Generic placeholder image

Anti-Cancer Agents in Medicinal Chemistry

Editor-in-Chief

ISSN (Print): 1871-5206
ISSN (Online): 1875-5992

Research Article

Anti-Diarrheal Drug Repositioning in Tumour Cell Cytotoxicity

Author(s): Jihene Elloumi-Mseddi, Dhouha Msalbi, Raouia Fakhfakh and Sami Aifa*

Volume 19, Issue 8, 2019

Page: [1037 - 1047] Pages: 11

DOI: 10.2174/1871520619666190118120030

Price: $65

Abstract

Background: Drug repositioning is becoming an ideal strategy to select new anticancer drugs. In particular, drugs treating the side effects of chemotherapy are the best candidates.

Objective: In this present work, we undertook the evaluation of anti-tumour activity of two anti-diarrheal drugs (nifuroxazide and rifaximin).

Methods: Anti-proliferative effect against breast cancer cells (MDA-MB-231, MCF-7 and T47D) was assessed by MTT analysis, the Brdu incorporation, mitochondrial permeability and caspase-3 activity.

Results: Both the drugs displayed cytotoxic effects on MCF-7, T47D and MDA-MB-231 cells. The lowest IC50 values were obtained on MCF-7 cells after 24, 48 and 72 hours of treatment while T47D and MDA-MB-231 were more resistant. The IC50 values on T47D and MDA-MB-231 cells became significantly low after 72 hours of treatment showing a late cytotoxicity effect especially of nifuroxazide but still less important than that of MCF-7 cells. According to the IC50 values, the non-tumour cell line HEK293 seems to be less sensitive to cytotoxicity especially against rifaximin. Both the drugs have shown an accumulation of rhodamine 123 as a function of the rise of their concentrations while the Brdu incorporation decreased. Despite the absence of a significant difference in the cell cycle between the treated and non-treated MCF-7 cells, the caspase-3 activity increased with the drug concentrations rise suggesting an apoptotic effect.

Conclusion: Nifuroxazide and rifaximin are used to overcome the diarrheal side effect of anticancer drugs. However, they have shown to be anti-tumour drugs which make them potential dual effective drugs against cancer and the side effects of chemotherapy.

Keywords: Nifuroxazide, rifaximin, breast cancer, cytotoxicity, diarrhea, drug repositioning.

