Hereditary Breast Cancer in the Han Chinese Population

Breast cancer is the most common malignancy among women and has a strong genetic background. So far, 13 breast cancer susceptibility genes of high or moderate penetrance have been identified. This review summarizes findings on these genes in Han Chinese. BRCA1 and BRCA2 are the 2 most important susceptibility genes. They have a relatively low mutation rate, and the most frequent sites of mutation are in exon 11. Frameshift mutations are the main type of mutation. Founder mutations may also exist, and BRCA-associated breast cancer has specific clinicopathologic characteristics. TP53 and PALB2 are relatively rare susceptibility genes. The relationship between the other 9 genes and breast cancer has not been fully elucidated. At present, the mutation spectrum for these susceptibility genes is not well understood in the Chinese population, and there are few reports on prognosis and clinical intervention in high-risk populations. Therefore, the true value of genetic counseling for breast cancer has yet to be realized. This article reviews studies of hereditary breast cancer in the Han Chinese population, highlights potential inadequacies, and provides a foundation for genetic counseling for breast cancer in China.


INTRODUCTION
Breast cancer has an incidence rate of 16.39 per 100 000 Chinese women and seriously affects the lives and health of this population.Among women in economically developed Chinese provinces and cities, breast cancer has the highest incidence of all cancers and is the fourth most common cause of cancer death.Breast cancer also has a strong genetic background.Hereditary breast cancer tends to display familial aggregation and is associated with early age at onset and a high incidence of bilateral occurrence.Since the discovery of the breast cancer susceptibility genes BRCA1 and BRCA2 in 1994, a total of 18 breast cancer-associated susceptibility genes have been identified.These genes include breast cancer susceptibility genes with high penetrance (CDH1, NBS1, NF1, PTEN, TP53, and STK11), moderate penetrance (ATM, BRIP1, CHEK2, PALB2, and RAD50), and low penetrance (FGFR2, LSP1, MAP3K1, TGFB1, and TOX3). 1 The United States and most countries in Europe have professional genetic services programs that provide genetic testing and counseling regarding the risk of developing breast cancer.Research on hereditary breast cancer in the Chinese population started late, and relevant studies of mainland Chinese have only begun to be reported in the last decade or so.However, most of these studies involved single centers and small numbers of cases, which are important shortcomings.China has 56 ethnic groups, but the Han ethnic group makes up more than 90% of the country's population.Therefore, most studies of hereditary breast cancer have focused on this population, to the exclusion of other ethnic groups.Moreover, although several single nucleotide polymorphisms (SNPs) associated with breast cancer risk have been identified as low-penetrance susceptibility polymorphisms within genes, the frequencies of these polymorphisms substantially differ between races, which leads to inconsistent results.For example, the TGFRB1 rs1982073 C-allele increases breast cancer risk in many races 2 but is not associated with breast cancer risk in the Chinese population. 3Eight SNPs (rs2046210, rs1219648, rs3817198, rs8051542, rs3803662, rs889312, rs10941679, and rs13281615) are associated with breast cancer risk among Chinese women, and a risk assessment model that includes these genetic markers and clinical predictors might be useful in classifying Asian women into relevant risk groups. 4owever, the moderate discriminatory accuracy provided by such a full risk assessment model was inadequate for cancer diagnosis and screening.In addition, absolute risk estimates generated by the model would be applicable only to populations with rates comparable to those seen in Shanghai.Therefore, further research is needed to evaluate low-penetrance susceptibility genes and their association with breast cancer risk in the Chinese population.Currently, it is too early for low-penetrance susceptibility genes to be described as the target of genetic counseling in Chinese population.Therefore, we do not discuss such genes in this article.Instead, we have chosen to review studies of moderateand high-penetrance breast cancer susceptibility genes in the Han Chinese population.

BRCA1 AND BRCA2
BRCA1 and BRCA2 are located on chromosomes 17q21 and 13q12.3,respectively.BRCA1 consists of 24 exons, of which exons 1 and 4 are non-coding.BRCA2 consists of 27 exons, of which exon 1 is non-coding.The BRCA1 and BRCA2 proteins have an important role in repairing DNA doublestranded breaks.Germline mutations in these 2 genes contribute to the pathogenesis of 20% to 40% of familial breast cancers in whites, thus accounting for 5% of all breast cancers. 5The risk of breast cancer in carriers of the BRCA1 and BRCA2 mutations is 51% to 75% and 33% to 54%, respectively, before age 70 years.In particular, there is a 100fold higher risk of breast cancer in male carriers of the BRCA2 mutation. 6These 2 genes have been frequently reported in the Chinese population.BRCA1 and BRCA2 germline point mutations in the Han Chinese population are shown in eTables 1 and 2, respectively.

