Study population
In Table 1 the clinicopathologic parameters of the included 114 lung cancer patients are presented. Median age of the patients was 70 years. Most of the participants were current (47.4%) or former smokers (35.9%), whereas 14.9% were never smokers. Mostly, lung cancer patients were diagnosed with LUAD (64.9%) or LSCC (23.7%) and the majority of patients (71.9%) were diagnosed with tumor stage T1 or T2.
Table 1
Patients´ characteristics and clinicopathological parameters in the study group of 114 lung cancer patients.
Characteristic
|
Group
|
N (%)
|
Age (years), median (range)
|
|
70 (50–85)
|
Sex
|
Male
|
57 (50.0)
|
|
Female
|
57 (50.0)
|
Smoking status
|
Never
|
17 (14.9)
|
|
Former
|
41 (35.9)
|
|
Current
|
54 (47.4)
|
|
Missing
|
2 (1.8)
|
Histological subtypes
|
Lung adenocarcinoma
|
74 (64.9)
|
|
Lung squamous cell carcinoma
|
27 (23.7)
|
|
Other#
|
13 (11.4)
|
Grade§
|
G1
|
5 (4.4)
|
|
G2
|
50 (43.9)
|
|
G3
|
52 (45.6)
|
|
GX
|
7 (6.1)
|
T Stage
|
T1
|
43 (37.7)
|
|
T2
|
39 (34.2)
|
|
T3
|
16 (14.0)
|
|
T4
|
11 (9.7)
|
|
TX
|
5 (4.4)
|
# four carcinoid, three large cell neuroendocrine carcinomas, two non-small cell lung cancer-not otherwise specified, two adenosquamous carcinoma, one large cell carcinoma-not otherwise specified and one carcinosarcoma of the lung. |
Assessing of TERT and MYC copy number
The median TERT copy number in tumor samples was 2.12 (IQR 1.96–2.56) and in non-tumor samples 1.96 (IQR 1.88–2.04). The difference between tumor and non-tumor samples was statistically significant (p < 0.0001), (Fig. 1a). The highest TERT copy number was 13.40 in tumor tissue and 2.28 in non-tumor tissue. Regarding the histological subtype, differences between LUAD and LSCC samples and their corresponding non-tumor samples were also statistically significant (p < 0.0001 and p = 0.0002, respectively), (Fig. 1a-b, Additional File 1).
For MYC the median copy number was 2.10 (IQR 1.94–2.38) in tumor tissues and 1.96 (IQR 1.89–2.03) in non-tumor tissues and the difference between tumor and non-tumor was statistically significant (p < 0.0001), (Fig. 1b). The highest MYC copy number in tumor samples was 14.41 in contrast to 2.14 in non-tumor samples. Differences between LUAD and LSCC tissues and their corresponding non-tumor tissues were statistically significant (p < 0.0001 and p = 0.0010, respectively), (Fig. 1c-d, Additional File 1).
Differences of copy numbers between the two histological subtypes LUAD and LSCC were not statistically significant, neither for MYC nor for TERT.
For the differentiation between tumor and non-tumor tissue the ROC analysis revealed an AUC of 0.73 (95% CI 0.66, 0.80) for TERT (Fig. 1c) and 0.72 (95% CI 0.65, 0.79) for MYC (Fig. 1d). Using a predefined specificity of 99% (cut-off 2.27) a sensitivity of 41% was observed for TERT. Accordingly, TERT was amplified in 47 of 114 tumor tissues of lung cancer patients. Regarding the histological subtype, TERT was amplified in 30 of 74 LUAD (40.5%) and 13 of 27 LSCC cases (48.1%), (Table 2).
Table 2
Distribution of clinicopathological characteristics regarding different CNV cut-off values in tumor tissue.
