Background
Breast cancer is a prevalent malignant disease in the world and the leading cause of death in women [
1,
2]. Plentiful risk factors have been identified, including anthropometric factors, reproductive factors, home environment, and genetic factors [
3‐
5]. Family history of breast cancer is a key breast cancer risk factor. It provides clues as to the likelihood of a hereditary breast cancer syndrome and the need for cancer genetics, and can be used to estimate a woman’s risk in the setting of a breast cancer risk assessment model [
6,
7].
Importantly, several studies have suggested that an increased breast cancer risk is observed in subjects with a family history of other cancers, including colon cancer, prostate cancer, ovarian cancer and some other cancers [
8‐
11]. To our knowledge, few studies have systematically reported the relationship between the risk of breast cancer and family history of other cancers. Negri E and colleagues have found there was no material association between family history of cancer (breast cancer excluding) and breast cancer risk in Italy [
8]. The magnitude of the association with family history varies between studies, cancer sites, countries, and state of sex and age, being generally stronger for younger probands [
3,
12‐
15]. Thus, it is necessary and important to determine the relationship between family history of all cancers and the risk of breast cancer in different populations.
According to estrogen receptor (ER) and progesterone receptor (PR) status, breast cancer can be divided into two subgroups: hormone receptor positive and negative breast cancer. Hormone receptor positive and negative breast cancer may share disparate genetic risk factor profiles [
16‐
19]. To our knowledge, the relationship between having a family history of other cancers and risk of subtype of breast cancer has not been reported. Additionally, previous studies have reported that patients (colorectal and lung cancer) with a family history of cancer were younger than those without a family history [
20,
21]. In our country, about 40% of breast cancer patients are younger than 50 years old [
22‐
24]. Therefore, it is important to determine the relationship between family history of other cancers and breast cancer risk among women younger than 50 years old.
Given poor reliability of the recall of cancer in second-degree relatives [
8], only first-degree relatives were used in our analysis to reduce recall bias. This hospital-based case-control study was designed to systematically determine the relationship between breast cancer risk and family history of other cancers in first-degree relatives. In addition, the relationship between family history of other cancers and breast cancer risk among women younger and older than 50 years old was determined. Also, the relationship between family history of other cancers and hormone receptor positive or negative breast cancer risk was investigated separately.
Results
A total of 823 women with breast cancer and 823 age-matched controls were studied. Age distribution of all participants was shown in Table
1. The proportions of subjects in each age group were almost the same (
P > 0.05). Cases and controls in this study were very well matched on age. The other basic characteristics of all included subjects were described previously [
25].
Table 1
Age distribution of participants in the case-control study
≤ 30 y | 17 (2.1%) | 17 (2.1%) |
31 – 40 y | 140 (17.0%) | 140 (17.0%) |
41 – 50 y | 296 (36.0%) | 298 (36.2%) |
51 – 60 y | 235 (28.6%) | 233 (28.3%) |
61 – 70 y | 96 (11.7%) | 93 (11.3%) |
71 – 80 y | 36 (4.4%) | 39 (4.7%) |
≥ 81 y | 3 (0.4%) | 3 (0.4%) |
Total | 823 (100%) | 823 (100%) |
Median | 49 y | 49 y |
SD | 10.82 y | 10.82 y |
The number of cases and controls with a history of selected cancers was shown in Table
2. 106 subjects were reported with a family history of selected cancers in case group and 70 subjects in control group. Of these subjects, more than 50% were reported with a family history of digestive system cancer in both groups.
