Human papillomavirus (HPV) is an etiological risk factor for oropharyngeal squamous cell carcinomas (OPSCC). Our study investigates the prevalence, prognostic, and clinicopathologic features of HPV-related oropharyngeal cancer in Northeast China and elucidates the involvement of p16 in the tumorigenesis and progression of OPSCC. Specimens from 1470 OPSCC patients collected from 2000 to 2016 were analyzed using the status of HPV by polymerase chain reaction (PCR) and p16 immunohistochemistry. Overexpression of p16 was observed in 81 (5.51%) of the 1470 cases, and HPV positive was present in 78 cases (5.31%) of the 1470 cases. HPV positive and p16 overexpression have a good concordance. However, we found that the etiological fraction of HPV in cancers of the OPSCCs was obviously lower in Northeast China than other cohorts previously reported. Interestingly, nearly 89% of patients with p16 expression were smokers, and nearly 70% of patients with p16 expression had a history of alcohol. Our study also demonstrates that p16 expression is significantly associated with early stage primary OPSCCs and the patients with p16 expression tend to show better survival following surgery and radiotherapy.
National Natural Science Foundation of China81600539813727858140044381372178Natural Science Foundation of Heilongjiang ProvinceQC2012C041LC2016038Natural Science Foundation of Heilongjiang ProvinceZHY16-032Chinese Postdoctoral Science Foundation2015M5814722016T90310Heilongjiang Provincial Postdoctoral Science FoundationLBH-Z16101LBH-TZ0616Heilongjiang Human Resources and Social Security BureauHarbin Special Fund Project for Science and Technology Innovation2016RAQXJ203Harbin Medical University Cancer HospitalJY2016-061. Introduction
Head and neck squamous cell carcinoma (HNSCC) has been defined as the sixth leading cause of cancer in the world [1]. High recurrence rates and nodal metastases always lead to high mortality of HNSCC. Especially, 5-year survival rates of HNSCC patients with cervical lymph node metastases are reduced by approximately 50% [2]. Conventionally, patients diagnosed with early stage HNSCC would have good prognosis after surgery and adjuvant radiation [3, 4].
Before HPV positive as a new risk factor for HNSCC was found, many risk factors had been reported, including tobacco, poor oral hygiene, and alcohol [5, 6]. Then the prevalence of HPV-related HNSCC, especially oropharyngeal squamous cell carcinomas (OPSCC), was largely observed in many populations in Western Europe, United States, and Australia [3–7]. Nonetheless, the prevalence, prognostic, significance, and correlations of high-risk HPV infection in OPSCCs in China cohort, accounting for 1/4 of the global population, remain blurry. And the precise pathogenesis and clinic pathologic features of HPV-related oropharyngeal cancer in Northeast China are still unclear.
High-risk human papillomavirus (HPV) infection causes the increase of OPSCC [8]. Many studies have shown that the prevalence of HPV-related OPSCC has been evaluated to range from 45 to 90% [3–7]. Moreover, a dominant subtype of HPV16 is thought to represent 90% of HPV-related OPSCC. HPV-related OPSCC is identified as a unique clinical entity. Patients with HPV associated SCC are expected to have the improved survival. Thus the clinical value of exploring the role of HPV in OPSCC is also beneficial to decrease treatment related side-effect [8].
p16 protein expression has been reported to be related to HPV infection, and p16 may be used as a predictive biomarker for HPV high-risk tumors [9]. p16 as a cyclin-dependent kinase inhibitor played an important role in inhibiting CDK4 and cyclin D1 complex dependent phosphorylation of Rb (retinoblastoma), as a tumor suppressor protein [10]. Viral oncoproteins E7 is always expressed in HPV-related cancers. Studies had shown an inhibitory effect of E7 on Rb activation by HPV infection [11, 12]. And inactivation of Rb by HPV-expressed E7 induced the transcription of the cyclin-dependent kinase inhibitor p16 [13]. Importantly, the expression of p16 was a positive indicator for improved survival. Several researches have demonstrated that p16 was a more effective independent prognostic factor for overall survival and progression-free survival than HPV status prediction [14, 15]. However, whether p16 immunohistochemistry could be used as a strong discriminator of clinical outcome in patients with OPSCC has not been defined. Larger studies are necessary to determine whether p16 can be used as well established prognostic variables, including T category, depth of invasion, and nodal status of OPSCC.
