Quercetin Improves the Endocrine Function of Rat Testicular Tissue Under in Vitro Conditions

Abdel Aziz R.L., Abdel-Wahab A., Abo El-Ela F.I., Hassan N.E.Y., El-Nahass E., Ibrahim M.A., Khalil A.A.Y. (2018): Dose-dependent ameliorative effects of quercetin and L-Carnitine against atrazine induced reproductive toxicity in adult male Albino rats. Biomedicine & Pharmacotherapy, 102: 855-864.10.1016/j.biopha.2018.03.13629710542 Search in Google Scholar

Ahmed Z.A., Abtar A.N., Othman H.H., Aziz T.A. (2019): Effects of quercetin, sitagliptin alone or in combination in testicular toxicity induced by doxorubicin in rats. Drug Design, Development and Therapy, 13: 3321-3329.10.2147/DDDT.S222127675979831571833 Search in Google Scholar

Baltaci B.B., Uygur R., Caglar V., Aktas C., Aydin M., Ozen O.A. (2016): Protective Effects of quercetin Against Arsenic-Induced Testicular Damage in Rats. Andrologia, 48: 1202-1213.10.1111/and.1256126992476 Search in Google Scholar

Cornier M., Ghouili F., Roumaud P., Martin L.J., Touaibia M. (2017): Influence of flavonols and quercetin derivate compounds on MA-10 Leydig cells steroidogenic genes expressions. Toxicology in vitro, 44: 111-121.10.1016/j.tiv.2017.06.02728668616 Search in Google Scholar

Dimakopoulou A., Jayasena C.N., Radia U.K., Algefari M., Minhas S., Oliver N., Dhillo W.S. (2019): Animals Models of Diabetes-Related Male Hypogonadism. Frontiers in Endocrinology, 10: 628.10.3389/fendo.2019.00628675952131620084 Search in Google Scholar

El Mazoudy R., Mohamed N.A., El Massry A.A., Abdelsadek F.R. (2015): Quercetin Impairs the Reproductive Potential of Neonatal Male Rats. International journal of Pharmaceutical Sciences Review and Research, 31(2): 31-39. Search in Google Scholar

Flück C.E. & Pandey A.V. (2017): Endocrinology of the Testis and Male Reproduction. Springer, Cham. Switzerland. Search in Google Scholar

Gao F., Li G., Liu C., Gao H., Wang H., Liu W., Chen M., Shang Y., Wang L., Shi J., Xia W., Jiao J., Gao F., Li J., Chen L., Li W. (2018): Autophagy regulates testosterone synthesis by facilitating cholesterol uptake in Leydig cells. Journal of Cell biology, 217(6): 2103-2119.10.1083/jcb.201710078598772329618492 Search in Google Scholar

Jahan S., Iftikhar N., Ullah H., Rukh G., Hussain I. (2015): Alleviative effect of quercetin on rat testis against arsenic: a histological and biochemical study. Systems Biology in Reproductive Medicine, 61(2): 89-95.10.3109/19396368.2014.99835025539033 Search in Google Scholar

Jahan S., Ul Ain Q., Ullah H. (2016): Therapeutic effects of quercetin against bisphenol A induced testicular damage in male Sprague Dawley rats. Systems Biology in reproductive Medicine, 62(2): 114-124.10.3109/19396368.2015.111513926787223 Search in Google Scholar

Jambor T., Tvrdá E., Tušimová E., Kováčik A., Bistáková J., Forgács Z., Lukáč N. (2017): In vitro effect of 4-nonylphenol on human chorionic gonadotropin (hCG) stimulated hormone secretion, cell viability and reactive oxygen species generation in mice. Environmental Pollution, 222: 219-225.10.1016/j.envpol.2016.12.05328104344 Search in Google Scholar

Jenkinson C., Petroczi A., Naughton D.P. (2012): Red wine and component flavonoids inhibit UGT2B17 in vitro. Nutrition Journal, 11: 67.10.1186/1475-2891-11-67349570622958586 Search in Google Scholar

Khaki A., Fathiazad F., Nouri M., Khaki A.A., Maleki N.A., Khamnei H.J., Ahmadi P. (2010): Beneficial Effects of Quercetin on Sperm Parameters in Streptozotocin-Induced Diabetic Male Rats, Phytotherapy Research, 24(9): 1285-1291.10.1002/ptr.3100 Search in Google Scholar

Li Y., Yao J., Han C., Yang J., Tabassum Chaudhry M., Wang S., Liu H., Yin Y. (2016): Quercetin, inflammation and Immunity. Nutrients, 8(3): 167. Search in Google Scholar

Martin L.J. & Touaibia M. (2020): Improvement of Testicular Steroidogenesis Using Flavonoids and Isoflavonoids for Prevention of Late-Onset Male Hypogonadism. Antioxidants, 9(3): 237. Search in Google Scholar

Miller W.L. & Auchus R.J. (2011): The Molecular Biology, Biochemistry, and Physiology of Human Steroidogenesis and Its Disorders. Endocrine Reviews, 32(1): 81-151.10.1210/er.2010-0013 Search in Google Scholar

Nassar G.N., Raudales F., Leslie S.W. (2018): Physiology, Testosterone. StatPearls Publishing, Treasure Island (FL). Search in Google Scholar

Osawe S.O. & Farombi E.O. (2018): Quercetin and rutin ameliorates sulphasalazine-induced spermiotoxicity, alternations in reproductive hormones and steroidogenic enzyme imbalance in rats. Andrologia, 50(5): e12981. Search in Google Scholar

Padma V.V., Lalitka G., Shirony N.P., Baskaran R. (2012): Effect of quercetin against lindane induced alterations in the serum and hepatic tissue lipids in wistar rats. Asian Pacific Journal of Tropical Biomedicine, 2(11): 910-915.10.1016/S2221-1691(12)60252-4 Search in Google Scholar

Ujah G.A., Nna V.U., Agah M.I., Omue L.O., Leku C.B., Osim E.E. (2017): Effect of quercetin on cadmium chloride-induced impairments in sexual behaviour and steroidogenesis in male Wistar rats. Andrologia, 50(2): e12866. Search in Google Scholar

Winters S.J. (2020): Comprehensive free online Endocrinology Book. MDText Inc, South Dartmouth (MA). Search in Google Scholar