Table 2
Odds ratio of breast cancer according to family history of selected cancers
Breast | 26/16 | 1.76 (0.94 – 3.31)) |
2.32 (1.07 – 5.03)
|
Lung | 21/13 | 1.74 (0.87 – 3.51) |
2.49 (1.10 – 5.65)
|
Esophagus | 18/7 |
2.79 (1.16 – 6.71)
|
2.70 (1.11 – 6.57)
|
Stomach | 19/17 | 1.20 (0.62 – 2.32) | 1.27 (0.61 – 2.61) |
Intestine | 7/8 | 0.93 (0.34 – 2.59) | 0.91 (0.29 – 2.80) |
Liver | 10/5 | 2.15 (0.73 – 6.32) | 2.25 (0.75 – 6.73) |
Pancreas | 6/5 | 1.28 (0.39 – 4.22) | 1.44 (0.43 – 4.84) |
Gallbladder | 1/2 | 0.53 (0.05 – 5.89) | 1.25 (0.08 – 20.36) |
Larynx | 5/2 | 2.68 (0.52 – 13.84) | 4.41 (0.49 – 39.98) |
Bladder | 1/5 | 0.21 (0.02 – 1.82) | 0.27 (0.03 – 2.44) |
Kidney | 2/1 | 2.14 (0.19 – 23.61) | 2.08 (0.19 – 23.37) |
Prostate | 1/2 | 0.53 (0.05 – 5.89) | 1.94 (0.12 – 32.42) |
Uterus | 7/3 | 2.50 (0.64 – 9.71) | 3.84 (0.79 – 18.73) |
Appendix | 2/2 | 1.07 (0.15 – 7.59) | 2.31 (0.20 – 25.98) |
Lymphoma | 5/3 | 1.78 (0.42 – 7.49) | 4.34 (0.48 – 39.41) |
Digestive tract | 43/30 | 1.56 (0.97 – 2.51) | 1.58 (0.95 – 2.64) |
Digestive system | 59/39 |
1.67 (1.10 – 2.53)
|
1.79 (1.14 – 2.79)
|
Urinary system | 4/8 | 0.53 (0.16 – 1.77) | 0.79 (0.22 – 2.88) |
Hematological system | 6/6 | 1.07 (0.34 – 3.32) | 1.80 (0.42 – 7.65) |
Gynecology | 9/5 | 1.93 (0.64 – 5.79) | 3.34 (0.89 – 12.53) |
≥ 2 histories#
| 5/11 | 0.48 (0.17 – 1.39) | 0.76 (0.24 – 2.47) |
All sites#
| 106/70 |
1.71 (1.25 – 2.36)
|
2.13 (1.49 – 3.04)
|
In univariate analysis (Table
2), a significant increase in breast cancer was only observed in subjects with a family history of esophagus cancer (OR: 2.79, 95% CI: 1.16 – 6.71), digestive system cancer (OR: 1.67, 95% CI: 1.10 – 2.53), and any other cancer (OR: 1.71, 95% CI: 1.25 – 2.36).
When age, age at menarche, childbearing, and menopause status were adjusted (Table
2), a significant increase in breast cancer was still observed in subjects with a family history of esophagus cancer (OR: 2.70, 95% CI: 1.11 – 6.57), digestive system cancer (OR: 1.79, 95% CI: 1.14 – 2.79) and any other cancer (OR: 2.13, 95% CI: 1.49 – 3.04). Additionally, a significantly increased breast cancer risk was observed with a family history of lung cancer (OR: 2.49 95% CI: 1.10 – 5.65). No significant increase in breast cancer was observed with a family history of cancer in other systems (all
P > 0.05). Furthermore, no significantly increased breast cancer risk was observed in subjects with two or more family histories of other cancers (OR: 0.76, 95% CI: 0.24 – 2.47).
