Objectives : Cisplatin is a widely used cancer therapy drug. However, nephrotoxicity resulting in increased oxidative stress is a major side effect of cisplatin chemotherapy, thereby limiting its chemotherapeutic use. Lycium chinense Miller (LCM) has been used as a traditional herbal medicine in various febrile and inflammatory diseases such as night sweat, cough, nosebleed, bronchitis, pulmonary tuberculosis, etc. In this study we investigated the protective and antioxidative potential of LCM against cisplatin-induced nephrotoxicity in rats. Methods : Twenty-four 8-week-old male Wistar rats were divided into four groups: normal untreated; cisplatin treatment only; LCM 10 mg/kg plus cisplatin treatment; and LCM 30 mg/kg plus cisplatin treatment. Twenty-four hours after the last cisplatin injection, all the rats were sacrificed, and serological changes were evaluated. The levels of NF-${\kappa}B$ activity and NOX-4, $p47^{phox}$, $p22^{phox}$, COX-2, iNOS, SOD, catalase expressions were analyzed in Western blot analysis. Results : Cisplatin injection caused an increase in the BUN level, which is a reliable indicator of renal toxicity. The levels of BUN, renal ROS, and renal TBARS were significantly reduced in the LCM groups compared with the cisplatin-only groups. The levels of $p47^{phox}$ and $p22^{phox}$, which are NADPH oxidase subunits, were increased in the cisplatin-only groups, whereas they were decreased in the LCM groups. The levels of renal NF-${\kappa}B$ activity and COX-2, iNOS expressions were increased significantly in the cisplatin-only groups compared with the normal groups, whereas they were decreased in the LCM groups. Compared with the cisplatin-only groups, renal GSH and GSH/GSSG increased in the LCM groups. Also, the administration of LCM increased levels of SOD and catalase as compared with the cisplatin-only groups. Conclusions : These results suggest that LCM protects cisplatin-induced nephrotoxicity via a mechanism that may involves the inhibition of oxidative stress by the activation of antioxidants.

1 안병용, "자외선 B에 노출된 쥐 표피의 지질과산화에 대한 지골피 물 추출물의 보호효과" 한국응용생명화학회 45 (45): 218-222, 2002

2 최규호, "地骨皮가 H₂O₂에 의한 LLC-PK₁ 세포의 Redox Status 및 NF-κB Signaling에 미치는 영향" 대한한방내과학회 30 (30): 36-50, 2009

3 Townsend DM, "The importance of glutathione in human disease" 57 : 145-155, 2003

4 "The Herbal medicine compilation committee of Oriental medicine college. Herbal medicine" Younglim Publishing 279-281, 2006

5 Siebenlist U, "Structure, regulation and function of NF-κB" 10 : 405-455, 1994

6 Zitka O, "Redox status expressed as GSH:GSSG ratio as a marker for oxidative stress in paediatric tumour patients" 4 : 1247-1253, 2012

7 Lee S, "Protective role of L-2-oxothiazolidine -4-carboxylic acid in cisplatin-induced renal injury" 21 : 2085-2095, 2006

8 Simonian NA, "Oxidative stress in neurodegenerative disease" 36 : 83-106, 1996

9 Jenner P, "Oxidative stress and the pathogenesis of Parkinson's disease" 47 : 161-176, 1996

10 Penta AD, "Oxidative stress and proinflammatory cytokines contribute to demyelination and axonal damage in a cerebellar culture model of neuroinflammation" 8 (8): 1-13, 2013

11 Ebadi M, "Oxidative stress and antioxidant theory in Parkinson's disease" 48 : 1-19, 1996

12 Lambeth JD, "Nox enzymes and the biology of reactive oxygen" 4 : 181-189, 2004

13 Rosa Martha Perez Gutierrez, "Nephroprotective Activity of Prosthechea michuacana Against Cisplatin-Induced Acute Renal Failure in Rats" 한국식품영양과학회 13 (13): 911-916, 2010

14 Baldwin AS, "NF-kappa B and I kappa B proteins: new discoveries and insights" 14 : 649-683, 1996

15 Kim DH, "Molecular Study of Dietary Heptadecane for the Anti-Inflammatory Modulation of NF-kB in the Aged Kidney" PUBLIC LIBRARY SCIENCE 8 (8): 2013

16 Kilic U, "Melatonin suppress cisplatin- induced nephrotoxicity via activation of Nrf-2/HO-1 pathway" 10 (10): 1-8, 2013

17 Farber JL, "Mechanism of cell injury by activated oxygen species" 62 : 670-679, 1990

18 Davis CA, "Manganese superoxide dismutase attenuates cisplatin-induced renal injury: importance of superoxide" 12 (12): 2683-2690, 2001

19 Luke DR, "Lopez-Berestein G. Role of vascular congestion in cisplatin-induced acute renal failure in the rat" 37 (37): 1-7, 1992

20 Ann DG, "Illustrated Book of Korean Medicinal Herbs" Kyo-Hak Publishing Co., Ltd 678-, 1998

21 Johnson WM, "Dysregulation of glutathione homeostasis in neurodegenerative diseases" 4 : 1399-1440, 2012

22 har RV, "Deficient synthesis of glutathione underlies oxidative stress in aging and can be corrected by dietary cysteine and glycine supplementation" 94 : 847-853, 2011

23 Shin MG, "Clinical Herbal medicine" Nam -san-dang 302-, 1986

24 Cetil R, "Cisplatin impairs antioxidant system and causes oxidation in rat kidney tissues: possible protective roles of natural antioxidant foods" 26 : 42-46, 2006

25 Boulikas T, "Cisplatin and platinum drugs at the molecular level (Review)" 10 : 1663-1682, 2003

26 Kim YH, "Cheong-gam-ui-gam" Seong-bo-sa 103-106, 1984

27 Freeman BA, "Biology of disease: free radicals and tissue injury" 47 : 412-426, 1982

28 Hwang DY, "Bang-yak-hap-pyeon" Yeong- rim-sa 154-, 1978

29 Yu BP, "Aging and oxidative stress: modulation by dietary restriction" 21 : 651-668, 1996