Point mutation and founder mutation
Point mutations are the most common type of mutation and have been frequently reported in the Chinese population.Mutations within exon 11 of BRCA1 and BRCA2 are the most common and accounted for 56.3% (58/103) and 53.8% (49/91) of all mutations, respectively (Tables 1 and 2).The most common detection methods include polymerase chain reaction (PCR)-based screening methods such as singlestrand conformation polymorphism (SSCP) and denaturing high-performance liquid chromatography (DHPLC).After detection of abnormalities and subsequent sequencing, these methods can significantly reduce testing costs, but a considerable number of disease-associated mutations may be missed by these indirect detection methods. 24In particular, the sensitivity of SSCP is a concern, as it has a direct-sequencing mutation detection rate of 76%.The mutation types are frameshift mutation, nonsense mutation, splice-site mutation, and missense mutation.Frameshift mutation is the most common, accounting for 63.1% (65/103) and 74.7% (68/91) of all mutations in BRCA1 and BRCA2, respectively (Tables 1  and 2).Frameshift mutations, nonsense mutations, and the effects of splicing can cause abnormal protein function and are the most easily identified pathogenic mutations.However, further verification is required for some other site changes.For example Kwong et al 25 reported that the 7806-9T>G mutation at BRCA2 intron 16 can cause 3 types of aberrant splicing variants: 7806_7874del, 7806_7976del, and 7806-8_7806-1ins.All identified cut protein was truncated; thus, the 7806-9T>G mutation is pathogenic.Some missense mutations are also pathogenic, eg, 5482G>T in BRCA1 can cause Gly1788Val, 17 as has been reported in the Breast Cancer Information Core (BIC).The overall BRCA1/BRCA2 mutation rate is relatively low in the Chinese population.In reporting mutations, most studies did not carefully distinguish familial breast cancer from early-onset breast cancer.Therefore, to analyze mutation rate we selected the 2 largest well-designed studies. 16,23The mutation rates of BRCA1 and BRCA2 in familial breast cancer ranged from 3.9% to 6.9% and 5.8% to 6.6%, respectively.This is consistent with rates in other Asian ethnic groups. 26oreover, in early-onset breast cancer, mutation rates of these genes were 5.1% and 4.0%, respectively. 16The overall BRCA1/BRCA2 mutation rate was 23.0% to 26.1% in both early-onset breast cancer and familial cases. 16,23A history of ovarian cancer was associated with a higher BRAC1/BRCA2 mutation rate in breast cancer, as compared with patients without such a history (26.7% vs 11.9%, P = 0.11).Moreover, in families with 2, 3, or 4 breast or ovarian cancer cases, there was no difference in BRAC1/BRCA2 mutations, and the mutation rates were 11.6%, 11.1%, and 11.1%, respectively.Another study, by Suter et al, 11 found that the rates of BRCA1 and BRCA2 mutations in sporadic breast cancers were 0.7% (4/590) and 1.0% (6/590), respectively, in China.
BRCA1 and BRCA2 founder mutations have been identified in some populations.These mutations first occurred as common ancestors in a specific group of people and then spread as the population expanded, eg, the BRCA1 185delAG and 5382insC mutations and BRCA2 6174delT mutation in the Jewish population, 27 the BRCA2 999del5 mutation in the Icelandic population, 28 the BRCA1 R71G mutation in the Spanish population, 29,30 the BRCA1 4184del4 and BRCA2 2157delG mutations in the English population, 31 and the BRCA2 S2834X and 5802del4 mutations in the Japanese population. 32In mutation screening of these populations, screening for founder mutations should be done first.Other sites can be then screened if founder mutations are not found.This method has obvious advantages, such as shorter detection time, and lower cost, than whole-genome screening.The most common recurrent mutations in Chinese are 5589del8 in BRCA1 and 3109C>T in BRCA2 (Table 3).In addition, founder mutations might exist in the Chinese population, such as the 1100delAT and 5589del8 mutations in BRCA1 16 and the 3109C>T mutation in BRCA2. 19Among these, the 1100delAT mutations have also been identified in Malaysian Chinese, 15 and the 5899del8 mutation has also been reported. 11,13Kwong et al 19 found that the BRCA2 3109C>T mutation accounted for 28.6% of all BRCA2 mutations in a high-risk breast cancer group.Haplotype analysis confirmed that BRCA2 3109C>T is a founder mutation in the Southern Chinese population.However, such mutations have not been reported in other studies.