In subgroup analysis (Table
3), a significant increase in both hormone receptor positive (OR: 2.36, 95% CI: 1.60 – 3.47) and negative (OR: 2.29, 95% CI: 1.38 – 3.78) breast cancer was observed with a family history of any other cancer. Importantly, a significant increase in hormone receptor positive breast cancer was observed with a family history of lung cancer (OR: 3.37, 95% CI: 1.45 – 7.82); however, subjects with a family history of lung cancer did not show a significant increase in hormone receptor negative breast cancer (OR: 1.30, 95% CI: 0.33 – 5.14). Additionally, a significant increase in hormone receptor negative breast cancer was observed in subjects with a family history of esophagus cancer (OR: 6.19, 95% CI: 2.30 – 16.71) and uterus cancer (including endometrial and cervical cancers, OR: 6.92, 95% CI: 1.12 – 42.89), and no significant increase in hormone positive breast cancer was observed. Similarly, a significant increase in hormone receptor negative breast cancer was observed with a family history of digestive tract cancer (OR: 2.05, 95% CI: 1.03 – 4.10) and gynecology cancer (OR: 6.79, 95% CI: 1.46 – 31.65), and no significant increase in hormone positive breast cancer was observed. Additionally, a significant increase in both hormone receptor positive (OR: 1.79, 95% CI: 1.09 – 2.93) and negative (OR: 2.29, 95% CI: 1.26 – 4.17) breast cancer was observed with a family history of digestive system cancer.
Table 3
Subgroup analysis of breast cancer risk according to family history of selected cancers
breast | 12/16 | 1.69 (0.69 – 4.17) |
9/16
|
3.59 (1.36 – 9.47)
| 12/16 | 2.23 (0.81 – 6.14) | 14/16 | 2.43 (0.73 – 8.20) |
Lung |
17/13
|
3.37 (1.45 – 7.82)
| 4/13 | 1.30 (0.33 – 5.14) | 11/13 | 2.01 (0.70 – 5.79) | 10/13 | 3.24 (0.85 – 12.42) |
Esophagus | 7/7 | 1.56 (0.53 – 4.55) |
11/7
|
6.19 (2.30 – 16.71)
| 10/7 | 2.64 (0.81 – 8.66) | 8/7 | 2.50 (0.65 – 9.67) |
Stomach | 15/17 | 1.69 (0.80 – 3.60) | 4/17 | 0.65 (0.18 – 2.39) | 8/17 | 1.10 (0.40 – 3.03) | 11/17 | 1.49 (0.51 – 4.32) |
Intestine | 6/8 | 1.21 (0.37 – 3.95) | 1/8 | 0.55 (0.06 – 4.68) | 4/8 | 0.72 (0.15 – 3.36) | 3/8 | 1.16 (0.22 – 6.11) |
Liver | 6/5 | 2.29 (0.68 – 7.70) | 4/5 | 2.95 (0.74 – 11.84) | 4/5 | 1.66 (0.37 – 7.53) | 6/5 | 2.82 (0.55 – 14.58) |
Pancreas | 4/5 | 1.53 (0.40 – 5.84) | 2/5 | 1.57 (0.28 – 8.66) | 4/5 | 5.07 (0.56 – 45.84) | 2/5 | 0.51 (0.09 – 2.91) |
Gallbladder | 1/2 | 2.14 (0.13 – 35.41) | / | / | / | / | / | / |
Larynx | 4/2 | 5.19 (0.53 – 50.70) | / | / | / | / | 2/2 | 1.83 (0.16 – 20.55) |
Bladder | 1/5 | 0.41 (0.05 – 3.71) | / | / | 1/5 | 0.39 (0.04 – 3.81) | / | / |
Kidney | 2/1 | 3.12 (0.28 – 35.11) | / | / | 2/1 | 1.93 (0.17 – 21.76) | / | / |
Prostate | 1/2 | 2.78 (0.17 – 46.34) | / | / | / | / | / | / |
Uterus | 4/3 | 3.23 (0.58 – 17.98) |
3/3
|
6.92 (1.12 – 42.89)
| 2/3 | 1.11 (0.15 – 8.11) | / | / |
Appendix | 1/2 | 1.83 (0.11 – 30.22) | 1/2 | 6.01 (0.36 – 101.25) | / | / | 1/2 | 0.99 (0.06 – 16.34) |
Lymphoma | 4/3 | 5.26 (0.54 – 51.20) | 1/3 | 4.64 (0.28 – 78.24) | 2/3 | 1.37 (0.09 – 22.14) | / | / |
Digestive tract | 27/30 | 1.57 (0.89 – 2.77) |
16/30
|
2.05 (1.03 – 4.10)
| 22/30 | 1.49 (0.74 – 3.00) | 21/30 | 1.63 (0.77 – 3.49) |
Digestive system |
37/39
|
1.79 (1.09 – 2.93)
|
22/39
|
2.29 (1.26 – 4.17)
|
31/39
|
1.88 (1.03 – 3.43)
| 28/39 | 1.67 (0.86 – 3.25) |
Urinary system | 4/8 | 1.19 (0.33 – 4.31) | / | / | 4/8 | 1.12 (0.27 – 4.58) | / | / |
Hematological system | 4/6 | 1.78 (0.35 – 8.94) | 2/6 | 3.02 (0.48 – 18.88) | 3/6 | 0.75 (0.12 – 4.64) | / | / |
Gynecology | 5/5 | 2.78 (0.65 – 11.87) |
4/5
|
6.79 (1.46 – 31.65)
| 3/5 | 1.74 (0.28 – 10.66) | 6/5 | 6.16 (0.73 – 52.15) |
Two or more histories#
| 4/11 | 0.96 (0.27 – 3.39) | 1/11 | 0.58 (0.07 – 4.92) | / | / | 5/11 | 1.54 (0.35 – 6.65) |
