Abstract
The study evaluated the effects of berberine on sexual activity and crucial biomolecules linked to penile function in diabetic rats. Sixty-three (63) adult male rats were used and divided into nine groups (n = 7). Group I received 0.1 M citrate buffer at pH 4.5 orally as normal control. Group II received 5.0 mg/kg sildenafil citrate orally. Groups III and IV rats received 50.0 mg/kg and 100.0 mg/kg of berberine orally, respectively. Group V rats were induced with STZ intraperitonially (50 mg/kg b.w.t.) (diabetic control rats). Group VI diabetic erectile dysfunctional (DED) rats received sildenafil citrate orally. Groups VII and VIII DED rats received 50.0 or 100 mg/kg of berberine orally, respectively. Group IX DED rats received 25 mg/kg of acarbose. The result revealed that blood glucose level was reduced in diabetic groups treated with berberine, sildenafil citrate, and acarbose when compared to the diabetic control group. In addition, mounting and intromission numbers as well as antioxidant biomarkers/status were enhanced in normal rats as well as in berberine-treated diabetic rats when compared to diabetic control rat group. Conversely, α-amylase and α-glucosidase activities were significantly (P < 0.05) elevated in diabetic rat with erectile dysfunction in comparison to the normal rats and berberine-treated diabetic rats. In conclusion, berberine could represent a potential therapeutic agent for the treatment of diabetes-induced ED.
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References
Abougalambou SSI, Abougalambou AS (2013) A study evaluating prevalence of hypertension and risk factors affecting on blood pressure control among type 2 diabetes patients attending teaching hospital in Malaysia. Diabetes Metab Syndr Clin Res Rev 7(2):83–86
Adefegha SA, Oboh G, Adefegha OM, Boligon AA, Athayde ML (2014) Antihyperglycemic, hypolipidemic, hepatoprotective and antioxidative effects of dietary clove (Szyzgium aromaticum) bud powder in a high-fat diet/streptozotocin-induced diabetes rat model. J Sci Food Agric 94:2726–2737
Adefegha SA, Oyeleye SI, Oboh G (2018) African crocus (Curculigo pilosa) and wonderful kola (Buchholzia coriacea) seeds modulate critical enzymes relevant to erectile dysfunction and oxidative stress. J Compl Integrative Med. https://doi.org/10.1515/jcim-2016-0159
Agarwal A, Nandipati KC, Sharma RK, Zippe CD, Raina R (2006) Role of oxidative stress in the pathophysiological mechanism of erectile dysfunction. J Androl 27:335–347
Agmo A (1997) Male rat sexual behavior. Brain Res Protocol 1:203–209
Al-Roujayee A (2017) Improvement of sexual behavior, sperm quantity and quality by quercetin in streptozotocin-induced diabetic erectile dysfunction. Asian Pacific Journal Reproduction 6(1):6–12
Aniszewski T (2015) Alkaloids: chemistry, biology, ecology, and applications, 2nd edn. Elsevier, Amsterdam, pp 1–475
Apostolidis E, Kwon YI, Shetty K (2007) Inhibitory potential of herb, fruit, and fungal-enriched cheese against key enzymes linked to type 2 diabetes and hypertension. Innovative Food Sci Emerg Technol 8:46–54
Ballester J, Muñoz MC, Domínguez J, Rigau T, Guinovart JJ, Rodríguez-Gil JE (2004) Insulin-dependent diabetes affects testicular function by FSH- and LH-linked mechanisms. J Androl 25(5):706–719
Bharti SK, Krishnan S, Kumar A (2018) Antidiabetic phytoconstituents and their mode of action on metabolic pathways. Ther Advances Endocrinol Metabolism 9(3):81–100
Bivalacqua TJ, Usta MF, Champion HC, Kadowitz PJ, Hellstrom WJ (2003) Endothelial dysfunction in erectile dysfunction: role of the endothelium in erectile physiology and disease. J Androl 24(6):S17–S37