Large genomic rearrangements
Conventional PCR can only detect small fragments or a single base change.The overall detection rate for PCR in detecting BRCA1 and BRCA2 mutations in high-risk families with breast/ovarian cancer is considerably lower than that for linkage analysis. 33Therefore, researchers speculate that there might be other types of mutations.Large genomic rearrangements in BRCA1 and BRCA2 have recently been confirmed in a number of populations.These mutations were mainly detected by multiplex ligation-dependent probe amplification (MLPA) and account for 4% to 28% of all BRCA1/BRCA2 mutations. 34Although no relevant research in mainland China has been reported, studies of Chinese populations in other regions and countries reported large genomic rearrangements in these 2 genes.Yap et al 35 first performed MLPA analysis using the P002 test kit to study  42 did not find evidence of an association between rs11655505 and breast cancer risk in whites.In analyzing the above data, we believe that the differing results of these 2 studies may be related to the different frequency distribution of polymorphisms in Han Chinese and whites.
2.4 Models for predicting BRCA1/BRCA2 mutations Most reports regard BRCA1/BRCA2 testing as standard for high-risk groups with early-onset or familial breast cancer.
In addition, such screening is sometimes recommended for women with a history of ovarian cancer.However, the sensitivity and specificity of these standards are a concern.For example, in China, BRCA1/BRCA2 testing is unnecessary in more than 80% of so-called high-risk groups.Currently, there are some international models for predicting BRCA1/BRCA2 gene mutations, such as the BRCApro, BOADICEA, and Myraid models, of which BRCApro is the most commonly used model for familial breast cancer. 43The BOADICEA model can be used for both familial breast cancer and agespecific breast cancer in small families. 44The Myriad model, developed by Myriad Genetics, Inc. in the United States, is based on data from 10 000 cases of breast/ovarian cancer, including 2539 Jews. 45In the Italian population, the Myriad model has better sensitivity than the BRCApro model for predicting BRCA1/BRCA2 mutations (89% vs 67%, respectively), and similar specificity (51% vs 57%, respectively). 46Thirthagiri et al 15 studied 187 high-risk breast cancer patients in Asia (63.1% of whom were Chinese) and showed that the sensitivity of the BOADICEA prediction model for BRCA1 and BRCA2 mutations was 57% and 9%, respectively.Rao et al 47 applied the BRCApro, Penn, and Myriad models to 212 Chinese familial breast cancer patients, among whom 33 had BRCA1 or BRCA2 mutations.The sensitivity of the 3 models for predicting BRCA1 mutation was 67%, 13%, and 40%, respectively, while the sensitivity of the BRCApro and Penn models for predicting BRCA2 mutation was 26% and 1%, respectively.Clearly, these models are not suitable for the Chinese population, probably because the penetrance and prevalence parameters of these models were derived from whites. 48Chen et al incorporated Asianspecific phenocopy rates into the BRCApro model.The modified model was able to predict more mutations, especially in the lowest decile, as compared with the unmodified BRCApro model. 49Therefore, Rao et al 50 established a mutation prediction model based on the characteristics of BRCA1-or BRCA2-associated breast cancers in the Chinese (%) BRCA1 5589del8 11,13,16 Exon24 Stop1826 11 10.7 1100delAT 15,16 Exon11 Stop328 6 5.8 3478del5 13,16,17,23 Exon11 Stop1138 5 4.9 1235G>A 12,13,23 Exon11 W372X 3 2.9 3712insG 20 Exon11 Stop1218 3 2.9 IVS3-2A>G 11 Intron2 Splicing site 2 1.9 IVS8-24del10 7 Intron7 Splicing site 2 1.9 2229delAA 11,16 Exon11 Stop710 2 1.9 3887delAG 17,23 Exon11 Stop1265 2 1.9 4035delTT 23 Exon11 Stop1328 2 1.9 IVS21+1delG 17,23 Intron21 Splicing site 2 1.9 5482G>T 17,23 Exon22 G1788V 2 1.9 5587-1del8 17,23 Exon24 Stop1831 2 1.9 5640delA 16,23 Exon24

