The reaction of curcumin-hydrazine and its effect on bone marrow mesenchymal stem cells

Salahvarzi, Sabah; Mohammadpour, Keyhan; Dadgar, Zeynab

doi:10.26655/AJNANOMAT.2021.3.7

Document Type : Original Article

Authors

¹ Department of Chemistry, Faculty of Science, Khorramabad Branch, Islamic Azad University, Khorramabad, Iran

² Department of biology, Faculty of Science, Arak University, Arak, Iran

https://doi.org/10.26655/AJNANOMAT.2021.3.7

Abstract

In this work, the interaction between curcumin and hydrazine was studied in three different conditions: In the presence of ultrasonic waves, in the absence of ultrasonic waves, and while refluxing and the effects of the produced materials on the livability of bone marrow mesenchymal stem cells were investigated. Various methods including FT-IR, ¹H NMR and ¹³C NMR were utilized to characterize the material. The results revealed that cell treatments with 40 μM dose of all three samples after 24 h were caused to the more biological ability of rat bone marrow mesenchymal stem cells (MSCs). This indicated that these compounds (curcumin-hydrazine) are effective in the livability of bone marrow mesenchymal stem cells (MSCs).

Graphical Abstract

Keywords

Main Subjects

Organic Chemistry

References

[1]. Sabatino S.A., Lawrence B., Elder R., Mercer S.L., Wilson K.M., DeVinney B., Melillo S., Carvalho M., Taplin S., Bastani R., Rimer B.K., Vernon S.W., Melvin C.L., Taylor V., Fernandez M., Glanz K. Am J Prev Med., 2012, 43:97

[2]. Pulido-Moran M., Moreno-Fernandez J., Ramirez-Tortosa C., Ramirez-Tortosa M. Molecules, 2016, 21:264

[3]. Wang Y.J., Pan M.H., Cheng A.L., Lin L.I., Ho Y.S., Hsieh C.Y., Lin J.K. J Pharm Biomed Anal., 1997, 15:1867

[4]. Kocaadam B., Sanlier N. Crit Rev Food Sci Nutr, 2017, 57:2889

[5]. Pulido-Moran M., Moreno-Fernandez J., Ramirez-Tortosa C., Ramirez-Tortosa M. Molecules, 2016, 21:264

[6]. Tsai Y.M., Chien C.F., Lin L.C., Tsai T.H. Int J Pharm, 2011, 416:331

[7]. Esmaily H., Sahebkar A., Iranshahi M., Ganjali S., Mohammadi A., Ferns G., Ghayour-Mobarhan M. Chin J Integr Med, 2015, 21:332

[8]. Maheshwari R.K., Singh A.K., Gaddipati J., Srimal R.C. Life Sci, 2006, 78:208

[9]. Goel A., Aggarwal B.B. Nutr Cancer, 2010, 62:919

[10]. Gupta S.C., Patchva S., Aggarwal B.B. AAPS J., 2013, 15:195

[11]. Sharma R.A., Gescher A.J., Steward W.P. Eur J Cancer, 2005, 41:1955

[12]. Perrone D., Ardito F., Giannatempo G., Dioguardi M., Troiano G., Lo Russo L., Lillo A.D., Laino L., Lo Muzio L. Exp Ther Med., 2015, 10:1615

[13]. Joe B., Vijaykumar M., Lokesh B.R. Crit Rev Food Sci Nutr, 2004, 44:97

[14]. Rachmawati H., Al Shaal L., Muller R.H., Keck C.M. J Pharm Sci, 2013, 102:204

[15]. Wang Y.J., Pan M.H., Cheng A.L., Lin L.I., Ho Y.S., Hsieh C.Y., Lin J.K. J Pharm Biomed Anal, 1997, 15:1867

[16]. Joe B., Vijaykumar M., Lokesh B.R. Crit Rev Food Sci Nutr., 2004, 44:97

[17]. Menon V.P., Sudheer A.R. Adv Exp Med Biol, 2007, 595:105

[18]. Trujillo J., Chirino Y.I., Molina-Jijon E., Anderica-Romero A.C., Tapia E., Pedraza-Chaverri J. Redox Biol., 2013, 1:448

