5151

Dental Journal
(Majalah Kedokteran Gigi)

2019 March; 52(1): 51–56

Research Report

Protection against periodontal destruction in diabetic condition 
with Sardinella longiceps fish oil: expression of matrix-
metalloproteinase 8 and tissue inhibitor of metalloproteinase 1 

Dian Widya Damaiyanti, Dian Mulawarmanti, and Kristanti Parisihni 
Department of Oral Biology
Faculty of Dentistry, Universitas Hang Tuah
Surabaya – Indonesia

ABSTRACT
Background: There is strong evidence to support the claim that periodontitis may be more prevalent among diabetic individuals. Collagen 
degradation represents one of the key events in periodontal destructive lesions. The level of matrix metalloproteinase 8 (MMP-8) and 
tissue inhibitor of metalloproteinase 1 (TIMP-1) are key to periodontal collagenolysis and associated with the severity of periodontal 
inflammation and disease. Host modulatory therapy has been proposed as a treatment for periodontal diseases. Sardinella longiceps 
(lemuru) fish oil containing polyunsaturated fatty acids (PUFAs), including omega 3 and 6, has been shown to possess therapeutic 
anti-inflammatory and protective properties effective against inflammatory diseases, including periodontitis. Purpose: The study aimed 
to examine the effect of dietary supplementation of Sardinella longiceps fish oil on protection against periodontal destruction resulting 
from the expression of MMP-8 and TIMP-1. Methods: Wistar rat samples are divided into four groups: a negative control group and 
three groups receiving Sardinella longiceps fish oil treatment (4 ml/ weight (Kg), 8 ml/ weight (Kg) and 16 ml/ weight (Kg). One week 
before treatment, all groups were administered with streptozotocin (STZ) 65 ml/ weight (Kg) and nicotinamide 110 ml/ weight (Kg) 
to induce diabetic conditions. Immunohistochemistry slides of periodontal tissues were prepared after three weeks of treatment. The 
expression of MMP-8 and TIMP-1 was counted using the HSCORE index, data was analyzed by means of non-parametric methods 
using Kruskal-Wallis, and Mann-Whitney tests. Results: Statistical analyses confirmed a significant increase in MMP-8 expression 
and a reduction in TIMP-1 expression in the negative control group compared to the treatment group (p<0.05). Meanwhile, the 
treatment group showed a significant reduction in MMP-8 expression and a marked increase in TIMP-1 expression, with the best result 
produced by the administering of 16 ml/ weight (Kg) Sardinella longiceps fish oil to the treatment group (p<0.05). Conclusion: Dietary 
supplementation of Sardinella longiceps fish oil can protect against periodontal destruction under diabetic conditions, by decreasing 
MMP-8 expression and increasing TIMP-1 expression.

Keywords: diabetes; lemuru; MMP-8 expression; periodontitis; TIMP-1 expression

Correspondence: Dian Widya Damaiyanti, Departement of Oral Biology, Faculty of Dentistry Universitas Hang Tuah. Jl. Arif Rahman 
Hakim No. 150 Surabaya 60111, Indonesia. E-mail: damaiyanti@hangtuah.ac.id

INTRODUCTION

Diabetes mellitus (DM) is a metabolic disorder characterized 
by hyperglycemia, a high blood glucose level. From 
an epidemiological perspective, it is estimated that the 
prevalence of DM in Indonesia will reach 21.3 million 
people by 2030.1 Hyperglycemia will trigger an increase in 
prostaglandin E2 (PGE2) and cytokine expression through 
activation of diacyl glycerol (DAG)-proteinkinase C (PKC). 

This increase in inflammatory mediators will, in turn, 
initiate a process of periodontal tissue destruction.2

Clinical studies have confirmed greater prevalence of 
periodontitis in patients with diabetes mellitus. Fibroblast 
cells do not function properly in environments featuring a 
high concentration of glucose. In addition, collagen produced 
by fibroblasts is susceptible to rapid degradation by matrix 
metalloproteinase (MMP) enzymes, the production of 
which is increased in diabetics rendering them susceptible 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i1.p51–56

