Vol 49 No 3 Juli-Sept 2016.indd


120

Research Report

Dental Journal
(Majalah Kedokteran Gigi)
2016 September; 49(3): 120–124

Correlation between p53 expressions and histopathological 
grading in oral cavity squamous cell carcinoma

Silvi Kintawati 

Department of Oral Biology
Faculty of Dentistry, University of Padjadjaran 

Bandung – Indonesia

ABSTRACT

Background: Squamous cell carcinoma is a malignancy of oral cavity mostly occurred and can also metastasize. p53 gene is a 
tumor suppressor gene that plays an important role in carcinogenesis. The role of wild-type p53 is very important in suppressing the 
formation of a malignancy. p53 also has many other important functions. p53 is a suppressor of tumor/ cancer progression through 
the response of cell cycle to DNA damage and by giving time to repair DNA prior to replication of genes. p53 mutation, mostly 
occurs in a malignancy, so earlier histopathological transformation can be detected by observing p53 mutation. The prognosis of 
squamous cell carcinoma in oral cavity, therefore, depends on histopathological grading and clinical staging of the tumor. To enforce 
the histopathological grading, in addition based on histopathology differentiation, the earlier histopathological transformation can 
also be assessed. Purpose: This study aimed to determine the correlation of p53 expressions and histopathological grading in oral 
cavity squamous cell carcinoma. Method: This study was a retrospective study on 20 cases of oral cavity squamous cell carcinoma 
examined at Department of Pathology Anatomy in Hasan Sadikin Hospital in Bandung. Immunohistochemical examination was then 
performed using p53 antibodies to determine the correlation of p53 expression and histopathological grading in oral cavity squamous 
cell carcinoma to predict prognosis. Result: The overall results showed that there was no correlation between p53 expression 
and histopathological grading in oral cavity squamous cell carcinoma of the oral cavity although there was a very strong 
correlation between p53 expression and histopathological grading I (p<0.01). Conclusion: It can be concluded that there 
was no correlation between p53 expression and histopathological grading in oral cavity squamous cell carcinoma. Thus, p53 
expression cannot be used to predict a prognosis.

Keywords: p-53; squamous cell carcinoma; immunohistochemical 

Correspondence: Silvi Kintawati, Department of Oral Biology, Faculty of Dentistry, University of Padjadjaran. Jl. Raya Jatinangor, 
Cibeusi, Jatinangor, Kabupaten Sumedang, Jawa Barat 45363, Indonesia E-mail: silvikintawati@yahoo.com

INTRODUCTION

Squamous cell carcinoma is a tumor often found in 
head and neck, 90% of which is oral cavity malignancy. 
Squamous cell carcinoma can also be considered as an 
aggressive disorder that can undergo metastasis and 
treatment failure, which can result in recurrence of the 
tumor.1

Squamous cell carcinoma is a malignancy of the 
stratified squamous epithelium which can lead to local 
destruction and metastasis.2 Unfortunately, etiology of 
squamous cell carcinoma in oral cavity as well as in other 

forms of carcinoma is still not known certainly. There 
are actually several stimulus factors playing a role in 
the incidence of oral cavity carcinoma, namely extrinsic 
and intrinsic factors. There is no specific factor that can 
be determined as a single carcinogen. Extrinsic factors 
are composed of external resources, such as exposure to 
cigarette, tobacco, alcohol, bacteria, viruses, chemicals 
and ultra violet.2,3

Clinically, squamous cell carcinoma has several 
variations, such as exophytic and endophytic. Exophytic 
lesions typically have an irregular surface and papilla, 
as well as various color from normal to red with white 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 56/DIKTI/Kep./2012.
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
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121121Kintawati./Dent. J. (Majalah Kedokteran Gigi) 2016 September; 49(3): 120–124

patches depended on the amount of keratin produced. The 
surface sometimes is ulcerated, and on palpation the tumor 
mass is hard. Endophytic lesions, on the other hand, are 
characterized by their curvature, irregular edges, ulceration, 
and elevated border (induration) with red mucosa and white 
patches. Destruction of the underlying bone can occur 
with a radiology overview in the form of mouth-eaten 
radiolucent with unsmooth edges.1

Histopathologically, Broders (1920) classifies levels 
of carcinoma grading in the oral cavity into four levels, 
namely level I (well differentiated), level II (moderately 
differentiated), level III (poorly differentiated), and level 
IV (anaplastic). The most common incidences of squamous 
cell carcinoma in oral cavity are in lip inferior, lateral 
and ventral part of the tongue, and floor of the mouth, 
followed by the posterior part of the soft palate as well as 
tonsil area.

