anticancer Agents 1 , 1999 .

[27]  G. Kroemer,et al.  The Permeability Transition Pore Complex: A Target for Apoptosis Regulation by Caspases and Bcl-2–related Proteins , 1998, The Journal of experimental medicine.

[28]  G. Speit,et al.  Biological significance of DNA damage induced by hyperbaric oxygen. , 1998, Mutagenesis.

[29]  A. Collins,et al.  The comet assay: what can it really tell us? , 1997, Mutation research.

[30]  C Haanen,et al.  A novel assay for apoptosis. Flow cytometric detection of phosphatidylserine expression on early apoptotic cells using fluorescein labelled Annexin V. , 1995, Journal of immunological methods.

[31]  J Ashby,et al.  The single cell gel electrophoresis assay for induced DNA damage (comet assay): measurement of tail length and moment. , 1995, Mutagenesis.

[32]  B. Hellman,et al.  The concepts of tail moment and tail inertia in the single cell gel electrophoresis assay. , 1995, Mutation research.

[33]  W. Earnshaw,et al.  Nuclear changes in apoptosis. , 1995, Current opinion in cell biology.

[34]  Y. Lee,et al.  In vitro antitumor activity of cromakalim in human brain tumor cells. , 1994, Pharmacology.

[35]  S. Christakos,et al.  Apoptosis and signal transduction: clues to a molecular mechanism. , 1993, Current opinion in cell biology.

[36]  R. Bergmann,et al.  Synthesis and antihypertensive activity of 4-(1,2-dihydro-2-oxo-1-pyridyl)-2H-1-benzopyrans and related compounds, new potassium channel activators. , 1990, Journal of medicinal chemistry.

[37]  R. Tice,et al.  A simple technique for quantitation of low levels of DNA damage in individual cells. , 1988, Experimental cell research.