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52 Damaiyanti, et al./Dent. J. (Majalah Kedokteran Gigi) 2019 March; 52(1): 51–56

to more rapid loss of attachment and bone damage.3 The 
main MMPs found in diabetics include MMP-8 and MMP-
9.4 MMP-8 (collagenase 2) is one of the main biomarkers of 
connective tissue destruction in periodontitis.4,5 The release 
of MMP-8 will be offset by that of the tissue inhibitor of 
metalloproteinase (TIMP). Periodontal damage will be 
affected by the ratio of MMP-8 to TIMP-1, the latter of 
which is produced by endothelial cells, and macrophages 
as protection against MMPs. An imbalance between MMPs 
and TIMP will lead to destruction during periodontitis 
pathology.5,6 An in vitro study shows that the monocyte 
cells of diabetics experience an excessive response with 
increased expression of inflammatory mediators such as 
IL-1, TNFα and PGE2.7 Inflammatory mediators such as 
IL-1β, and TNFα increased regulation of MMPs expression 
resulting in periodontal collagen degradation.8

Sardinella longiceps fish oil, obtained from fish 
canning industry waste, contains polyunsaturated fatty 
acids (PUFAs) such as eicosapentaenoic acid (EPA) and 
docosahexaenoic acid (DHA). The EPA and DHA content 
of Sardinella longiceps fish oil is one of the highest.9 Omega 
3 contains several metabolites, resolvin and two-component 
protectins among others, that demonstrate the ability to 
reduce the production of pro-inflammatory enzymes and 
cytokine including COX2, TNFα and IL-β.10 Administering 
omega-3 and omega-6 fatty acids together to research 
models whose feet had sustained injuries after diabetes 
induction resulted in more rapid wound healing. It seems 
that a combination of omega-3 and omega-6 can control 
cell diffusion and inflammation under diabetic conditions, 
the mechanism probably one of altering the fibroplastic 
or maturational phases of the healing response.11 Based 
on the findings of research into omega 3 (EPA & DHA) 
diets in cases of periodontitis, it is known that omega 3 can 
reduce MMP, thereby inhibiting osteoclast activity.12 This 
result was also produced by research into the apoptosis 
of osteoblasts in alveolar bone. The research involving 
the administering of a 1 ml/300 gram dose of Sardinella 
longiceps fish oil to rats indicated significantly smaller 
apoptosis osteoblasts in alveolar bone than those induced 
by lipopolysaccharide (LPS).13 Provision of omega 3 for 
two weeks in the periodontitis model produced an increase 
in TIMP-1 levels.14 Research involving the administering 
of omega 3 and omega 6 derived from Toman fish oil at 
doses of 4 ml, 8 ml and 16 ml/ weight (kg) once a day for 
seven days produced significant wound healing results. 
This was due to the ability of omega 3 and omega 6 to act 
as immunomodulators in controlling inflammation.

Based on the foregoing information, the researchers 
wanted to identify the effect of a diet containing Sardinella 
longiceps fish oil extract at doses of 4 ml, 8 ml, and 16 ml/ 
weight on the expression of MMP-8 and TIMP-1 in the 
periodontal tissue of Wistar rats as markers of periodontal 
destruction induced by diabetes mellitus.

MATERIALS AND METHODS

All experiments were approved by the Ethics Committee 
Faculty of dentistry, Universitas Hang Tuah with number 
certificate EC/013/KEPK-FKGUHT/VIII/2019 and 
performed following the guidelines. Experimental 
diabetes mellitus is produced by injecting a single dose 
of streptozotocin (Sigma Aldrich, Singapore). Forty male 
Wistar rats were injected with approximately 110 ml/ 
weight (Kg) of intra peritoneal nicotinamide (Merck, 
Germany) dissolved in phosphate buffer saline (PBS) 
(Merck Certipur, Germany). 15 minutes later a single intra-
peritoneal dose 65 mg/ weight (Kg) of STZ was injected 
into Wistar rats that had fasted for between 8 and 12 hours 
overnight. After seven days of induction with STZ, the rats 
that presented an increased blood glucose level in excess of 
126 mg/ ml were considered to be diabetic.15,16

After the induction of diabetes, the Wistar rats 
were divided into four groups, namely: K0 - diabetes 
induction, administered with Sardinella longiceps fish 
oil treatment; K1 - diabetes induction, administered with 
Sardinella longiceps fish oil treatment 4 ml/ weight (Kg); 
K2 - induction of diabetes, administered with Sardinella 
longiceps fish oil treatment 8 ml/ weight (Kg) and K3 - 
diabetes induction, administered with Sardinella longiceps 
fish oil treatment 16 ml/ weight (Kg). Treatment with 
Sardinella longiceps fish oil involved oral administration 
once a day for a period of three weeks.