In our study, we first investigated the prevalence and prognostic and clinicopathologic features of HPV-related oropharyngeal cancer in Northeast China. Furthermore, we observed that p16 expression was significantly associated with early stage primary OPSCCs and that patients with p16 expression tend to show better survival following surgery and radiotherapy. Our results suggest that p16 may be a prognostic factor of OPSCCs in China.
2. Methods2.1. Patients
This study enrolled 1470 patients with pathology-proven oropharyngeal cancer. Patients were recruited from Harbin Medical University Cancer Hospital (Cancer Center for Northeast China, Harbin, China) from January 2000 to February 2016. Tissues were obtained from patients during surgery.
2.2. Ethics Statement
According to the principles of the Declaration of Helsinki, we conducted this research. All participants in this study signed the written informed consent. The study had been approved by the Institutional Ethics Committee of Harbin Medical University Cancer Hospital.
2.3. Clinical Parameters
The clinical data of controls and IgAN patients, including age, history of smoking, gender, history of alcohol, and treatment, were collected.
2.4. Histopathological Diagnosis
All cases were diagnosed and categorized according to the WHO classification. All slides were reviewed by two pathologists and scored the pathological variables. International Collaboration on Oropharyngeal Cancer Network for Staging (ICON-S) has developed a TNM classification specific to HPV positive oropharyngeal cancer [16, 17]. We followed the TNM stage from 7th edition of the UICC/AJCC TNM classification: no lymph nodes as ICON-S N0; ipsilateral lymph nodes as ICON-S N1; bilateral or contralateral lymph nodes as ICON-S N2; lymph nodes larger than 6 cm as ICON-S N3, which resembles the N classification of nasopharyngeal carcinoma except the lack of a lower neck lymph node variable. The proposed ICON-S classification is as follows: stage I is T1-T2N0-N1, stage II is T1-T2N2 or T3N0–N2, and stage III is T4 or N3. Metastatic disease (M1) is classified as ICON-S stage IV.
2.5. Antibodies and Immunohistochemistry (IHC)
Formalin-fixed samples and paraffin-embedded sections (4 μm thick) were first blocked with 1% H2O2. Then the samples were treated by antigen retrieval in trypsin for 30 min at 37°C, followed by immersion in citrate buffer (pH 6.0; Mitsubishi Chemical Medience, Tokyo, Japan) for 20 min at 120°C in an autoclave. Protein Blocking Agent (Streptavidin-Biotin Universal Detection System; Beckman Coulter, Marseille, France) was used to block the sections. And then the sections were incubated with the following primary antibodies overnight at 4°C: rabbit anti-human P16 (1 : 100, INK4a, IgG, Zhongshan, China). After that, sections were incubated with secondary antibodies from the Streptavidin-Biotin Universal Detection System (Beckman Coulter) and visualized by DAB. The negative controls were specific isotype control antibodies and phosphate-buffered saline (PBS; omitting primary antibodies).
For calculating the p16 [INK4a] expression, nuclear and cytoplasmic positivity were identified as positive reactions and were scored semiquantitatively as described by previous study [15]: negative score was <1% of positive cells; sporadic score was that isolated cells were positive but <5%; focal score was small cell clusters but <80% of positive cells; and diffuse score was >80% of positive cells. Positive cells with p16 expression were defined as strong and diffuse nuclear and cytoplasmic staining in at least 80 percent or more of the tumor cells.
2.6. DNA Extraction and PCR Analysis
Total DNA was extracted and purified from formalin-fixed, paraffin-embedded tissues by DNeasy Micro kit (Qiagen, Hilden, Germany). The resulting DNA was amplified for 35 cycles by PCR. The forward and reverse primers were listed as follows: β-globin 5′-GAA GAG CCA AGG ACA GGT AC-3′ (forward) and 5′-CAA CTT CAT CCA CGT TCA CC-3′ (reverse); HPV 5′-CGT CCM ARR GGA WAC TGA TC-3′ (forward) and 5′-GCM CAG GGW CAT AAY AAT GG-3′ (reverse).
2.7. Statistical Analysis
Student’s t-test was performed to estimate the significant difference between HPV positive OPSCC patients and HPV negative OPSCC patients. We also analyzed the correlation among clinical presentation, HPV state, and P16 by Spearman’s correlation analysis and Pearson’s correlation analysis (SAS Institute Inc., Cary, NC, USA). P values less than 0.05 were considered as significant differences.