Characteristic
|
Group
|
N
|
MYC ≥ 2.10A
(N = 58, 50.9%)
|
MYC < 2.10A
(N = 56, 49.1%)
|
p-value (chi2 test)
|
TERT ≥ 2.27B
(N = 47, 41.2%)
|
TERT < 2.27B
(N = 67, 58.8%)
|
p-value (chi2 test)
|
Age
|
<= 70 years
|
62
|
31 (53.5)
|
31 (55.4)
|
0.8379
|
24 (51.1)
|
38 (56.7)
|
0.5509
|
|
> 70 years
|
52
|
27 (46.6)
|
25 (44.6)
|
|
23 (48.9)
|
29 (43.3)
|
|
Sex
|
Female
|
57
|
22 (37.9)
|
35 (62.5)
|
0.0087
|
21 (44.7)
|
36 (53.7)
|
0.3414
|
|
Male
|
57
|
36 (62.1)
|
21 (37.5)
|
|
26 (55.3)
|
31 (46.3)
|
|
Smoking status
|
Never
|
17
|
6 (10.3)
|
11 (19.6)
|
0.3230*
|
6 (12.8)
|
11 (16.4)
|
0.0590*
|
|
Former
|
41
|
21 (36.2)
|
20 (35.7)
|
|
12 (25.5)
|
29 (43.9)
|
|
|
Current
|
54
|
29 (50.0)
|
25 (44.6)
|
|
27 (57.5)
|
27 (40.3)
|
|
|
Missing
|
2
|
2 (3.5)
|
0 (0.0)
|
|
2 (4.3)
|
0 (0.0)
|
|
Histological subtypes
|
Lung adenocarcinoma
|
74
|
36 (62.1)
|
38 (67.9)
|
0.2827
|
30 (63.8)
|
44 (65.7)
|
0.5670
|
|
Lung squamous cell carcinoma
|
27
|
17 (29.3)
|
10 (17.9)
|
|
13 (27.7)
|
14 (20.9)
|
|
|
Other
|
13
|
5 (8.6)
|
8 (14.3)
|
|
4 (8.5)
|
9 (13.4)
|
|
Grade
|
G1 + G2
|
55
|
24 (41.4)
|
31 (55.4)
|
0.0399
|
23 (48.9)
|
32 (47.8)
|
0.6515
|
|
G3
|
52
|
33 (56.9)
|
19 (33.9)
|
|
24 (51.1)
|
28 (41.8)
|
|
|
GX§
|
7
|
1 (1.7)
|
6 (10.7)
|
|
0 (0.0)
|
7 (10.5)
|
|
T Stage
|
T1
|
43
|
22 (37.9)
|
21 (37.5)
|
0.6470
|
15 (31.9)
|
28 (41.8)
|
0.3371
|
|
T2
|
39
|
23 (39.7)
|
16 (28.6)
|
|
18 (38.3)
|
21 (31.3)
|
|
|
T3 + T4
|
27
|
13 (22.4)
|
14 (25.0)
|
|
14 (29.8)
|
13 (19.4)
|
|
|
TX$
|
5
|
0 (0.0)
|
5 (8.9)
|
|
0 (0.0)
|
5 (7.5)
|
|
* p-value from Fisher’s exact test; A cut-off value for MYC at 99% specificity and 51% sensitivity; B cut-off value for TERT at 99% specificity and 41% sensitivity; § GX was excluded from tests; $ TX was excluded from tests |
For MYC 51% sensitivity was observed using the predefined specificity of 99% (cut-off 2.10). Thus, MYC was amplified in 58 of 114 tumor tissues of lung cancer patients. Regarding the histological subtype MYC was amplified in 36 of 74 LUAD (48.6%) and in 17 of 27 LSCC cases (63.0%), (Table 2).
For the combination of TERT (cut-off 2.29) and MYC (cut-off 2.14) the overall sensitivity increased to 60% at the predefined specificity of 99% using the OR operator, whereas a sensitivity of 39% at 99% specificity was revealed using the AND operator. Thus, using the OR combination for TERT and MYC, a total of 68 lung cancer tissues were identified correctly, 16 samples by TERT, 25 by MYC, and 27 by both markers (Fig. 1e). In particular, the OR combination detected 44 of 74 LUAD (59.5%) and 18 of 27 LSCC cases (66.7%) correctly.
Influence of clinicopathological parameters on TERT and MYC
No significant group difference between tumor tissue and non-tumor tissue with regard to age, smoking status, tumor histological subtype, grading, and T stage could be observed for TERT, whereas MYC showed statistically significant differences between males and females (p = 0.0217) and regarding grading, i.e. G1 + G2 vs. G3 (p = 0.0399) (Table 2).