Clinicopathologic characteristics of BRCAassociated breast cancer
The clinicopathologic features of BRCA-associated breast cancer are more specific than those of sporadic breast cancer.
In the Chinese population, as compared with sporadic breast cancer, BRCA1-associated breast cancer had a higher pathologic grade, and higher percentages of CerbB-2negative and triple negative (ER/PR/CerbB-2-negative) tumors. Kwong et al 52 reported that BRCA mutation carriers were more likely than non-carriers to have cancers of higher histologic grade and triple negative cancers (48.3% vs 25.6%, P = 0.01).As compared with BRCA2-associated breast cancer, BRCA1associated breast cancer had a higher ER-negative rate and larger tumor diameter.Li et al 16 reported that age at onset of BRCA1-associated breast cancer was significantly earlier as compared with BRCA2-associated and sporadic breast cancers (median age: 36.1 years in BRCA1-associated, 42.7 years in BRCA2-associated, and 47.3 years in sporadic breast cancer).However, there was no significant difference in age at onset in patients with BRCA2-associated and sporadic breast cancers.BRCA-associated breast cancer pedigrees showed that gastric cancer was the most common cancer, other than breast/ovarian cancer.In some populations, TP53 mutations have been detected in 56% to 100% of BRCA1-associated breast cancer cases, 53 but detection of TP53 mutations in the Chinese population has not been reported.

OTHER BREAST CANCER SUSCEPTIBILITY GENES
In addition to BRCA1 and BRCA2, other breast cancer susceptibility genes have also been extensively studied in Chinese.In Table 4, we summarize all studies of diseaseassociated germline mutations in Chinese women with BRCA1/BRCA2-negative breast cancer.

TP53
The protein of the TP53 gene has important roles in the control of cell cycle progression, repair of DNA damage, genomic stability, and apoptosis. 54TP53 mutations are found in 50% to 70% of individuals with Li-Fraumeni syndrome, an autosomal dominant inherited disease that was first reported in 1969 and is a rare cancer-predisposing syndrome.The most common cancers associated with this syndrome include breast cancer, leukemia, soft tissue sarcoma, and brain tumors.Li-Fraumeni syndrome accounts for about 1% of hereditary breast cancers. 55Age at tumor onset is earlier: the risk of developing cancer by age 40 years is 50% and as high as 90% by age 60. 56 In 24 families with Li-Fraumeni syndrome, the incidence of breast cancer was 22.5% (45/200), age at onset was younger than 45 years in 77% of women, the proportion of bilateral breast cancer was 5%, and 11% of breast cancer cases were associated with other tumors. 57In China, Cao et al 58 found that the frequency of disease-associated TP53 germline mutations was 0.8% (1/240).BRCA1/BRCA2 mutations were excluded in these patients, and the clinical criteria were not consistent with Li-Fraumeni/Li-Fraumenilike syndrome.It had been proposed that TP53 should be tested in women without BRCA1/BRCA2 mutation who are at high risk for breast cancer.

BRIP1
The BRIP1 gene is also known as BACH1.Biallelic mutation carriers of this gene are susceptible to Fanconi anemia.The BACH1 protein binds with the BRCT protein binding sites and has a key role in repair of DNA double-stranded breaks via the BRCA1 pathway. 59A study of a large sample of 1212 patients found truncating mutations in 9 breast cancer patients from BRCA1/BRCA2 mutation-negative families, while such mutations were found in only 2/2081 healthy individuals, suggesting that BRIP1 heterozygous mutation carriers had a relative risk of 2.0 for breast cancer. 60Cao et al 61 suggested that the Q944E alteration represents a rare disease-related allele in Chinese non-BRCA1/BRCA2 early-onset or familial breast cancer.However, due to lack of functional verification it is unclear whether this mutation causes protein dysfunction.
In addition, Huo et al 62 used PCR-primer introduced restriction analysis assays to genotype the rs4986764 polymorphism of BRIP1 in a case-control study of 568 breast cancer cases and 624 controls in a Chinese population.They confirmed that the polymorphism had no relationship with breast cancer risk.In sum, germline mutations of BRIP1 are extremely rare in Chinese, and there is thus insufficient evidence for recommending BRIP1 in genetic testing of Chinese.

