Bangladesh Journal of Pharmacology 

Research Article 

Effect of Effect of Effect of Aralia chinensisAralia chinensisAralia chinensis   on serum on serum on serum 
TNFTNFTNF---a, ILa, ILa, IL---4 and IL4 and IL4 and IL---10 level in rats 10 level in rats 10 level in rats 
with adjuvantwith adjuvantwith adjuvant---induced arthritisinduced arthritisinduced arthritis   

BJP 



 

 

Introduction 

Rheumatoid arthritis is an autoimmune disease charac-
terized by symmetrical arthritis in multiple joints, 
chronic inflammation in the synovium and progressive 
destruction of joints. It may cause damage to multiple 
organs including heart, lung and kidney. Late stage 
may result in ankylosis, joint deformity and severe joint 
dysfunction, which significantly influence the health 
and quality of life. In the present study, the effect of 
Aralia chinensis L on the serum tumor necrosis factor-  
(TNF-α), Interleukins (IL-4, IL-10) was investigated in 
rats with adjuvant arthritis aiming to explore the 
pathogenesis of rheumatoid arthritis.  

 

Materials and Methods  

Animals 

Male SD rats (specific pathogen free) weighing 200 ± 20 
g and aged 8-10 weeks were purchased from the 

Experimental Animal Center of Xi’an Jiaotong 
University. Animals were given ad libitum access to 
food and water.  

Main reagent, drugs and instrument 

A. chinensis (Shenlong Hospital of Traditional Chinese 
Medicine), liquid extract 1 g/mL), tripterygium 
wilfordii (Huangshi Feiyun Pharmaceutical Co. Ltd; 
Z33020422), incomplete Freund's adjuvant and 

detection kits for TNF-, IL-4 and IL-10 (Sigma-
ALDRICH) were used in this study. Vernier calliper 
(TESA, Swiss), GTZA precision balance (GTZA, 
Jiangsu, China), 721 grating spectrophotometer (Suzhou 
Qile Electronic Technology Co., Ltd), and refrigerated 
centrifuge (Xiangyi Centrifuge Co., Ltd) were used in 
the present study.  

Preparation of the animal model 

SD rats were allowed to accommodate to the 
environment for 2 weeks and then divided into 2 
groups randomly. In the control group, 8 rats were 

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A Journal of the Bangladesh Pharmacological Society (BDPS) Bangladesh J Pharmacol 2012; 7: 285-288 
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Effect of Aralia chinensis on serum TNF-a, IL-4 and IL-10 level in 
rats with adjuvant-induced arthritis 

Lei Yi1, Jianjun Feng2, Haiwang Ji1 and Xuechong Zhang1 
1Department of Traditional Chinese Medicine, Shaanxi Provincial People’s Hospital, Xi’an, China; 2Department of 
Geriatric Neurology, Second Affiliated Hospital of Medical Collage of Xi’an Jiaotong University, Xi’an, China. 

Abstract 
Our study investigated the effect of Aralia chinensis on serum tumor necrosis 
factor-  (TNF- ), Interleukins (IL-4, IL-10) in rats with adjuvant-induced 
arthritis. Adjuvant-induced arthritis rats had more slowly increased body 
weight, dramatically increased TNF-  level but reduced IL-4, IL-10 levels 
compared with control group. A. chinensis, Tripterygium wilfordii and control 
group had significantly increased body weight, IL-4, IL-10, and markedly 
reduced arthritis index and TNF-  level compared with the adjuvant-induced 
arthritis group. A. chinensis and T. wilfordii group had significantly increased 
IL-4 and IL-10 levels and markedly reduced TNF-  level compared with 
control group. A. chinensis could significantly increase the IL-4 level 
compared with the control group and it can balance the cytokines in arthritis 
rats, which attributes to the improvement of adjuvant induced arthritis.    

Article Info 
Received:  21 November 2012 
Accepted:   3 December 2012 
Available Online:  10 December 2012  
 

DOI: 10.3329/bjp.v7i4.12725 
 

 

 

Cite this article: 
Yi L, Feng J, Ji H, Zhang X. Effect of 
Aralia chinensis on serum TNF-a, IL-4 
and IL-10 level in rats with adjuvant-
induced arthritis. Bangladesh J Phar-
macol. 2012; 7: 285-88. 



 

 

included and received no treatment. Remaining rats 
received subcutaneous injection of incomplete Freund's 
adjuvant at the right hind paw (0.1 mL). From the 
second day, edema of the paw was present. A second 
injection was done at day 8. At 14 days after first 
injection, adjuvant arthritis animal model was induced. 