Both the control rats and their medicated counterparts 
were sacrificed after three weeks’ administration of 
Sardinella longiceps fish oil or one month post-diabetes 
induction with STZ. The rats were inserted in a glass tube 
and administered a lethal dose of ether for three minutes. 
Following removal of their jaws, which were subsequently 
immersed in a fixing solution, the rats were interred. The 
specimen processing technique was continued using a 
paraffin method, immunohistochemistry staining techniques 
with monoclonal primary antibodies, MMP-8 and TIMP-1 
and secondary antibodies that had been biotinated.17

Calculation of MMP-8 and TIMP-1 expressions using 
a modification of HSCORE technique was conducted with 
an Olympus CX-21 microscope using an optilab program 
at 400x magnification through three visual fields. The 
intensity of scores was assessed according to category: 0, 
absent; 1, weak; 2, moderate and 3, intense before being 
included in the formula HScore = Pi (i +1) where i is the 
intensity score, Pi is the percentage of the number of cells 
stained and 1 represents a correction factor.18 The data was 
analyzed by means of a non- parametric Kruskal-Wallis 
test the data from which was in ordinal form. In cases 
of difference, a Mann-Whitney test was subsequently 
conducted to identify the significance difference.

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i1.p51–56

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53Damaiyanti, et al./ Dent. J. (Majalah Kedokteran Gigi) 2019 March; 52(1): 51–56

Table 1. MMP-8 significance test results between groups

Group K1 Group K2 Group K3

MMP-8 TIMP-1 MMP-8 TIMP-1 MMP TIMP-1
Negative Control group 0.019 0.037 0.02 0.02 0.019 0.02

Group K1 0.078 0.02 0.019 0.02

Group K2 0.019 0.021

 
Figure 1. MMP-8 expression after a 3-week period of treatment with Sardinella longiceps fish oil. 

 

 
Figure 2. Expression of TIMP-1 after 3 weeks treatment with Sardinella longiceps fish oil. 

9.58

5.92
4.67

2.50
0.00

2.00

4.00

6.00

8.00

10.00

12.00

K0 K1 K3

H
Sc

or
e 

Experiment group

1.08 2.00

5.75

8.83

0.00

2.00

4.00

6.00

8.00

10.00

12.00

K0 K1 K2 K3

H
Sc

or
e

Experiment group

K2

Figure 1. MMP-8 expression after a 3-week period of treatment with Sardinella longiceps fish oil.

 
Figure 1. MMP-8 expression after a 3-week period of treatment with Sardinella longiceps fish oil. 

 

 
Figure 2. Expression of TIMP-1 after 3 weeks treatment with Sardinella longiceps fish oil. 

9.58

5.92
4.67

2.50
0.00

2.00

4.00

6.00

8.00

10.00

12.00

K0 K1 K3

H
Sc

or
e 

Experiment group

1.08 2.00

5.75

8.83

0.00

2.00

4.00

6.00

8.00

10.00

12.00

K0 K1 K2 K3

H
Sc

or
e

Experiment group

K2

Figure 2. Expression of TIMP-1 after 3 weeks treatment with Sardinella longiceps fish oil.

RESULTS

Observation and calculation of MMP-8 and TIMP-1 
expression in the periodontal tissue area were conducted 
one month after diabetes induction and treatment. The 
results indicated that the highest median value of MMP-8 
occurred in the K0 group compared to the treatment group, 
while the highest median of TIMP-1 was observed in the 
K3 groups compared to the control group. It can be seen 
that the highest MMP-8 score was recorded in the K0 group 
and the lowest score in the K3 group (Figure 1).

The results of the TIMP-1 calculation show that the 
highest score occurred in the group K3 (Figure 2). Based on 
the contents of Table 1, there were significant differences 
between the control group and groups K1, K2 and K3 as 
indicated by the value p<0.05 for both the MMP-8 and 
TIMP-1 scores. In contrast, with regard to the Mann-
Whitney test, there were no significant differences between 
MMP-8 scores of the control, K1 and K2 groups where the 
value of p> 0.05.

These results showed that K3 group registered the 
lowest MMP-8 score expression and the highest TIMP-1 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i1.p51–56

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54 Damaiyanti, et al./Dent. J. (Majalah Kedokteran Gigi) 2019 March; 52(1): 51–56

score compared to the other groups, while the K0 group 
had the highest MMP-8 score and the lowest TIMP-1 
score (Table 1). The expression of MMP-8 and TIMP-1 
was calculated using the color intensity and proportion 
scores, which were then calculated using the formula. The 
dark brown IHC staining visible in the picture indicates a 
positive expression (Figure 3 dan 4).