[19]. Goel A., Aggarwal B.B. Nutr Cancer, 2010, 62:919

[20]. Panda A.K., Chakraborty D., Sarkar I., Khan T., Sa G. J Exp Pharmacol, 2017, 9:31

[21]. Panahi Y., Hosseini M.S., Khalili N., Naimi E., Simental-Mendia L.E., Majeed M., Sahebkar A. Biomed Pharmacother, 2016, 82:578

[22]. McFarlin B.K., Venable A.S., Henning A.L., Sampson J.N., Pennel K., Vingren J.L., Hill D.W. BBA Clin., 2016, 5:72

[23]. Kuptniratsaikul V., Dajpratham P., Taechaarpornkul W., Buntragulpoontawee M., Lukkanapichonchut P., Chootip C., Saengsuwan J., Tantayakom K., Laongpech S. Clin Interv Aging., 2014, 9:451

[24]. Drobnic F., Riera J., Appendino G., Togni S., Franceschi F., Valle X., Pons A., Tur J. J Int Soc Sports Nutr., 2014, 11:31

[25]. Kunnumakkara A.B., Bordoloi D., Harsha C., Banik K, Gupta S.C., Aggarwal B.B. Clin Sci (Lond)., 2017, 131:1781

[26]. Vera-Ramirez L., Perez-Lopez P., Varela-Lopez A., Ramirez-Tortosa M., Battino M., Quiles J.L. Biofactors, 2013, 39:88

[27]. Hamzehzadeh L., Atkin S.L., Majeed M., Butler A.E., Sahebkar A. J Cell Physiol., 2018, 233:6530

[28]. Kanai M. World J Gastroenterol, 2014, 20:9384

[29]. Das R.K., Kasoju N., Bora U. Nanomedicine, 2010, 6:153

[30]. Yallapu M.M., Jaggi M., Chauhan S.C. Drug Discov Today, 2012, 17:71

[31]. Mazzolani F., Togni S. Clin Ophthalmol., 2013, 7:939

[32]. Abderrezak A., Bourassa P., Mandeville J.S., Sedaghat-Herati R., Tajmir-Riahi H.A. PLoS One, 2012, 7:33102

[33]. Danafar H., Davaran S., Rostamizadeh K., Valizadeh H., Hamidi M. Adv Pharm Bull., 2014, 4:501

[34]. Gamage N.H., Jing L., Worsham M.J., Ali M.M. J Nanomed Nanotechnol, 2016, 7:393

[35]. Kaur A., Jain K., Mehra N.K., Jain N.K. Artif Cells Nanomed Biotechnol, 2017, 45:414

[36]. Liang G., Yang S., Zhou H., Shao L., Huang K., Xiao J., Huang Z., Li X. Eur. J. Med. Chem., 2009, 44:915

[37]. Liao L., Shi J., Jiang C., Zhang L., Feng L., Liu J., Zhang J. Neurochem. Int., 2019, 125:82

[38]. Ansari A., Ali A., Asif M., Shamsuzzaman S. New J. Chem., 2017, 41:16

[39]. Rajasekhar Reddy A., Dinesh P., Prabhakar A.S., Umasankar K., Shireesha B., Raju M. B. Med. Chem., 2013, 13:1769

[40]. Jankun J., Wyganowska-Swi´ ątkowska M., Dettlaff K., Jelinska A., Surdacka A., Wątrobska-´ Swietlikowska D., Skrzypczak-Jankun E. Int. J. Mol. Med., 2016, 37:1151

[41]. Mohammadpour K., Salahvarzi S., Dadgar Z. Asian Journal of Nanoscience and Materials, 2020, 3:340

The reaction of curcumin-hydrazine and its effect on bone marrow mesenchymal stem cells

References

References

Volume 4, Issue 3July 2021Pages 246-254

Volume 4, Issue 3
July 2021
Pages 246-254