Abstract
In this current work, gold nanoparticles (AuNPs) were used to attenuate the brain dysfunction in experimental model of diabetes. Microwave radiation technique was utilized in the production of AuNPs. Afterward, 40 male albino rats were consumed in this study and divided into five groups: control, diabetic, diabetic administered only dextran, diabetic administered AuNPs in a dose of 1 mg/kg body weight in aqueous solution/day, and diabetic administered AuNPs in a dose of 2 mg/kg body weight in aqueous solution/day. In addition, brain neurotransmitters and cholinesterase activity were also evaluated. Results: In diabetic group, diabetes complications were appeared in elevation of oxidative stress parameters and pro inflammatory markers, in addition to disturbances of neurotransmitters as well as cholinesterase activity, however in treated groups, AuNPs significantly controlled all these hazardous induced by induction of diabetes. In conclusion, AuNPs appeared as a promising agent, that has the ability to augment neuronal damage and brain dysfunction appeared during diabetes mellitus. Additionally, the high dose (2 mg/kg body weight) appeared more potent than the lower dose (1 mg/kg body weight) in attenuating diabetic complications during experimental diabetes.
Similar content being viewed by others
References
M. T. Rahimi, E. Ahmadpour, B. R. Esboei, A. Spotin, M. H. K. Koshki, A. Alizadeh, S. Honary, H. Barabadi, and M. A. Mohammadi (2015). Int. J. Surg. 19, 128.
H. Barabadi, B. Tajani, M. Moradi, K. D. Kamali, R. Meena, S. Honary, M. A. Mahjoub, and M. Saravanan (2019). J. Clust. Sci. 1.
T. Sugiura, Y. Ariyoshi, S. Negoro, S. Nakamura, H. Ikegami, M. Takada, T. Yana, and M. Fukuoka (2005). Investig. New Drugs. 23, 331.
V. Varadharaj, A. Ramaswamy, R. Sakthivel, R. Subbaiya, H. Barabadi, M. Chandrasekaran, and M. Saravanan (2019). J. Clust. Sci. 1.
H. Barabadi, M. Ovais, Z. K. Shinwari, and M. Saravanan (2017). Green Chem. Lett. Rev. 10, 285.
R. Subbaiya, M. Saravanan, A. R. Priya, K. R. Shankar, M. Selvam, M. Ovais, R. Balajee, and H. Barabadi (2017). IET Nanobiotechnol. 11, 965.
P. Boomi, G. P. Poorani, S. Palanisamy, S. Selvam, G. Ramanathan, S. Ravikumar, H. Barabadi, H. G. Prabu, J. Jeyakanthan, and M. Saravanan (2019). J. Clust. Sci. 30, 715.
H. Barabadi, Z. Alizadeh, M. T. Rahimi, A. Barac, A. E. Maraolo, L. J. Robertson, A. Masjedi, F. Shahrivar, and E. Ahmadpour (2019). Nanomed. Nanotechnol. Biol. Med. 18, 221.
H. Barabadi, M. Najafi, H. Samadian, A. Azarnezhad, H. Vahidi, M. A. Mahjoub, M. Koohiyan, and A. Ahmadi (2019). Medicina. 55, 439.
M. Kasithevar, M. Saravanan, P. Prakash, H. Kumar, M. Ovais, H. Barabadi, and Z. K. Shinwari (2017). J. Interdiscip. Nanomedicine. 2, 131.
A. Khatua, E. Priyadarshini, P. Rajamani, A. Patel, J. Kumar, A. Naik, M. Saravanan, H. Barabadi, A. Prasad, and B. Paul (2020). J. Clust. Sci. 31, 125.
M. Ponnanikajamideen, S. Rajeshkumar, M. Vanaja, and G. Annadurai (2019). Can. J. Diabetes. 43, 82.
T. I. Shaheen, M. E. El-Naggar, J. S. Hussein, M. El-Bana, E. Emara, Z. El-Khayat, M. M. Fouda, H. Ebaid, and A. Hebeish (2016). Biomed. Pharmacother. 83, 865.
J. K. Patra, G. Das, L. F. Fraceto, E. V. R. Campos, M. del Pilar Rodriguez-Torres, L. S. Acosta-Torres, L. A. Diaz-Torres, R. Grillo, M. K. Swamy, and S. Sharma (2018). J. Nanobiotechnol. 16, 71.