DISCUSSION

Systemic conditions have been identified as the cause of 
an increase in periodontal disease. Biological mechanisms 
known to occur under diabetic conditions include: increased 
production of advanced glycation end products (AGEs), 
hyperinflammatory reactions, poor quality collagen, 

 

 

 

 

 

 

 

 

 

 

 

 
Figure 3. MMP-8 expression (dark brown, blue arrow) in periodontal ligament at 400x magnification. 

(A) Group K0 (Diabetes induction without treatment); (B) group K1 (Diabetes induction, 
Sardinella longiceps oil treatment 4 ml/ weight (Kg)); (C) group K2 (Diabetes induction, 
Sardinella longiceps fish oil treatment 8 ml/ weight (Kg)); (D) group K3 (Diabetes induction, 
Sardinella longiceps fish oil treatment 16 ml/ weight (Kg)). 

 

 

 

 

 

 

 

 

 

 

 

 

 

 
Figure 4. TIMP-1 expression (dark brown, blue arrow) in periodontal ligament at 400x magnification. 

(A) Group K0 (Diabetes induction without treatment);  (B) group K1 (Diabetes induction, 
Sardinella longiceps oil treatment 4 ml/ weight (Kg)); (C) group K2 (Diabetes induction, 
Sardinella longiceps fish oil treatment 8 ml /weight (Kg)); (D) group K3 (Diabetes induction, 
Sardinella longiceps fish oil treatment 16 ml/ weight (Kg)).   

Figure 3. MMP-8 expression (dark brown, blue arrow) in periodontal ligament at 400x magnification. (A) Group K0 (Diabetes 
induction without treatment); (B) group K1 (Diabetes induction, Sardinella longiceps oil treatment 4 ml/ weight (Kg)); 
(C) group K2 (Diabetes induction, Sardinella longiceps fish oil treatment 8 ml/ weight (Kg)); (D) group K3 (Diabetes 
induction, Sardinella longiceps fish oil treatment 16 ml/ weight (Kg)).

 

 

 

 

 

 

 

 

 

 

 

 
Figure 3. MMP-8 expression (dark brown, blue arrow) in periodontal ligament at 400x magnification. 

(A) Group K0 (Diabetes induction without treatment); (B) group K1 (Diabetes induction, 
Sardinella longiceps oil treatment 4 ml/ weight (Kg)); (C) group K2 (Diabetes induction, 
Sardinella longiceps fish oil treatment 8 ml/ weight (Kg)); (D) group K3 (Diabetes induction, 
Sardinella longiceps fish oil treatment 16 ml/ weight (Kg)). 

 

 

 

 

 

 

 

 

 

 

 

 

 

 
Figure 4. TIMP-1 expression (dark brown, blue arrow) in periodontal ligament at 400x magnification. 

(A) Group K0 (Diabetes induction without treatment);  (B) group K1 (Diabetes induction, 
Sardinella longiceps oil treatment 4 ml/ weight (Kg)); (C) group K2 (Diabetes induction, 
Sardinella longiceps fish oil treatment 8 ml /weight (Kg)); (D) group K3 (Diabetes induction, 
Sardinella longiceps fish oil treatment 16 ml/ weight (Kg)).   

Figure 4. TIMP-1 expression (dark brown, blue arrow) in periodontal ligament at 400x magnification. (A) Group K0 (Diabetes 
induction without treatment);  (B) group K1 (Diabetes induction, Sardinella longiceps oil treatment 4 ml/ weight (Kg)); 
(C) group K2 (Diabetes induction, Sardinella longiceps fish oil treatment 8 ml /weight (Kg)); (D) group K3 (Diabetes 
induction, Sardinella longiceps fish oil treatment 16 ml/ weight (Kg)).

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i1.p51–56

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55Damaiyanti, et al./ Dent. J. (Majalah Kedokteran Gigi) 2019 March; 52(1): 51–56

changes in microcirculation, host defense dysfunction and 
increased matrix metalloproteinases. The formation of 
AGEs plays an important role in increasing the sensitivity 
of the formation of inflammatory mediators by endothelial 
cells and monocytes. The accumulation of AGEs in the 
plasma and tissues in diabetic patients is associated with 
the occurrence of periodontal disease.19,20

The pathology of activation or increase in MMPs and 
the production of TIMP protection systems by bacteria 
or by inflammatory mediators is characteristic of chronic 
periodontitis.5 This characteristic was shown by the STZ-
induced negative control group for diabetes after one month 
and subsequently examined using IHC, which resulted 
in a small increase in MMP-8 and TIMP-1 production 
(Table 1), collagen degeneration and characteristic of 
chronic periodontitis. Levels of MMPs and TIMP-1 are 
very important because they can indicate the progression 
of periodontitis. Increased MMP and production of TIMPs 
are less able to direct periodontal attachment loss.5,14 