To confirm the diagnosis of squamous cell carcinoma, 
histopathological examination is required. Dysplasia rate 
will show the extent of cellular abnormalities, including 
increased mitotic figures, hyper-chromatics, and changes 
in normal cells as well as their maturation. Mild, moderate, 
and severe dysplasia will show epithelial abnormalities with 
many different levels. If an abnormality has involved the 
entire thickness of the epithelium, it can be diagnosed as a 
insitu-carcinoma. If the basement membrane is damaged 
and the invasion into the underlying connective tissue occur, 
it can be diagnosed as a carcinoma.

Prognosis in oral cavity squamous cell carcinoma, 
further depends on histopathological grading and clinical 
staging of the tumor. To enforce the histopathological 
grading, in addition based on histopathology differentiation, 
the earlier histopathological transformation can also be 
assessed.

p53 gene is a tumor suppressor gene that plays an 
important role in carcinogenesis. The role of wild-type 
p53 is very important in suppressing the formation of a 
malignancy. p53 also has many other important functions. 
p53 is a suppressor of tumor/ cancer progression through 
the response of cell cycle to DNA damage and by giving 
time to repair DNA prior to replication of genes, as well as 
the initiation of apoptosis in DNA damage that cannot be 
repaired anymore. It basically can be considered as a central 
monitor directing cells to provide a response in the form of 
termination of the cell cycle and apoptosis.4,5 p53 mutation 
mostly occurs in a malignancy, so earlier histopathological 
transformation can be seen by observing p53 mutation. This 
study aimed to determine correlation of p53 expressions 
and histopathological grading in oral cavity squamous cell 
carcinoma that can be an indicator of the prognosis.

MATERIALS AND METHOD

This study was a retrospective study. Samples used 
in this study were derived from paraffin blocks of oral 
squamous cell carcinoma examined at Department of 

Pathology in Dr. Hasan Sadikin Hospital. In total, there were 
20 cases of oral cavity squamous cell carcinomas selected 
and were stained with hematoxylin eosin for enforcing 
diagnosis and histopathological grading according to 
Broder’s modification (grading I, II and III).

An immunohistochemical examination was performed 
using p53 monoclonal antibodies. Immunohistochemical 
examination on p53 can indicate mutant p53/ p53 mutation 
that leads to transformation of malignancy.4,5 p53 mutation 
then will extend its half-life by increasing the stability of 
the protein, so the tumor cells with p53 mutation will show 
positive immunoreactive p53 in the nucleus/ cytoplasm 
of the tumor cells. Immunohistochemical examination 
of the p53 protein in the tumor cells can also serve as an 
additional method to determine a correlation between the 
p53 genes and other tumor genes.6 p53 primary antibody 
DO-7 clone, M7001 (DAKO, Carpentaria, CA 93013.
USA) can be used in immunohistochemical examination 
with streptavidin biotin peroxidase method. The results 
of the immunohistochemical staining can be indicated as 
positive ones if there is a brownish color expression in the 
nucleus and cytoplasm. The results of the staining then 
are compared to both of the positive control using a colon 
carcinoma that is known to be positive with p53 antibody 
and also the negative control. 

p53 expressions were rated quantitatively and 
intensively. p53 expressions were quantitatively calculated 
at 1000 tumor cells in 10 representative visual fields by 
using a light microscope CX-21 (Olympus America Inc. 
Melville, NY 11747) with a magnification of 400x. In other 
words, p53 expressions were quantitatively categorized 
based on the percentage of positive tumor cells into score 
1 if positive cells less than 25%, score 2 if positive cells 
between 25-50%, score 3 if positive cells between 51-75%, 
and score 4 if positive cells more than 75% with cut-off 
levels of <25% to >75%.3,7 

On the other hand, the intensity of p53 expressions 
are categorized based on color into score 1 for weak 
intensity (light brown), score 2 for moderate intensity 
(chocolate between score 1 and score 3), and score 3 for 
stronger intensity (dark brown).8 Based on the percentage 
and intensity of the p53 expressions, the values of p53 
expressions were calculated by multiplying the percentage 
value of p53 expressions (score 1, 2, 3 or 4) with the 
intensity of the p53 expressions (score 1, 2 or 3). As a result, 
the values of p53 expressions obtained were in a range 
of 1-12, correlated later with histopathological grading 
for squamous cell carcinoma. Data obtained then were 
statistically tested using correlation-regression test.