3. Results3.1. Clinical and Pathological Parameters
The clinicopathological characters of the 1470 cases of OPSCC were represented in Table 1. Most of patients were males (n=1167; 79.39%) and smokers (n=1296; 88.16%). About sixty percent (60.54%) of 890 patients were alcohol consumers. Among all these patients, patients with surgery only were 1257 cases, patients with surgery followed by radiotherapy were 205 cases, patients with surgery followed by chemotherapy were 5 cases, and patients with surgery followed by radiotherapy and chemotherapy were 3 cases. All of the patients had available follow-up information. 286 patients (19.46%) presented with residual disease, but 1184 patients (80.54%) initially obtained a complete response (CR) after finishing the initial CRT. 62.75% (743/1184) of patients maintained the CR during follow-up; however, 37.24% (441/1184) of patients subsequently showed recurrence or metastasis.
Profiles and clinical parameters of patients.
Clinicopathological findings
Variable
n
%
Age at diagnosis, years
⩽45
85
5.78
46–55
469
31.9
56–65
624
42.45
⩾66
292
19.86
Mean (SD)
58.24 ± 6.64
Age range
31–86
Sex
Male
1167
79.39
Female
303
20.61
History of smoking
Yes (current/former)
1296
88.16
No (never)
174
11.84
History of alcohol
Yes (current/former)
890
60.54
No (never)
580
39.46
Treatment
Surgery alone
1257
85.51
Surgery + radiotherapy
205
13.95
Surgery + chemoradiotherapy
5
0.34
Surgery + radiotherapy + chemoradiotherapy
3
0.2
Event after initial CRT
Residual tumor (PD, SD, and PR)
286
19.46
CR followed by recurrence/metastasis
441
30
Durable CR
743
50.54
Continuous variables are given as mean ± standard deviation.
According to the histologic typing, 174 (11.84%) of the 1470 cases were SCC NOS/conventional nonkeratinizing and 1271 (86.46%) cases were conventional keratinizing. For the differentiation, 467 (31.77%) cases were well, 818 (55.65%) cases were moderate, and 185 (12.95%) cases were poor. Most cases (615, 41.83%) have lymphovascular invasion. For TNM stage statistic, 1395 patients had low–T stage (T1/T2) OPSCC tumors and 75 patients had high–T stage (T3/T4) OPSCC tumors. Moreover, patients with clinically positive lymph node metastasis (N+) were 615 (41.84%). For clinical stage statistic, patients with low clinical stage (I/II) were 91.02% (1338/1470) and high clinical stage (III/IV) were 8.98% (132/1470) (Table 2).
Histological diagnosis of patients.
Histological diagnosis
n
%
Squamous cell carcinoma
SCC NOS/conventional nonkeratinizing
174
11.84
Conventional keratinizing
1271
86.46
Conventional exophytic keratinizing
14
0.95
Basaloid/papillary
2
0.14
Verrucous
1
0.07
Sarcomatoid
4
0.27
Undifferentiated carcinoma
2
0.14
Adenosquamous carcinoma
2
0.14
Differentiation
Well
467
31.77
Moderate
818
55.65
Poor
185
12.59
Lymphovascular invasion
615
41.83
Perineural invasion
441
30
Extracapsular spread
244
16.6
Bone invasion
148
10.07
Pathological T category
T1
182
12.38
T2
1213
82.52
T3
61
4.15
T4
14
0.95
Pathological N category
N0
855
58.16
N1
422
28.71
N2a
119
8.1
N2b
57
3.88
N2c
17
1.16
N3
0
Clinical stage
I/II
1338
91.02
III/IV
132
8.98
3.2. The Relationship between p16 Protein Overexpression and HPV Status
5.51% (81/1470) of OPSCC samples were detected to p16 overexpression by immunohistochemistry (Figure 1). HPV was positive in 78 cases (5.31%) of the 1470 cases by PCR (Figure 2).
Expression of P16-positive cells in oropharyngeal cancer. Immunohistochemical analysis was used to show the expression of P16-positive cells in oropharyngeal cancer (magnification: ×400); nuclear and cytoplasmic positivity were classified as positive reactions and were scored as (a) diffuse (>80% of the cells were stained); (b) focal (small cell clusters, but <80% of the cells were positive); (c) sporadic (isolated cells were positive but <5%); (d) negative (<1% of cells were positive).