Graphical Abstract

[1]
Orlando, L.; Giotta, F.; Lorusso, V.; De Vita, F.; Filippelli, G.; Maiello, E.; Riccardi, F.; Pappagallo, G.L.; Fedele, P.; Gebbia, N.; Verderame, F.; Barni, S.; Blasi, L.; Pisconti, S.; Colucci, G.; Cinieri, S. Biweekly combination of trastuzumab, docetaxel and gemcitabine for HER2-positive metastatic breast cancer: Results of a Phase II GOIM study. Future Oncol., 2014, 10(5), 725-733.
[2]
Krop, I.E.; Kim, S.B.; González-Martín, A.; Lorusso, P.M.; Ferrero, J.M.; Smitt, M.; Yu, R.; Leung, A.C.; Wildiers, H. TH3RESA study collaborators. Trastuzumab emtansine versus treatment of physician’s choice for pretreated HER2-positive advanced breast cancer (TH3RESA): A randomised, open-label, phase 3 trial. Lancet Oncol., 2014, 15(7), 689-699.
[3]
Láng, I.; Bell, R.; Feng, F.Y.; Lopez, R.I.; Jassem, J.; Semiglazov, V.; Al-Sakaff, N.; Heinzmann, D.; Chang, J. Trastuzumab retreatment after relapse on adjuvant trastuzumab therapy for human epidermal growth factor receptor 2-positive breast cancer: Final results of the retreatment after herceptin adjuvant trial. Clin. Oncol., 2014, 26(2), 81-89.
[4]
Blumenthal, G.M.; Scher, N.S.; Cortazar, P.; Chattopadhyay, S.; Tang, S.; Song, P.; Liu, Q.; Ringgold, K.; Pilaro, A.M.; Tilley, A.; King, K.E.; Graham, L.; Rellahan, B.L.; Weinberg, W.C.; Chi, B.; Thomas, C.; Hughes, P.; Ibrahim, A.; Justice, R.; Pazdur, R. First FDA approval of dual anti-HER2 regimen: pertuzumab in combination with trastuzumab and docetaxel for HER2-positive metastatic breast cancer. Clin. Cancer Res., 2013, 19(18), 4911-4916.
[5]
Scarpignato, C.; Rampal, P. Prevention and treatment of traveler’s diarrhea: A clinical pharmacological approach. Chemotherapy, 1995, 41(Suppl. 1), 48-81.
[6]
Leonard, F.; Andremont, A.; Tancrede, C. In vivo activity of nifurzide and nifuroxazide in intestinal bacteria in man and gnotobioticmice. J. Appl. Bacteriol., 1985, 58(6), 545-553.
[7]
Duffour, J.; Gourgou, S.; Seitz, J.F.; Senesse, P.; Boutet, O.; Castera, D.; Kramar, A.; Ychou, M. Efficacy of prophylactic anti-diarrhoeal treatment in patients receiving Campto for advanced colorectal cancer. Anticancer Res., 2002, 22(6B), 3727-3731.
[8]
Koo, H.L.; DuPont, H.L. Rifaximin: A unique gastrointestinal-selective antibiotic for enteric diseases. Curr. Opin. Gastroenterol., 2010, 26(1), 17-25.
[9]
Laustsen, G.; Wimmett, L. 2004 drug approval highlights: FDA update. Nurse Pract., 2005, 30(2), 14-29.
[10]
Ritter, A.S.; Petri, W.A., Jr New developments in chemotherapeutic options for Clostridium Difficile colitis. Curr. Opin. Infect. Dis., 2013, 26(5), 461-470.
[11]
Park, B.J.; Lee, Y.J.; Lee, H.R. Chronic liver inflammation: Clinical implications beyond alcoholic liver disease. World J. Gastroenterol., 2014, 20(9), 2168-2175.
[12]
Qayed, M.; Langston, A.; Chiang, K.Y.; August, K.; Hilinski, J.A.; Cole, C.R.; Rogatko, A.; Bostick, R.M.; Horan, J.T. Rifaximin for preventing acute graft-versus-host disease: Impact on plasma markers of inflammation and T-cellactivation. J. Pediatr. Hematol. Oncol., 2013, 35(4), e149-e152.
[13]
Day, A.S.; Gearry, R.B. Rifaximin and Crohn’s disease: A new solution to an old problem? Dig. Dis. Sci., 2010, 55(4), 877-879.
[14]
Muniyappa, P.; Gulati, R.; Mohr, F.; Hupertz, V. Use and safety of rifaximin in children with inflammatory bowel disease. J. Pediatr. Gastroenterol. Nutr., 2009, 49(4), 400-404.
[15]