Burchardt T, Burchardt M, Karden J, Buttyan R, Shabsigh A, de la Taille A, Ng PY, Anastasiadis AG, Shabsigh R (2000) Reduction of endothelial and smooth muscle density in the corpora cavernosa of the streptozotocin induced diabetic rat. J Urol 164:1807–1811
Carpino A, Rago V, Guido C, Casaburi I, Aquila S (2010) Insulin and IR-β in pig spermatozoa: a role of the hormone in the acquisition of fertilizing ability. Int J Androl 33(3):554–562
Chang WG, Ming-Zhang WM, Meng Z, Yu Y, Yao F, Hatch GM, Li CL (2015) Berberine treatment prevents cardiac dysfunction and remodeling through activation of 5′-adenosine monophosphate-activated protein kinase in type 2 diabetic rats and in palmitate-induced hypertrophic H9c2 cells. Eur J Pharmacol 769:55–63
Chiou WF, Chen J, Chen CF (1998) Relaxation of corpus cavernosum and raised intracavernous pressure by berberine in rabbit. Brit J Pharmacol 125(8):1677–1684
Chueh WH, Lin JY (2011) Berberine, an isoquinoline alkaloid in herbal plants, protects pancreatic islets and serum lipids in non-obese diabetic mice. J Agric Food Chem 59:8021–8027
Chueh WH, Lin JY (2012) Protective effect of berberine on serum glucose levels in non-obese diabetic mice. Int J Immunopharmacol 12:534–538
Ellman GL (1959) Tissue sulfhydryl groups. Arch Biochem Biophys 82:70–77
Ferraz MMD, Quintella SL, Parcial ALN, Ferraz MR (2016) The effects of sildenafil after chronic L-NAME administration in male rat sexual behavior. Pharmacol Biochem Behav 146:13–20
Filippin LI, Vercelino R, Marroni NP, Xavier RM (2008) Redox signalling and the inflammatory response in rheumatoid arthritis. Clin Exp Immunol 152:415–422
Gaikwad SB, Mohan GM, Rani MS (2014) Phytochemicals for Diabetes Management. Pharmaceutical Crops 5(1):11–28
Goswami SK, Inamdar MN, Pandre MK, Jamwal R, Dethe S (2013) Erectogenic and aphrodisiac effects of Butea frondosa Koenig ex Roxb. In: Rats: involvement of enzyme inhibition. Evid Based Complement Alternat Med 2013:874894
Green C, Wagner DA, Godowsky J, Skipper PL, Wishnok JS, Tannenbaum SR (1982) Analysis of nitrate, nitrite and [15N] nitrate in biological fluids. Anal Biochem 126:131–138
Habig WH, Pabst MJ, Jacoby WB (1974) Glutathione-S-transferases: the first enzymatic step in mercaptoric acid formation. J Biol Chem 24:97130–97139
Hasanein P, Shahidi S (2011) Effects of hypericum perforatum extract on diabetes-induced learning and memory impairment in rats. Phytother Res 25:544–549
Hassan MQ, Hadi RA, Al-Rawi ZS, Padron VA, Stohs SJ (2001) The glutathione defense system in the pathogenesis of rheumatoid arthritis. J Appl Toxicol 21:69–73
Hur JM, Hyun MS, Lim SY, Lee WY, Kim D (2009) The combination of berberine and irradiation enhances anti-cancer effects via activation of p38 MAPK pathway and ROS generation in human hepatoma cells. J Cell Biochem 107(5):955–964
Hwang JM, Wang CJ, Chou FP et al (2002) Inhibitory effect of berberine on tert-butyl hydroperoxide-induced oxidative damage in rat liver. Arch Toxicol 76:664–670. https://doi.org/10.1007/s00204-002-0351-9
Ige SF, Akhigbe RE, Akinsanya AO (2010) The role of hyperglycemia in hull wrinkle formation: Mediation of advanced glycation end-products. Research Journal of Medicine Sciences 4:324–329
Ito F, Sono Y, Ito T (2019) Measurement and clinical significance of lipid peroxidation as a biomarker of oxidative stress: oxidative stress in diabetes, atherosclerosis, and chronic inflammation. Antioxidants (Basel) 8(3):72
Jiang WX, Li SH, Li XJ (2015) Therapeutic potential of berberine against neurodegenerative diseases. Sci China Life Sci 58(6):564–569
Kizilay F, Gali HE, Serefoglu EC (2017) Diabetes and sexuality. Sexual Med Rev 5(1):45–51