The administration of Sardinella longiceps fish oil was 
conducted one week post-induction for three weeks, while 
the research subjects were euthanised one month post-STZ 
induction. The results of this study indicated the smallest 
MMP-8 expression to have occurred in the 16 ml/ weight 
(Kg) Sardinella longiceps fish oil group and demonstrated 
a significant difference compared to the control group, 4 
ml/ weight (Kg) Sardinella longiceps fish oil group and 8 
ml/ weight (Kg) Sardinella longiceps fish oil group. The 
decrease in MMP-8 expression was in accordance with the 
results of TIMP-1 expression in the 16 ml/ weight (Kg) 
Sardinella longiceps fish oil group which experienced 
a significant increase compared to the control group, 4 
ml/ weight (Kg) Sardinella longiceps fish oil group and 
8ml weight (Kg) Sardinella longiceps oil group. It was 
concluded that the 16 ml/ weight (Kg) lemuru fish oil 
group had the lowest MMP-8 expression and the highest 
TIMP-1 expression. 

The control group results indicated an increase in 
MMP-8 without being followed by a rise in TIMP-1. In 
theory, this could lead to the degradation of collagen and 
destruction of periodontal tissue. This study proves the 
expression of MMP-8 in the negative control group, diabetic 
rats increased without being offset by the production of 
MMP-8 inhibitors, namely TIMP-1, which is limited in 
scale. Increased MMP-8 has been reported to be associated 
with the development of gingivitis into periodontitis.5

The treatment group showed results that support 
the theory that a decrease in MMP-8 and an increase in 
TIMP-1, due to the administration of Sardinella longiceps 
fish oil containing omega 3, can reduce the production 
of inflammatory mediators such as PGE2. Prostaglandin 
E2 (PGE2) causes stimulation of inflammatory mediators 
and MMPs, including osteoclast formation.8 Inhibition 
of PGE2 production can, in turn, lead to restrictions on 
MMP production, while Sardinella longiceps oil with 
polyunsaturated acid (PUFA) content can reduce PGE2 
production.10 The positive effects of omega-6 have also been 

reported in terms of their ability to affect the production 
of eicosanoids, PGE2, leukotrienes and lipoxins. They 
also inhibite cyclooxygenase, promote growth hormone 
secretion from the anterior lobe of the pituitary gland by 
derived eicosanoids from omega-6 fatty acids. Moreover, 
they prevent a reduction in arachidonic acids in plasma, 
as well as membrane phospholipids in diabetes, mitogenic 
effects and an increase in collagen formation.11 

Sardinella longiceps fish oil contains PUFA consisting 
of omega 3 and 6. Omega 3 is proven to regulate various 
proteins in periodontal tissues such as MMP-8, MMP-13, 
MMP-14 and TIMP-1 in the periodontitis-induced LPS 
model.14 In experimental studies of periodontitis in rats, 
the use of selective COX-2 and prophylactic omega 3 fatty 
acids, both singly and in combination, caused inhibition 
of MMP-8 expression in gingival tissue.8 This finding is 
consistent with the results of the study of the Sardinella 
longiceps oil treatment group which experienced a decrease 
in MMP-8 expression compared to the negative control 
group. The largest reduction occurred in the 16 ml/ weight 
(Kg) Sardinella longiceps fish oil treatment group.

TIMPs that control MMP activity and act as regulators 
of extracellular matrix destruction by MMP have an 
important role to play in tissue remodeling and pathology 
from periodontal tissue destruction. TIMP levels are 
generally more elevated in healthy periodontal tissues than 
those affected by periodontal inflammation, which leads 
to the excessive production of MMPs.8,5 This finding is 
in accordance with the study of the control group which 
showed high MMP-8 expression, while that of TIMP-1 
was low. Contrastingly, in the treatment group MMP-8 
expression decreased and TIMP expression increased. In 
conclusion, administering Sardinella longiceps fish oil to 
diabetic rats was found to reduce MMP-8 expression and 
increase TIMP-1 expression. The most impressive results 
occurred in the group which received a 16 ml/ weight (Kg) 
dose of Sardinella longiceps fish oil.

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Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 32a/E/KPT/2017. 
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v52.i1.p51–56

http://e-journal.unair.ac.id/index.php/MKG
http://dx.doi.org/10.20473/j.djmkg.v52.i1.p51-56