Grouping and treatment 

In the control group, rats received no treatment. The 
remaining rats were divided randomly into 3 groups (n 
= 8 per group): Adjuvant arthritis group, T. wilfordii 
group and A. chinensis extract group. In the T. wilfordii 
group, rats were intragastrically treated with T. wilfordii 
at 6.0 mg/kg (3 mL) once daily; in the A. chinensis 
extract group, rats were intragastrically treated with A. 
chinensis extract at 1 g/mL (3 mL) once daily. Treatment 
was done at 15 days after first injection of incomplete 
Freund's adjuvant and continued for 28 days. In the 
control and adjuvant arthritis groups, rats received 
intragastrically treatment with normal saline of equal 
volume once daily for 28 days.   

Observations and detection 

a) Observation of general condition: Before and after 
preparation of animal model and treatment, the spirit, 
hair, appetite and activity of these animals were 
observed, and the body weight, thickness of voix pedis 
and arthritis index were detected; b) Detection of 
biochemical parameters: At 28 days after treatment, 
blood was collected from the femoral artery and placed 
in a dry tube followed by centrifugation at 3,000 rpm 
for 8 min. The supernatant was obtained. The serum 

levels of TNF-, IL-4 and IL-10 were detected according 
to the manufacturer’s instructions.  

Statistical analysis 

Quantitative data were expressed as mean ± SD and 
statistical analysis was done with SPSS version 15.0. 
One-way analysis of variance was employed for 
comparisons among groups and ‘t’-test was used for 
comparisons between two groups.  

 

Results  

At 4 days after first injection, rats developed lassitude, 

less activities, loss of appetite and lameness, and 
significant edema was found in the right hind paw. At 9 
days after first injection, the hair lost luster, 
inflammatory nodules were present sequentially at the 
tail, and congestion of nasal mucosa, mental fatigue, 
loss of appetite and edema of left hind paw were also 
observed. At 12 days after treatment, the mental status 
and appetite in the control group, A. chinensis extract  
group and T. wilfordii group were improved gradually, 
but remained unchanged in the adjuvant arthritis 
group. None died during the experiment.     

After introduction of adjuvant arthritis, the body 
weight gain was slower than that in the control group. 
After treatment with A. chinensis extract or T. wilfordii, 
the body weight gain was significantly higher than that 
in the adjuvant arthritis group (p<0.05). There was no 
marked difference in the body weight gain among A. 
chinensis extract group, T. wilfordii group and control 
group (p>0.05; Table I).  

There was no significant difference in the arthritis index 
among groups before treatment (p>0.05). After 

286 Bangladesh J Pharmacol 2012; 7: 285-288 

Table I 

Body weight of rats in different groups before and 
after treatment 

Group  n Before (g) After (g) 

Control 8 255.5 ± 10.5 298.6 ± 9.3c 

Adjuvant 
arthritis 

8 255.5 ± 11.4 264.0 ± 11.3a 

T. wilfordii  8 250.1 ± 11.1 277.1 ± 13.1ab 

A. chinensis  8 252.8 ± 3.6 279.0 ± 9.7ab 

ap<0.01 vs control group; bp<0.05; cp<0.0 vs AA group 

Table II 

Arthritis index in different groups before and after 
treatment  

Group n Before  After  

Adjuvant 
arthritis 

8 7.9 ± 0.8 10.0 ± 1.5 

T. wilfordii  8 8.6 ± 1.3 8.3 ± 1.6a 

A. chinensis  8 7.8 ± 1.4 7.5 ± 0.8a 

Data are mean ± SD; ap<0.05 vs AA group 

Table III 

Changes in serum levels of TNF-α, IL-4 and IL-10 after treatment  

Group n TNF-  (pg/mL) IL-4 (pg/mL) IL-10 (pg/mL) 
Control 8 83.1 ± 11.5d 54.4 ± 4.5c 25.1 ± 1.7d 

Adjuvant arthritis 8 268.8 ± 22.9b 49.3 ± 0.7a 15.8 ± 1.9b 

T. wilfordii  8 159.5 ± 12.0bd 65.1 ± 2.1bd 31.1 ± 1.5bd 

A. chinensis  8 178.5 ± 11.2bd 76.1 ± 2.8bde 29.2 ± 1.7bd 

Data are mean ± SD; Note: ap<0.05, bp<0.01 vs control group; cp<0.05, dp<0.0 vs Adjuvant arthritis group; ep<0.01 vs T. wilfordii group 



 

 

treatment, the arthritis index in the A. chinensis extract 
group and T. wilfordii group was markedly reduced 
(p<0.05). No significant difference was observed 
between T. wilfordii group and A. chinensis extract group 
(p>0.05; Table II).    