Trehan, I.; Shulman, R.J.; Ou, C.N.; Maleta, K.; Manary, M.J. A randomized, double-blind, placebo-controlled trial of rifaximin, a non-absorbable antibiotic, in the treatment of tropical enteropathy. Am. J. Gastroenterol., 2009, 104(9), 2326-2333.
[16]
Cheng, J.; Shah, Y.M.; Ma, X.; Pang, X.; Tanaka, T.; Kodama, T.; Krausz, K.W.; Gonzalez, F.J. Therapeuticrole of rifaximin in inflammatory bowel disease: Clinical implication of human pregnane X receptoractivation. J. Pharmacol. Exp. Ther., 2010, 335(1), 32-41.
[17]
Shafran, I.; Burgunder, P. Adjunctive antibiotic therapy with rifaximin may help reduce Crohn’s disease ctivity. Dig. Dis. Sci., 2010, 55(4), 1079-1084.
[18]
Deng, L.; Liu, Y.; Zhang, D.; Li, Y.; Xu, L. Prevalence and treatment of small intestinal bacterial over growth in postoperative patients with colorectal cancer. Mol. Clin. Oncol., 2016, 4(5), 883-887.
[19]
Almeida, S.; Ryser, S.; Obarzanek-Fojt, M.; Hohl, D.; Huber, M. The TRAF-interacting protein (TRIP) is a regulator of keratinocyte proliferation. J. Invest. Dermatol., 2011, 131(2), 349-357.
[20]
Ohnuma, T.; Holland, J.F. Nutritional consequences of cancer chemotherapy and immunotherapy. Cancer Res., 1977, 37(7 Pt 2), 2395-2406.
[21]
Nelson, E.A.; Walker, S.R.; Kepich, A.; Gashin, L.B.; Hideshima, T.; Ikeda, H.; Chauhan, D.; Anderson, K.C.; Frank, D.A. Nifuroxazide inhibits survival of multiple myeloma cells by directly inhibiting STAT3. Blood, 2008, 112(13), 5095-5102.
[22]
Ye, T.H.; Yang, F.F.; Zhu, Y.X.; Li, Y.L.; Lei, Q.; Song, X.J.; Xia, Y.; Xiong, Y.; Zhang, L.D.; Wang, N.Y.; Zhao, L.F.; Gou, H.F.; Xie, Y.M.; Yang, S.Y.; Yu, L.T.; Yang, L.; Wei, Y.Q. Inhibition of Stat3 signaling pathway by nifuroxazide improves antitumor immunity and impairs colorectal carcinoma metastasis. Cell Death Dis., 2017, 8(1), e2534.
[23]
Yang, F.; Hum, M.; Lei, Q.; Xia, Y.; Zhu, Y.; Song, X.; Li, Y.; Jie, H.; Liu, C.; Xiong, Y.; Zuo, Z.; Zeng, A.; Li, Y.; Yu, L.; Shen, G.; Wang, D.; Xie, Y.; Ye, T.; Wei, Y. Nifuroxazide induces apoptosis and impairs pulmonary metastasis in breast cancer model. Cell Death Dis., 2015, 26, 6.
[24]
Mooney, L.M.; Al-Sakkaf, K.A.; Brown, B.L.; Dobson, P.R. Apoptotic mechanisms in T47D and MCF-7 human breast cancer cells. Br. J. Cancer, 2002, 87(8), 909-917.
[25]
Kamel, A.M.; El-Sharkawy, N.; Yassin, D.; Shaaban, K.; Hussein, H.; Sidhom, I.; Abo, E.; Naga, S.; Ameen, M.; El-Hattab, O.; Aly El-Din, N.H. P-gp expression and Rh 123 efflux assay have no impact on survival in Egyptian pediatric acute lymphoblastic leukemia patients. J. Egypt. Natl. Canc. Inst., 2005, 17(3), 165-172.
[26]
Zhu, Y.; Ye, T.; Yu, X.; Lei, Q.; Yang, F.; Xia, Y.; Song, X.; Liu, L.; Deng, H.; Gao, T.; Peng, C.; Zuo, W.; Xiong, Y.; Zhang, L.; Wang, N.; Zhao, L.; Xie, Y.; Yu, L.; Wei, Y. Nifuroxazide exerts potent anti-tumor and anti-metastasis activity in melanoma. Sci. Rep., 2016, 6, 20253.
[27]
Soyano, A.E.; Reynolds, G.; Moreno-Aspitia, A.; Chumsri, S. Rifaximin for Pertuzumab-Related GI Toxicities. Front. Oncol., 2017, 7, 168.
[28]
Esposito, G.; Gigli, S.; Seguella, L.; Nobile, N.; D’Alessandro, A.; Pesce, M.; Capoccia, E.; Steardo, L.; Cirillo, C.; Cuomo, R.; Sarnelli, G. Rifaximin, a non-absorbable antibiotic, inhibits the release of pro-angiogenic mediators in colon cancer cells through a pregnane X receptor-dependent pathway. Int. J. Oncol., 2016, 49(2), 639-645.

Rights & Permissions Print Cite
© 2024 Bentham Science Publishers | Privacy Policy