RESULTS

Of the 20 sample cases of squamous cell carcinomas, 
there were eight (8) males and twelve (12) females with 
a mean age of 49 years old. The location of tumors was 
various, namely, 8 cases in tongue, 5 cases in gingival area, 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 56/DIKTI/Kep./2012.
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
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122 Kintawati./Dent. J. (Majalah Kedokteran Gigi) 2016 September; 49(3): 120–124

2 cases in buccal area, 4 cases in the base of tongue, and 1 
case in palate (Table 1). Grade I squamous cell carcinoma 
was found in 7 cases, grade II in 5 cases, and grade III in 8 
cases. The number of tumor cells with immunoreactive p53 
was also various from <25% to >75%, namely, <25% in 5 
cases, 25-50% in 5 cases, 51-75% in 4 cases, and >75% in 
6 cases. Similarly, the color intensity of the p53 expressions 
was various, weak intensity in 4 cases, moderate intensity 
in 11 cases, and stronger intensity in 5 cases (Table 2).

Based on the quantity and intensity of p53, the values 
of p53 expressions then were calculated by multiplying 
the quantity of p53 expressions with the intensity of p53 
expressions. The values of p53 expressions obtained were 
between 1-12, consisted of score 1 in 4 cases, score 2 in 
3 cases, score 4 in 4 cases, score 6 in 2 cases, score 8 in 2 
cases, score 9 in 1 case, and score 12 in 4 cases. Next, those 
scores were correlated with histopathological grading of 
oral squamous cell carcinoma (Table 3) and (Figure 1).

Based on the results of the statistical analysis using 
a correlation-regression test, there was no correlation 
between p53 expressions and histopathological grading I, II, 
and III as a whole. Nevertheless, there was a very significant 
correlation between p53 expressions and histopathological 
grading I (p <0:01).

DISCUSSION 

Squamous cell carcinoma is a malignancy in oral 
cavity found mainly at the age of 45 years often 
associated with various risk factors, such as smoking and 
drinking alcohol in addition to other extrinsic factors. 
However, many cases of squamous cell carcinoma 
lately are also found in young adults associated with 
those risk factors.3 Squamous cell carcinoma in oral 
cavity will have a poor prognosis when found in an 
advanced stage, in which most patients die within 5 
years after the enforcement of diagnosis.3 Prognosis of 
oral cavity squamous cell carcinoma actually depends 
on histopathological grading and clinical staging of 

Table 1. Characteristics of patients with oral squamous cell 
carcinoma 

Variables n (%) 

Median of age (years)

   <49 4 (20%)

   >49 16 (80%)

Sex

   Males  8 (40%)

   Females 12 (60%)

Location

   Tongue 8 (40%)

   Gingival area 5 (25%)

   Buccal area 2 (10%)

   Base of tongue 4 (20%)

   Palate 1 (5%)

Table 2. Expression and intensity of p53 in histopathological grading of squamous cell carcinoma 

Histopathological 
grading

Expression Intensity p

n <25% 26-50% 51-75%  >75% Weak Medium Strong

Grade I 7 4 2 1 - 4 3 - <0.01 

Grade II  5 1 3 1 - - 5 - 

Grade III  8 - - 2 6 - 3 5

Table 3. The correlation between the scores of p- 53 expressions and histopathological grading of oral squamous cell carcinoma

Histopathological 
grading

Scores of p53 expressions Total p

1 2 3 4 6 8 9 12 

Grade I 4 2 - 1 - -  -  - 7 <0.01

Grade II - 1 - 3 1 - - - 5

Grade III - - -  - 1 2 1 4 8  

0
0.5
1

1.5
2

2.5
3

3.5
4

4.5

1 2 4 6 8 9 12
p-53 expression values

n 
T

um
or Grade I

Grade II
Grade III

Figure 1. Graph of p53 expression values.

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 56/DIKTI/Kep./2012.
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v49.i3.p120-124

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123123Kintawati./Dent. J. (Majalah Kedokteran Gigi) 2016 September; 49(3): 120–124

the tumor.1,2 To enforce the histopathological grading, 
in addition based on histopathological differentiation, 
histopathological transformation found early can be 
observed by using immunohistochemical examination. 
Immunohistochemical examination has been widely used 
to evaluate and analyze the role of various markers in 
predicting prognosis of squamous cell carcinoma.9,10