P. Khandel, R. K. Yadaw, D. K. Soni, L. Kanwar, and S. K. Shahi (2018). J. Nanostruct. Chem. 8, 217.
H. E. Emam, N. S. El-Hawary, and H. B. Ahmed (2017). Int. J. Biol. Macromol. 96, 697.
R. M. Ganesan, and H. G. Prabu (2015). Arab. J. Chem.
B. Tang, L. Sun, J. Kaur, Y. Yu, and X. Wang (2014). Dye. Pigment. 103, 183.
K. Shoueir, S. Kandil, H. El-hosainy, and M. El-Kemary (2019). J. Clean. Prod. 230, 383.
A. García, L. Delgado, J. A. Torà, E. Casals, E. González, V. Puntes, X. Font, J. Carrera, and A. Sánchez (2012). J. Hazard. Mater. 199, 64.
A. K. Khan, R. Rashid, G. Murtaza, and A. Zahra (2014). Trop. J. Pharm. Res. 13, 1169.
M. Ganeshkumar, M. Sathishkumar, T. Ponrasu, M. G. Dinesh, and L. Suguna (2013). Colloids Surf. B Biointerfaces. 106, 208.
H. Barabadi, O. Hosseini, K.D. Kamali, F.J. Shoushtari, M. Rashedi, H. Haghi-Aminjan, and M. Saravanan. J. Clust. Sci. 1.
H. Barabadi, H. Vahidi, K.D. Kamali, M. Rashedi, O. Hosseini, A.R.G. Ghomi, and M. Saravanan (2019). J. Clust. Sci. 1.
H. Barabadi, H. Vahidi, M. A. Mahjoub, Z. Kosar, K. D. Kamali, K. Ponmurugan, O. Hosseini, M. Rashedi, and M. Saravanan (2019). J. Clust. Sci. 1.
A. Khatua, A. Prasad, E. Priyadarshini, A.K. Patel, A. Naik, M. Saravanan, H. Barabadi, B. Paul, R. Paulraj, and R. Meena (2019). J. Clust. Sci. 1.
C. Malarkodi, S. Rajeshkumar, and G. Annadurai (2017). Food Control. 80, 11.
V. Karthick, V. G. Kumar, T. S. Dhas, G. Singaravelu, A. M. Sadiq, and K. Govindaraju (2014). Colloids Surf. B Biointerfaces. 122, 505.
M. Vairavel, E. Devaraj, and R. Shanmugam (2020). Environ. Sci. Pollut. Res. 1.
S. Rajeshkumar (2016). J. Genet. Eng. Biotechnol. 14, 195.
A. Sazgarnia, A. R. Taheri, S. Soudmand, A. J. Parizi, O. Rajabi, and M. S. Darbandi (2013). Int. J. Hyperth. 29, 79.
R. K. Das, P. J. Babu, N. Gogoi, P. Sharma, and U. Bora (2012). ISRN Nanomater. 2012.
N. V. K. Thanh, N. D. Giang, L. Q. Vinh, and H. T. Dat (2014). Commun. Phys. 24, 146.
D. Hebbalalu, J. Lalley, M. N. Nadagouda, and R. S. Varma (2013). ACS Sustain. Chem. Eng. 1, 703.
H. Peng, A. Yang, and J. Xiong (2013). Carbohydr. Polym. 91, 348.
R. Singh and J. W. Lillard Jr. (2009). Exp. Mol. Pathol. 86, 215.
A. B. Seabra and N. Durán (2015). Metals 5, 934.
J. Hussein, M. El-Bana, E. Refaat, and M.E. El-Naggar (2017). J. Funct. Foods. 37.
S. Pugazhenthi, L. Qin, and P. H. Reddy (2017). Biochim. Biophys. Acta Mol. Basis Dis. 1863, 1037.
S. E. Arnold, Z. Arvanitakis, S. L. Macauley-Rambach, A. M. Koenig, H.-Y. Wang, R. S. Ahima, S. Craft, S. Gandy, C. Buettner, and L. E. Stoeckel (2018). Nat. Rev. Neurol. 14, 168.