When compared with control group, the TNF-  level 
increased significantly but the IL-4 and IL-10 reduced 
markedly (p<0.05 or <0.01). In the T. wilfordii group and 
A. chinensis extract group, the TNF-  level reduced and 
the IL-4 and IL-10 increased (p<0.01). Moreover, the 
increased in IL-4 in the AT group was higher than that 
in the T. wilfordii group (p<0.01; Table III).  

 

Discussion  

The etiology and pathogenesis of rheumatoid arthritis is 
still poorly understood and has been found to be 
related to multiple factors. Some studies support that 
rheumatoid arthritis is an inflammatory disease due to 
the regulatory dysfunction of immune system. The 
inflammatory response in rheumatoid arthritis is very 
complex and has involvement of multiple genes 
(Springer, 1994; Murdoch and Finn, 2000), and a lot of 
cytokines have been found to participate in the 
regulation of complicated immune network. Among 
numerous cytokines in rheumatoid arthritis, TNF-  and 
IL are found to play important roles in the pathology of 
rheumatoid arthritis (Yu, 2007). TNF-  has potent 
biological activity. Studies have confirmed that TNF-  
can induce the inflammatory response and mediate the 
killing of targeted cells (virus infected cells) and cancer 
cells, may cause fever, metabolic disorder and dyscrasia 
and has found to be related to the damage to articular 
cartilage in rheumatoid arthritis. IL-4 and IL-10 are two 
anti-inflammatory factors. IL-4 can promote the 
migration of macrophages into the inflammatory sites; 
IL-4 can inhibit the secretion and activities of TNF-a, IL-
1 and IL-6 to antagonize the effect of IL-1; IL-4 may 
promote the proliferation of Th2 cells to suppress the 
Th1 mediated immune response (Wang and Chen, 
1994). IL-10 can down-regulate Th1 mediated immune 
response and increase the IL-10/TNF-  producing 
regulatory T lymphocytes, which may inhibit the 
inflammation and the damage to the bone and cartilage 
and reduce the production of TNF-  and IL-1 (Gonzalez
-Rey et al., 2007). There is evidence showing that IL-4 
and IL-10 can synergistically inhibit the secretion of 
proteases that can degrade the cartilages, and reverse 
the function of decomposition factors, both of which 
may inhibit the damage to cartilages (Palmer et al., 
2002). In healthy subjects, there is a balance between 
anti-inflammatory cytokines and pro-inflammatory 
cytokines. The disruption of this balance may induce 
the occurrence of rheumatoid arthritis. 

T. wilfordii is a common drug used in the clinical 

treatment of rheumatoid arthritis having favorable 
efficacy. However, T. wilfordii may cause reduction of 
white blood cells and platelets and influence the 
reproductive system leading to menstrual disorder, 
compromised sperm activity and reduction of sperms. 
Thus, in the present study, A. chinensis extract with 
relatively less side effects was used to treat rheumatoid 
arthritis and the therapeutic efficacy was evaluated and 
compared with that of T. wilfordii. 

Rheumatoid arthritis is one of arthralgias in Traditional 
Chinese Medicine. The Inner Canon of Huangdi 
proposed that the combination of wind-cold-damp 
results in arthralgias. Thus, to dispel wind, disperse 
cold and eliminate damp have been used in the 
treatment of arthralgias. A. chinensis is a plant of 
araliaceae belonging to aralia genus. A. chinensis is 
mainly distributed in the mountain area of central and 
west China. The type specimen is mainly obtained from 
Taibai in Shaanxi Province. Non-governmentally, A. 
chinensis is also known as one of seven Taibaishan herbs 
in Qinling of Shaanxi. It is rich in China and the skin of 
root and stem, the stem, the leaf and fruit of A. chinesis 
can be used as drugs (Wang et al., 1998). AT has the 
characteristics of dispelling wind and eliminating 
damp, attenuating heat and relieving pain, activating 
blood circulation and dissipating blood stasis, inducing 
diuresis and reducing edema, invigorating qi for 
tranquilization and liver-preservation (Wang et al., 
1997). Its bioeffects are consistent with the principles of 
treatment based on syndrome differentiation in Tradi-
tional Chinese Medicine. Our results demonstrated that 
A. chinensis could recover the energy, increase the body 
weight and attenuate the inflammatory response in rats 
with rheumatoid arthritis, exerting therapeutic effect on 
rheumatoid arthritis. This effect on rheumatoid arthritis 

may be related to the down-regulation of TNF- and up
-regulation of IL-4 and IL-10 as well as the recovery of 
balance between anti-inflammatory cytokines and pro-
inflammatory cytokines. 

 

Acknowledgement 

This work was supported by the Science and Technology 
Research Project in Shanxi Province (2012K19-05-03). 

 

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288 Bangladesh J Pharmacol 2012; 7: 285-288 

Author Info 
Lei Yi (Principal contact) 
e-mail: yilei1108@yeah.net 


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