p53 gene is a tumor suppressor gene that plays an 
important role in carcinogenesis. Normally, p53 genes 
regulate cell cycle from G1 phase to S phase. Increasing 
concentrations of wild-type p-53, consequently, will 
inhibit the cells in the G1 phase into the S phase during 
cell cycle by activating protein p-21 which will inhibit 
the function of cycling -dependent kinase enzyme, 
resulting in terminating the cell cycle, inhibiting cell 
growth, preventing duplication and replication of 
damaged DNA, and allowing for DNA repair. In other 
words, the roles of wild-type p53 are very important in 
suppressing the formation of a malignancy. Wild-type 
p53 also has many other important functions, namely as 
a suppressor of tumor/ cancer progression through the 
response of cell cycle to DNA damage and by giving time 
to repair DNA prior to replication of genes, as well as 
the initiation of apoptosis in DNA damage that cannot be 
repaired anymore, as a result, it basically can be considered 
as a central monitor that directs cells to provide a response 
in the form of termination of the cell cycle and apoptosis.4,5 
If p53 mutation occurs, p53 will lose its function in 
regulating the cell cycle and apoptosis resulting in 
transformation and progression of malignancy. p53 
mutation is one thing that most often occurs in a 
malignancy, so earlier histopathological transformation 
can be observed by looking at the p53 mutation.

p53 mutation has been widely used as markers in a 
variety of malignancies, including in oral cavity squamous 
cell carcinoma.11 Based on various researches that have 
been conducted, there were different correlation found 
between p53 expressions and histopathological grading 
in predicting prognosis.12,13 For instance, a research on 
76 cases of squamous cell carcinoma in larynx conducted 
by Luo et al. shows a significant correlation between p53 
expressions and histopathological grading I, II and III. 
Similarly, Ashraf et al. also shows that p53 expressions can 
predict prognostic in squamous cell carcinoma in larynx.2 
Unlike the previous researches, the researches show that 
there is no significant correlation between p53 expressions 
and histopathological grading I, II and III.10,13-15 

For those reasons, this study aimed to determine the role 
of p53 in immunohistochemistry as well as the correlation 
between p53 expressions and histopathological grading 
in oral cavity squamous cell carcinoma. In all 20 cases of 
squamous cell carcinoma classified by grading I, II and 
III, there was no correlation between p53 expressions and 
histopathological grading in those three groups as a whole. 
Nevertheless, there was a highly significant correlation 
between p53 expressions and histopathological grading I (p 
<0.01). This finding is consistent with a research conducted 

by Rodrigues et al. showing that there is no correlation 
between immunohistochemical p53 and histopathological 
grading in predicting prognosis for 30 cases of squamous 
cell carcinoma of larynx.13 Similarly, another research 
conducted by Motta et al.10 also shows that there is no 
significant correlation between p53 and histopathological 
grading in predicting prognosis for 28 cases of squamous 
cell carcinoma of oral cavity. 

Therefore, it can be argued that p53 expressions 
possibly play a role at the beginning of the occurrence of 
malignant transformation. p53 mutation occurs as an initial 
change of a mutation to malignancy of oral cavity, such 
as dysplasia and leukoplakia.16,17 Although the overall 
p53 expressions in this research were not statistically 
correlated with histopathological grading, there were 
greater distribution of high expression (6 cases) and strong 
intensity (5 cases) in histopathological grading III. It means 
that p53 expressions in those squamous cell carcinoma 
cases of oral cavity were correlated with a poor prognosis 
(grade III). This finding is in accordance with an opinion 
of Motta et al.10 stating that there is a correlation between 
p53 and a poor prognosis in oral cavity squamous cell 
carcinoma. p53 expressions in grading I indicates a highly 
significant correlation (p<0.01) due to the low expression 
distribution (4 cases) and the weak intensity (4 cases) on 
histopathological grading I. This is possibly because of p53 
mutation has a longer half-life, mostly found in a change/ 
occurrence of a malignancy. However, p53 mutation is 
not correlated with increased histopathological grading 
since p53 mutation emerges in the early stage of change 
into malignancy. This is in accordance with an opinion of 
Khanna et al. stating that p53 mutation is considered as an 
initial change of a mutation to malignancy of oral cavity, 
such as dysplasia and leukoplakia.11,13,16,17

It can be concluded that there was no correlation 
between p53 expressions and histopathological grading in 
oral cavity squamous cell carcinoma. p53 cannot be used 
to predict prognosis, but p53 expressions in this research 
still can be considered as a part of the pathogenesis and 
development of a malignancy.

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Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 56/DIKTI/Kep./2012.
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v49.i3.p120-124

http://dx.doi.org/10.20473/j.djmkg.v49.i3.p120-124


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Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 56/DIKTI/Kep./2012.
Open access under CC-BY-SA license. Available at http://e-journal.unair.ac.id/index.php/MKG
DOI: 10.20473/j.djmkg.v49.i3.p120-124

http://dx.doi.org/10.20473/j.djmkg.v49.i3.p120-124