All sites#
|
73/70
|
2.36 (1.60 – 3.47)
|
32/70
|
2.29 (1.38 – 3.78)
|
58/70
|
1.92 (1.21 – 3.05)
|
48/70
|
2.39 (1.36 – 4.20)
|
Importantly, a significantly increased breast cancer risk was observed with a family history of any other cancer for women both younger (OR: 1.92, 95% CI: 1.21 – 3.05) and older (OR: 2.39, 95% CI: 1.36 – 4.20) than 50 y (Table
3). There was no significantly increased breast cancer risk with a family history of any single cancer for subjects older than 50 y or 50 y and younger. Interestingly, a significant increase in breast cancer was observed with a family history of digestive system cancer for subjects 50 y and younger (OR: 1.88, 95% CI: 1.03 – 3.43) not for subjects 50 y older (OR: 1.67, 95% CI: 0.86 – 3.25) (Table
3).
Discussion
In this hospital-based case-control study, the risk of breast cancer was increased in subjects with a family history of esophagus cancer, lung cancer and digestive system cancer in first-degree relatives. In subgroup analysis, the risk of hormone receptor positive breast cancer was increased in subjects with a family history of lung cancer, while the risk of hormone receptor negative breast cancer was increased in subjects with a family history of esophagus cancer, uterus cancer, and gynecology cancer. Additionally, a significant increase in breast cancer was observed with a family history of digestive system cancer for subjects 50 y and younger, not for subjects 50 y older.
Previous studies have reported that family history of colon, prostate, ovarian cancers has been associated with an increased breast cancer risk [
9,
19]. However, Negri E and colleagues [
8] have found that there was no material association with family history of cancer in general, excluding breast cancer. Another previous study [
27] have found association between breast and prostate cancers. In this study, we firstly found that breast cancer risk was increased in subjects with a family history of lung cancer and esophagus cancer. Importantly, the risk of breast cancer was also increased in subjects with a family history of digestive system cancer in this study. Turati F and colleagues [
28] found a significant association between breast cancer and family history of colorectal cancer with a OR of 1.5. Lifestyle change and no healthy lifestyles may contribute to increasing digestive system cancer morbidity in developing countries. Breast cancer and digestive system cancer may share some etiological factors, including increased body mass index, low fruit and vegetable intake, smoking, and low energy intake [
29‐
31]. Our findings and previous studies suggest that healthy lifestyles, including high dietary fiber, increased physical activity, and no smoking, should be kept [
32]. Negri E and colleagues [
8] have reported that an unexpected relation of breast cancer risk with family history of gallbladder cancer, based on only 7 cases and 1 control. They have inferred that this association may be due simply to chance, since the lower confidence limit was around 1. Turati F and colleagues [
28] found a significant association between breast cancer and family history of hemolymphopoietic cancers. In this study, no relation of breast cancer risk with family history of gallbladder cancer and lymphoma was observed. Our findings confirm the conclusion of the previous studies. However, there was an unexpected relation of breast cancer risk with family history of lung cancer and esophagus cancer, and these associations could not be due simply to chance in this study. Nutritional and diet factors may contribute to these associations. Moreover, ethnicity may contribute to the disparity of our results with the previous studies. Future studies in our country should be taken to confirm our results.