HPV DNA-PCR of oropharyngeal cancer. Using PCR, HPV state was detected in Oropharyngeal cancer patients.
Good concordance between HPV positive status and p16 overexpression was established, which was with high sensitivity (100%) and high specificity (96%; Table 3). Consistently, we found that HPV status was significantly more frequently present among the young (age: 46–55) (P<0.01), males (P<0.05), conventional keratinizing type (P<0.01), moderate and poor differentiation (P<0.05), low T stage (P<0.05), lymph node metastasis (P<0.05), high clinical stage (P<0.05), and p16 overexpression (P<0.01) cases (Tables 3 and 4). Specifically, HPV and p16 positive patients usually maintained the CR more during follow-up. Our results also indicated that p16 expression may be a prognostic marker with an improved response to both radiation therapy and chemotherapy.
The relationship between p16 overexpression, HPV status, and clinical parameters of patients.
Variable
p16-IHC
P
HPV DNA-PCR
P
n=1470
n=1470
Positive (n=81)
Negative (n=1389)
Positive (n=78)
Negative (n=1392)
Patient characteristics
Age at diagnosis, years
⩽45
12
73
0.0034
11
74
0.0012
46–55
43
426
0.00004
41
428
0.000058
56–65
16
608
0.00002
16
608
0.000056
⩾66
10
282
0.081
10
282
0.109
Sex
Male
72
1095
0.029
69
1098
0.0417
Female
9
294
0.041
9
294
0.041
History of smoking
Yes (current/former)
72
1224
0.835
69
1227
0.933
No (never)
9
165
0.833
9
165
0.833
History of alcohol
Yes (current/former)
57
833
0.062
54
836
0.106
No (never)
24
556
0.082
24
556
0.08
Treatment
Surgery alone
57
1200
0.00006
55
1202
0.00011
Surgery + radiotherapy
24
181
0.00003
23
182
0.000047
Surgery + chemoradiotherapy
0
8
0.49
0
8
0.501
Event after initial CRT
Residual tumor (PD, SD, and PR)
21
265
0.13
21
265
0.086
CR followed by recurrence/metastasis
35
406
0.007
33
408
0.014
Durable CR
25
718
0.0003
24
719
0.00033
The relationship between p16 overexpression, HPV status, and Histological diagnosis.
Variable
p16-IHC
P
HPV DNA-PCR
P
n=1470
n=1470
Positive (n=81)
Negative (n=1389)
Positive (n=78)
Negative (n=1392)
Histological diagnosis
Squamous cell carcinoma
SCC NOS/conventional nonkeratinizing
13
161
0.862
12
162
0.318
Conventional keratinizing
66
1205
0
64
1207
0.242
Conventional exophytic keratinizing
2
12
0.169
2
6
0.127
Basaloid/papillary
0
2
0.732
0
2
0.737
Verrucous
0
1
0.809
0
1
0.813
Sarcomatoid
0
4
0.628
0
4
0.635
Undifferentiated carcinoma
0
2
0.732
0
2
0.737
Adenosquamous carcinoma
0
2
0.732
0
2
0.737
Differentiation
Well
24
443
0.0017
23
444
0.656
Moderate
20
798
0
19
799
0
Poor
37
148
0.000002
36
149
0
Lymphovascular invasion
56
559
0.0027
56
559
0
Perineural invasion
77
364
0.036
76
365
0
Extracapsular spread
10
234
0.068
8
236
0.122
Bone invasion
4
144
0
4
144
0.136
Pathological T category
T1
4
178
0.073
4
178
0.0456
T2
73
1140
0
70
1143
0.084
T3
2
59
0.394
2
59
0.471
T4
1
13
0
1
13
0.758
Pathological N category
N0
26
829
0.806
24
831
0
N1
25
397
0.02
24
398
0.679
N2a
19
100
0.00066
19
100
0
N2b
9
48
0.00052
9
48
0.00031
N2c
2
15
0.255
2
15
0.232
N3
0
0
0
0
Clinical stage
I/II
6
126
0.611
6
126
0.683
III/IV
75
1263
0.611
72
1266
0.683
3.3. p16 Expression Was Significantly Associated with Improved Survival
Among all 1470 cases, positive p16 expression was linked with markedly improved overall survival (OS, P=0.05), but this result was not significant in multivariate analysis (Table 5).
Association between p16 status and survival.