J. Sripetchwandee, N. Chattipakorn, and S. C. Chattipakorn (2018). Front. Endocrinol. 9, 496.
D. A. Di Butterfield, F. Domenico, and E. Barone (2014). Biochim. Biophys. Acta Mol. Basis Dis. 1842, 1693.
H. G. Hegazy, E. H. A. Ali, and A. H. M. Elgoly (2015). Cytokine. 71, 173.
S. Uchiyama and M. Yamaguchi (2003). Int. J. Mol. Med. 12, 949.
J. Hussein, E. Refaat, S. Morsy, D. Medhat, and F. Oraby (2013). J. Appl. Pharm. Sci. 3, 124.
D. Medhat, H. A. El-mezayen, M. E. El-Naggar, A. R. Farrag, M. E. Abdelgawad, J. Hussein, and M. H. Kamal (2019). Mol. Biol. Rep. 1.
P. Trinder (1969). Ann. Clin. Biochem. 6, 24.
S. A. Berson and R. S. Yalow (1961). Am. J. Med. 31, 874.
G. L. Ellman, K. D. Courtney, V. Andres Jr., and R. M. Featherstone (1961). Biochem. Pharmacol. 7, 88.
M. Nishikimi, N. A. Rao, and K. Yagi (1972). Biochem. Biophys. Res. Commun. 46, 849.
E. Beutler, O. Duron, and B. M. Kelly (1963). J. Lab. Clin. Med. 61, 882.
L. Ferreira, E. Teixeira-de-Lemos, F. Pinto, B. Parada, C. Mega, H. Vala, R. Pinto, P. Garrido, J. Sereno, and R. Fernandes (2010). Mediators Inflamm. 2010.
S. Vallejo, E. Palacios, T. Romacho, L. Villalobos, C. Peiró, and C. F. Sánchez-Ferrer (2014). Cardiovasc. Diabetol. 13, 158.
A. El-Hussein, M. Harith, and H. Abrahamse (2012). Int. J. Photoenergy. 2012.
M. E. El-Naggar, T. I. Shaheen, M. M. G. Fouda, and A. A. Hebeish (2016) Carbohydr. Polym. 136.
X. Ke, S. Sarina, J. Zhao, X. Zhang, J. Chang, and H. Zhu (2012). Chem. Commun. 48, 3509.
S. Ganguly, P. Das, M. Bose, T. K. Das, S. Mondal, A. K. Das, and N. C. Das (2017). Ultrason. Sonochem. 39, 577.
J. J. M. Hoozemans, J. M. Van Rozemuller, E. S. Haastert, R. Veerhuis, and P. Eikelenboom (2008). Curr. Pharm. Des. 14, 1419.
J. S. Hussein, W. Rasheed, T. Ramzy, M. Nabeeh, M. Harvy, S. El-Toukhy, O. Ali, J. Raafat, and M. El-Naggar (2019). Hum. Exp. Toxicol. 38, 962.
J. Wang, Y. Chen, W. Zhang, G. Zheng, S. Meng, H. Che, T. Ke, J. Yang, J. Chen, and W. Luo (2013). Int. J. Biol. Sci. 9, 509.
M. E. El-Naggar, F. Al-Joufi, M. Anwar, M. F. Attia, and M. A. El-Bana (2019). Colloids Surf. B Biointerfaces. 177, 389.
T. Vlahogianni, M. Dassenakis, M. J. Scoullos, and A. Valavanidis (2007). Mar. Pollut. Bull. 54, 1361.
S. Samarghandian, T. Farkhondeh, F. Samini, and A. Borji (2016). Biochem. Res. Int. 2016.
Acknowledgements
This research was funded by the Deanship of Scientific Research at Princess Nourah bint Abdulrahman University through the Fast-track Research Funding Program.
Author information
Authors and Affiliations
Corresponding authors
Ethics declarations
Conflict of Interest
Authors declare no conflict of interest.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Hussein, J., El-Naggar, M.E., Fouda, M.M.G. et al. Eco-friendly Microwave Synthesis of Gold Nanoparticles for Attenuation of Brain Dysfunction in Diabetic Rats. J Clust Sci 32, 423–435 (2021). https://doi.org/10.1007/s10876-020-01801-y
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10876-020-01801-y