Lao-ong T, Chatuphonprasert W, Nemoto N, Jarukamjorn K (2012) Alteration of hepatic glutathione peroxidase and superoxide dismutase expression in streptozotocin-induced diabetic mice by berberine. Pharm Biol 50(8):1007–1012
Lee DU, Kang YJ, Park MK, Lee YS, Seo HG, Kim TS, Kim CH, Chang KC (2003) Effects of 13-alkyl-substituted berberine alkaloids on the expression of COX-II, TNF-alpha, iNOS, and IL-12 production in LPS-stimulated macrophages. Life Sci 73(11):1401–1412
Liu L, Deng Y, Yu S, Lu S, Xie L, Liu X (2008) Berberine attenuates intestinal disaccharidases in streptozotocin-induced diabetic rats. Pharmazie. 63(5):384–388
Liu S-C, Lee H-P, Hung C-Y, Tsai C-H, Lig T-M, Tang C-H (2015) Berberine attenuates CCN2-induced IL-1β expression and prevents cartilage degradation in a rat model of osteoarthritis. Toxicol Appl Pharmacol 289:20–29
Maiorino M, Bellastella G, Esposito K (2014) Diabetes and sexual dysfunction: current perspectives. Diabetes, Metabolic Syndrome and Obesity: Targets and Therapy 7:95–105
Mariana R, Hélio M, Arthur GF (2014) In vitro antioxidant activity of alkaloids from southern Brazilian Psychotria: a comparative analysis. BioMedical Central Proceedings 8(4):1186–1753
Nerurkar PV, Hwang PW, Saksa E (2015) Anti-diabetic potential of Noni: the Yin and the Yang. Molecule 20:17684–17719
Ni WJ, Ding HH, Zhou H, Qiu YY, Tang LQ (2015) Renoprotective effects of berberine through regulation of the MMPs/TIMPs system in streptozocin induced diabetic nephropathy in rats. Eur J Pharmacol 764:448–456
Oboh G, Akinyemi AJ, Ademiluyi AO (2012) Inhibition of α-amylase and α-glucosidase activities by ethanolic extract of Telfairia occidentalis (fluted pumpkin) leaf. Asian Pac J Trop Biomed 2(9):733–738
Ohkawa H, Ohishi N, Yagi K (1979) Assay for lipid peroxides in animal tissues by thiobarbituric acid reaction. Anal Biochem. 95(2):351–8
Oyeleye SI, Adefegha SA, Dada FD, Okeke BM, Oboh G (2019) Effect of p-coumaric acid on the erectogenic enzyme activities and non-protein thiol level in the penile tissue for normal and doxorubicin-induced oxidative stress male rat. Andrologia, p.e13281.
Pitocco D, Tesauro M, Alessandro RR, Ghirlanda G, Cardillo C (2013) Oxidative stress in diabetes: implications for vascular and other complications. Int J Mol Sci 14:21525–21550
Prakash M, Shetty MS, Tilak PN, Anwar N (2009) Total thiols: biomedical importance and their alteration in various disorders. Online J Health Allied Scs 8(2):2
Pusparanee H, Lee HW, Halimah A, Mahanem MN (2016) Effects of Gynura procumbens on sperm quality and testosterone level in streptozotocin-induced type 1 diabetic rats. Inter J Pharmacog Phytochem Res 8(1):22–30
Sarna LK, Wu N, Hwang SY, Siow YL, O, K, (2010) Berberine inhibits NADPH oxidase mediated superoxide anion production in macrophages. Can J Physiol Pharmacol 88(3):369–378
Shan W-J, Huang L, Zhou Q, Meng F-C, Li X-S (2011) Synthesis, biological evaluation of 9-N-substituted berberine derivatives as multi-functional agents of antioxidant, inhibitors of acetylcholinesterase, butyrylcholinesterase and amyloid-beta aggregation. Eur J Med Chem 46:5885–5893
Shiferaw WS, Akalu TY, Aynalem YA (2020) Prevalence of erectile dysfunction in patients with diabetes mellitus and its association with body mass index and glycated hemoglobin in Africa: a systematic review and meta-analysis. International Journal of Endocrinology. Article Volume 2020 |Article ID 5148370 | https://doi.org/10.1155/2020/5148370
Siow YL, Sarna L, Karmin O (2011) Redox regulation in health and disease — Therapeutic potential of berberine. Food Res Int 44(8):2409–2417