The relationships between having a family history of breast cancer and risk of subtypes of breast cancer defined by hormone receptor status are inconsistent [
18,
19,
33], and the relationship between having a family history of other cancers and risk of subtype of breast cancer has not been reported. An increased risk of hormone receptor negative breast cancer was observed in subjects with a family history of esophagus cancer, uterus cancer, digestive tract cancer, and gynecological cancer; however, no significantly increased risk of hormone receptor positive breast cancer was observed in subjects with a family history of above cancers. Our findings suggest that hormone receptor positive and negative breast cancers have different genetic components. The presence of mutations in the BRCA1 gene are associated with hormone receptor negative breast cancer [
34]. Importantly, BRCA1/2 genes mutations have been detected in gynecological cancer and digestive system cancer [
35‐
40]. BRCA1/2 genes mutations may be contributed to the relationship between having a family history of gynecological cancer and digestive system cancer and increased risk of hormone receptor negative breast cancer. Besides, other gene mutations may also be contributed to the relationship, and should be detected in future studies.
Jiang and colleagues find that women with a family history of breast cancer were more likely to have hormone receptor negative breast cancer than women without a family history, and the association was limited to cancers diagnosed before age 50 [
33]. Similarly, we found a significant increase in breast cancer was observed with a family history of digestive system cancer for subjects 50 y and younger not for subjects 50 y older. Prior estimates have suggested more parts of women diagnosed with breast cancer before age 50 years carry germ-line mutations in BRCA1 than women after age 50 years [
41]. The difference on this issue may also be attributed to the presence of gene mutations.
Our study was the systematic investigation of all other cancers in first-degree relatives and the subsequent breast cancer risk. The strengths of this study are described as following. First, previous studies suggest that the recall of cancer in second-degree is less reliable [
8,
42]. Only first-degree relatives were included in our study to reduce recall bias. Second, cases of breast cancer may tend to recall a family history of other cancers more accurately than controls [
8], and the interviews of family history for all cases and controls were performed before diagnose by trained interviewers. Third, the pathology of all cases and controls was confirmed by an experienced pathologist. Benign breast disease was selected as controls, which included fibroadenoma, mastopathy, intraductal papilloma, and others. The association between breast cancer risk and family history of other cancers may be underestimated; however, no major recall bias existed in the present case-control study.
However, several potential limitations of this study should be considered when interpreting these results. First, the information on other potential risk factors of breast cancer such as diet, smoking, body mass index, and number of siblings, was unavailable. Some of the significant associations could be attributed to chance. Moreover, number of first degree relatives [
43] was not adjusted in this study due to small number of cases ≥ 2 first degree relatives (Table
2). Second, age at diagnosis of the affected relatives was not collected, so the relationship between breast cancer risk and age at diagnosis of the affected relatives could not be calculated. Third, due to the nature of the design of this study, our findings should be confirmed by future cohort studies that also considering other risk factors for breast cancer. Forth, the number of incident cases from some neoplasms was relatively small, and this limited the precision of the risks estimates, especially for subgroup analyses. Some associations, which may be by chance findings or others based on a limited number of exposed cases and controls, need independent confirmation.
Competing interests
The authors declare that they have no competing interests.
Authors’ contributions
SW has contributed to the conception and design of the study, the analysis and interpretation of data, the revision of the article as well as final approval of the version to be submitted. WZ, XL and QD participated in the design of the study, performed the statistical analysis, drafted and revised the article. WZ, XL, QD, HP, NW, ML, YH, LC, XZ performed the experimental study. All authors read and approved the final version of the manuscript.