Univariable (p value)
Multivariable, HR (95% CI)
In patients receiving radiotherapy
P value
(P value)
Disease-specific
0.03a
0.19 (0.02–1.38)
0.14a
0.100b
Disease-free
0.14a
0.67 (0.32–1.36)
0.014a
0.266
Overall survival
0.05a
0.44 (0.15–1.23)
0.038a
0.118
aLog rank test P value; badjusting for effect of depth of invasion alone.
4. Discussion
This study including 1470 patients over a period of 16 years has a few inherent biases typical of a retrospective cohort. The principles of surgical management and patient selection for radiotherapy have essentially remained the same during this period, although there has been increasing use of adjuvant chemotherapy and highly conformal radiation techniques. Consequently, we have used HPV status detection as the gold standard to evaluate the potential clinical value of other prognostic markers for HPV-related OPSCC.
The percentage of HPV positive OPSCC in northeast Chinese patients calculated by our research was substantially lower than that published by recent meta-analysis data in oropharyngeal cancers [18]. The percentage of HPV positive OPSCC was 11.7% in an Eastern Chinese population and 21.7% in Southern Chinese patients as previously reported [19, 20]. The discrepancy may be related to the differences in the geographic origin of patients, heterogeneous laboratory procedures, or different methods used to detect HPV status.
We also found that HPV status was significantly correlated to sex and age of patients. About sex, HPV positive estimates were substantially higher in men than in women in our cohort, different from European cohort in other studies [3–7]. Additionally, we also found that HPV positive estimates were substantially higher in 46–55 ages. Finally, the incidence of tobacco smoking was 88.16% (n=1296) in our cohort and nearly 89% of patients with p16 expression were smokers. Sixty (60.54%) of 890 patients were alcohol consumers, and nearly 70% of patients with p16 expression had a history of alcohol. The carcinogenic effects of smoking and alcohol mediated through p53 mutations are notable.
In our results, we observed that OPSCC patients with p16 overexpression had significantly longer disease-specific survival than p16 negative patients following surgery as well as postoperative adjuvant radiotherapy, which was consistence with published data about the potential prognostic maker of p16 in oropharyngeal cancer. It suggested that p16 may be a biomarker for predicting the prognosis of OPSCC patients in China.
HPV and p16 as biomarkers or therapeutic targets in the treatment of HNSCC have the growing consensus of the importance [21]. In our study, p16 positive patients had significantly longer disease-specific survival on univariable analysis, which was essentially equivalent to that published by previous reports [22–24]. However, p16 expression was not only an independent predictor of survival on multivariable analysis. As discussed above, it may be reasonable to assume that p16 expression may also mediate survival of OPSCC patients by controlling the proliferative capacity and invasive potential of the primary tumor.
5. Conclusion
Our study demonstrates that p16 expression is significantly associated with early stage primary OPSCCs and that patients with p16 expression tend to show better survival following surgery and radiotherapy. p16 expression, as well as HPV status, may be a prognostic maker of OPSCCs in China. Furthermore, the etiological fraction of HPV in cancers of the OPSCCs is substantially lower in Northeast China than that in United States and Western Europe. Thus, the real prevalence of HPV in OPSCCs is still the future burden. Further researches will define the more detailed mechanisms underlying HPV involvement in OPSCCs.
Conflicts of Interest
All authors have read the journal’s policy on disclosure of potential conflicts of interest declare that they have no conflicts of interest.
Authors’ Contributions
Hong-xue Meng, Su-sheng Miao, and Kexin Chen contributed equally to this study.
Acknowledgments
This work was supported National Nature Science Foundation of China (81600539, 81372785, 81400443, and 81372178), Natural Science Foundation of Heilongjiang Province of China (QC2012C041, LC2016038), Foundation of Heilongjiang administration of Traditional Chinese Medicine (Huining Li, ZHY16-032), Chinese Postdoctoral Science Foundation (2015M581472), Special Financial Grant from the China Postdoctoral Science Foundation (2016T90310), Postdoctoral Science Foundation of Heilongjiang Province of China (LBH-Z16101, LBH-TZ0616), Heilongjiang Human Resources and Social Security Bureau (Hong-xue Meng), Harbin Special Fund Project for Science and Technology Innovation (2016RAQXJ203), Foundation for Liver and Gall Group of Nn10 Fund Project of Harbin Medical University Cancer Hospital, and Youth Elite Training Foundation of Harbin Medical University Cancer Hospital (JY2016-06).
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