Song J, Tang Z, Li H, Jiang H, Sun T, Lan R, Wang T, Wang S, Ye Z, Liu J (2019) Role of JAK2 in the pathogenesis of diabetic erectile dysfunction and an intervention with berberine. J Sex Med 16(11):1708–1720
Soran H, Wu FCW (2005) Endocrine causes of erectile dysfunction. International J Androl 28(2):28–34
Tan Y, Ming Z, Tang Q, Jiang Z, Hu B, Xiang J (2005) Effect of berberine on the mRNA expression of nitric oxide synthase (NOS) in rat corpus cavernosum. J Huazhong Univ Sci Technolog Med Sci 25:127–130
Tan Y, Tang Q, Hu BR, Xiang J (2007) Antioxidant properties of berberine on cultured rabbit corpus cavernosum smooth muscle cells injured by hydrogen peroxide. Acta Pharmacol Sin 28:1914–1918
Teare JP, Punchard NA, Powell JJ (1993) Automated spectrophotometric method for determining oxidized and reduced glutathione in liver. Clin Chem 3014:686–689
Thawatchai P, Wattanathorn J, Iamsaard S, Muchimapura S, Thukhamme W (2012) Moringa oleifera leaves extract attenuates male sexual dysfunction. Am J Neurosci 3(1):17–24
Thirupurasundari CJ, Padmini R, Devaraj SN (2009) Effect of berberine on the antioxidant status, ultrastructural modifications and protein bound carbohydrates in azoxymethane-induced colon cancer in rats. Chem Biol Interact 177(3):190–195
Ulricha K, Jakob U (2019) The role of thiols in antioxidant systems. Free Radic Biol Med 140:14–27
Vadivelan R, Krishnan RG, Kannan R (2019) Antidiabetic potential of Asparagus racemosus Willd leaf extracts through inhibition of α-amylase and α-glucosidase. J Traditional and Compl Medicine 9:1–4
Vincent AM, Russel JM, Low P, Feldman EL (2004) Oxidative stress in the pathogenesis of diabetic neuropathy. Endocr Rev 25(4):612–628
Wink M (2003) Alkaloids-properties and determination, pp.126-134.
Yi F, Catudio-Garrett E, Gábriel R, Wilhelm M, Erdelyi F, Szabo G, Deisseroth K, Lawrence J (2015) Hippocampal “cholinergic interneurons” visualized with the choline acetyltransferase promoter: anatomical distribution, intrinsic membrane properties, neurochemical characteristics, and capacity for cholinergic modulation. Front Synaptic Neurosci 7:4. https://doi.org/10.3389/fnsyn.2015.00004
Yin J, Xing H, Ye J (2008) Efficacy of berberine in patients with type 2 diabetes mellitus. Metabolism. 57:712–717
Yin J, Ye J, Ji W (2012) Effects and mechanisms of berberine in diabetes treatment. Acta Pharm Sin 2(4):327–334
Zhang Q, Piao X-L, Piao X-S, Lu T, Wang D, Kim SW (2011) Preventive effect of Coptis chinensis and Berberine on intestinal injury in rats challengedwith lipopolysaccharides. Food Chem Toxicol 49:61–9
Zhang Y, Li X, Zou D, Liu W, Yang J, Zhu N, Huo L, Wang M, Hong J, Wu P, Ren G, Ning G (2008) Treatment of type 2 diabetes and dyslipidemia with the natural plant alkaloid berberine. J Clin Endocrinol Metab 93:2559–2565
Zhou J, Zhou S, Tang J, Zhang K, Guang L, Huang Y, Xu Y, Ying Y, Zhang L, Li D, D. (2009) Protective effect of berberine on beta cells in streptozotocin- and high-carbohydrate/high-fat diet-induced diabetic rats. Eur J Pharmacol 606:262–268
Zhou JY, Zhou SW, Zhang KB, Tang JL, Guang LX, Ying Y, Xu Y, Zhang L, DD, Li DD, (2008) Chronic effects of berberine on blood, liver glucolipid metabolism and liver PPARs expression in diabetic hyperlipidemic rats. Biol Pharm Bull 31:1169–1176
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Adefegha, S.A., Oboh, G., Dada, F.A. et al. Berberine mitigates diabetes-induced erectile dysfunction in rats through modulation of antioxidant status and critical enzyme activity. Comp Clin Pathol 30, 181–189 (2021). https://doi.org/10.1007/s00580-021-03217-0
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DOI: https://doi.org/10.1007/s00580-021-03217-0