S [47]. Our recent works also demonstrated that ER-negative breast cancer cells

S [47]. Our recent works also demonstrated that ER-negative breast cancer cells are more senstive to cucurbitacin B than the ER-positive breast cancer cells [17,48]. The explanation of how BRCA1 mutant cells are more sensitive of to cucurbitacin B than the cells harboring wild type BRCA1 probably associates with the ER expression. From above information, we believe that the normal BRCA1 plays crucial roles in maintaining cellular homeostasis of the normal cells. The presence of tumor suppressor BRCA1 induces expression of ER [47] while the ER can subsequently induce cMyc expression [49]. The c-Myc upregulates telomerase and the cell proliferation increases [50,51] to keep balanced with antiproliferative effect of BRCA1. Loss of BRCA1 could thereby lead to 223488-57-1 web reduced ER and c-Myc expression into lower levels. Expression of c-Myc is also induced by b-catenin/TCF of the Wnt signaling [52?5]. Our recent report revealed that c-Myc and cyclin D1 were reduced upon cucurbitacin B treatment in wt-BRCA1 possessed, ER (+) MCF-7 cells. The effect of this agent is more serious in the low BRCA1 expressing, ER (2) SKBR-3 cells [48,56]. Cucurbitacin B is thought to inhibit the movement of order ZK 36374 bcatenin and galectin-3 to the nucleus, hence down-regulating their Wnt signaling targets such as c-Myc and cyclin D1. In present work, we clearly show that the breast cancer cells harboringvarious types of defective BRCA1 are more sensitive to cucurbitacin B than the wt-BRCA1 possessed cells. We suggest that increase sensitivity to cucurbitacin B in BRCA1 defective cells is due to more aggressive reduction of the c-Myc by both reduced ER expression (dues to BRCA1 defect) [49,57] and effect of cucurbitacin B on b-catenin/TCF of the Wnt signaling, which finally reduced c-Myc and cyclin D1 [17,48]. Overexpression of survivin is associated with poor prognosis in breast cancer [58,59]. Previous report has shown that BRCA1 is a negative regulator of survivin [26], and we found herein that survivin expression is upregulated in the BRCA1 knocked-down and mutant cells. We also show that cucurbitacin B could inhibit the expression of survivin and could induce expression of both p21/Waf1 and p27Kip1 in BRCA1 deficient cells. Anticancer effect by cucurbitacin B had been reported [10,14]. Thoennissen NH et al. [10] showed that cucurbitacin B was associated with inhibition of activated JAK2, STAT3 and STAT5 and increased level of p21Waf1 in human 18325633 pancreatic cancer cells. While, Tannin-Spitz T et al. [14] reported treatment of breast cancer cells with cucurbitacin glucoside dephosphorylated PKB, and inhibited survivin. The simultaneous PKB inhibition and STAT3 inactivation is possibly responsible for the observed induction in p21/WAF1 expression. PKB inhibition might also lead to reduction in survivin expression [14]. We also believe that, at least in part, the PKB dephosphorylation is probably associated with p21/Waf1 and/or p27Kip1 expression which could be associated with reduced survivin level. Our data show that cucurbitacin B suppresses the ability of BRCA1 defective cells to grow and migrate which probably because of the decrease in survivin via PKB inhibition, suggesting that this agent has anti-metastatic potential against the cancer cells. Moreover, we believe that cucurbitacin B interferes with apoptosis and cell cycle control machineries since survivin was inhibited while p21/Waf1 and p27Kip1 were upregulated in the cancer cells with defective BRCA1. The treatment with cuc.S [47]. Our recent works also demonstrated that ER-negative breast cancer cells are more senstive to cucurbitacin B than the ER-positive breast cancer cells [17,48]. The explanation of how BRCA1 mutant cells are more sensitive of to cucurbitacin B than the cells harboring wild type BRCA1 probably associates with the ER expression. From above information, we believe that the normal BRCA1 plays crucial roles in maintaining cellular homeostasis of the normal cells. The presence of tumor suppressor BRCA1 induces expression of ER [47] while the ER can subsequently induce cMyc expression [49]. The c-Myc upregulates telomerase and the cell proliferation increases [50,51] to keep balanced with antiproliferative effect of BRCA1. Loss of BRCA1 could thereby lead to reduced ER and c-Myc expression into lower levels. Expression of c-Myc is also induced by b-catenin/TCF of the Wnt signaling [52?5]. Our recent report revealed that c-Myc and cyclin D1 were reduced upon cucurbitacin B treatment in wt-BRCA1 possessed, ER (+) MCF-7 cells. The effect of this agent is more serious in the low BRCA1 expressing, ER (2) SKBR-3 cells [48,56]. Cucurbitacin B is thought to inhibit the movement of bcatenin and galectin-3 to the nucleus, hence down-regulating their Wnt signaling targets such as c-Myc and cyclin D1. In present work, we clearly show that the breast cancer cells harboringvarious types of defective BRCA1 are more sensitive to cucurbitacin B than the wt-BRCA1 possessed cells. We suggest that increase sensitivity to cucurbitacin B in BRCA1 defective cells is due to more aggressive reduction of the c-Myc by both reduced ER expression (dues to BRCA1 defect) [49,57] and effect of cucurbitacin B on b-catenin/TCF of the Wnt signaling, which finally reduced c-Myc and cyclin D1 [17,48]. Overexpression of survivin is associated with poor prognosis in breast cancer [58,59]. Previous report has shown that BRCA1 is a negative regulator of survivin [26], and we found herein that survivin expression is upregulated in the BRCA1 knocked-down and mutant cells. We also show that cucurbitacin B could inhibit the expression of survivin and could induce expression of both p21/Waf1 and p27Kip1 in BRCA1 deficient cells. Anticancer effect by cucurbitacin B had been reported [10,14]. Thoennissen NH et al. [10] showed that cucurbitacin B was associated with inhibition of activated JAK2, STAT3 and STAT5 and increased level of p21Waf1 in human 18325633 pancreatic cancer cells. While, Tannin-Spitz T et al. [14] reported treatment of breast cancer cells with cucurbitacin glucoside dephosphorylated PKB, and inhibited survivin. The simultaneous PKB inhibition and STAT3 inactivation is possibly responsible for the observed induction in p21/WAF1 expression. PKB inhibition might also lead to reduction in survivin expression [14]. We also believe that, at least in part, the PKB dephosphorylation is probably associated with p21/Waf1 and/or p27Kip1 expression which could be associated with reduced survivin level. Our data show that cucurbitacin B suppresses the ability of BRCA1 defective cells to grow and migrate which probably because of the decrease in survivin via PKB inhibition, suggesting that this agent has anti-metastatic potential against the cancer cells. Moreover, we believe that cucurbitacin B interferes with apoptosis and cell cycle control machineries since survivin was inhibited while p21/Waf1 and p27Kip1 were upregulated in the cancer cells with defective BRCA1. The treatment with cuc.