PALB2
Like the BRIP1 gene, individuals with biallelic mutations in PALB2 are susceptible to Fanconi anemia.The PALB2 protein can bind to the N-terminal of the BRCA2 protein and has an important role in DNA stability.Rahman et al 63 reported truncating PALB2 mutations in 10/923 individuals with familial breast cancer and no such mutations in healthy controls, suggesting that such mutations conferred a relative risk of 2.3 for breast cancer.Nevertheless, the phenomenon of incomplete segregation of the mutation reflected difficulties in screening this gene in breast cancer families when unaffected women asked for predictive molecular testing to determine their individual breast cancer risk.Cao et al 64 found that the frequency of disease-related germline mutations in PALB2 was 0.8% (3/360) in BRCA1/BRCA2-negative Chinese women with early-onset or familial breast cancer.Chen et al 65 used the GenomeLab SNPstream 12-plex Genotyping System to study SNPs of PALB2 in a cohort of 1049 breast cancer cases and 1073 controls in a Chinese population.They confirmed that rs249954, rs120963, and rs16940342 were associated with 36% (P = 0.001; TT/TC vs CC genotypes), 25% (P = 0.014; CC/CT vs TT genotypes), and 21% (P = 0.037; GG/GA vs AA genotypes) increases in breast cancer risk, respectively, while rs249935 was not associated with breast cancer risk.However, Cao et al 66 reached a different conclusion.They found that the PALB2 rs249935 G allele was related to a 1.21-fold increased risk of breast cancer for each A allele carried, while rs249954 and rs16940342 had no role in breast cancer risk.In addition, they found that, as compared with rs447529 CC homozygotes, carriers of the GG/GC genotypes had a 0.43-fold lower risk of breast cancer.
The completely different results of these 2 studies could be due to case selection bias and thus need to be validated in other populations.Therefore, germline mutations in PALB2 should be tested in Chinese at high risk for breast cancer.However, it is unclear whether SNPs are within the scope of genetic counseling.

CDH1
The CDH1 gene encodes E-cadherin, the calcium-dependent cell-cell adhesion glycoprotein.CDH1 gene mutation is related to hereditary diffuse gastric cancer and lobular carcinoma of the breast.The risk of breast cancer was 50% higher in women with a family history of diffuse gastric breast cancer. 67CDH1 mutations have also been found to be associated with familial lobular carcinoma of the breast in individuals without a family history of diffuse gastric breast cancer. 68The CDH1 gene appears to be rare in Chinese with breast cancer.Zhu et al 69 found no germline diseaseassociated mutations in a patient with familial diffuse gastric cancer and lobular breast cancer.More research is required in order to describe the role of CDH1 mutations in Chinese at high risk of breast cancer.

CHEK2
The CHEK2 gene encodes a cell cycle checkpoint kinase.When DNA is damaged, CHEK2 is activated by ATM, resulting in phosphorylation of BRCA1, which has a role in the repair of DNA double-stranded breaks.The CHEK2 1100delC mutation has been found to double the risk of breast cancer in women. 70A meta-analysis found a cumulative risk of 37% before age 70 years in carriers of the mutation. 71owever, the CHEK2 1100delC mutation was not found in Chinese women at high risk of breast cancer, [72][73][74][75] or in other Asian populations. 76Liu et al 75 screened the entire gene of CHEK2 and found that H371Y increased breast cancer risk (OR = 2.43, 95% CI = 1.07-5.52,P = 0.034).On the basis of these studies, we believe that the CHEK2 1100delC mutation is either rare or absent in high-risk breast cancer groups in China.The incidence of this mutation in breast cancer is very low; therefore, CHEK2 1100delC is not an appropriate indicator in breast cancer gene mutation screening.However, the H371Y mutation confers a moderate risk of breast cancer in Chinese women and should be considered in genetic testing.

PTEN
The PTEN gene codes a dual-specificity phosphatase with lipid and protein phosphatase activity. 77Mutations in the PTEN gene cause Cowden syndrome, a rare autosomal dominant inherited disease that predisposes affected individuals to breast cancer, thyroid carcinoma, endometrial carcinoma, and hamartoma with high fat content. 78The risk of developing breast cancer before age 70 years is 30% to 50% in affected women, and most cases occur before menopause.
There is also an increased risk of breast cancer in men. 79hen Cowden syndrome was diagnosed according to Consortium criteria for the diagnosis of Cowden syndrome, nearly 80% of patients carried PTEN mutations. 80

RAD50 and NBS1
The proteins of the genes NBS1, RAD50, and MRE11 form MRN complex, which has a role in the identification and repair of DNA double-stranded breaks.Mutations in the NBS1 gene cause Nijmegen breakage syndrome, an autosomal recessive inherited disease that manifests as microcephaly, growth retardation, immunodeficiency, and cancer susceptibility.In some ethnic groups NBS1 and RAD50 have been shown to be associated with breast cancer, eg, NBS1 657del5 increased breast cancer risk by 3-fold in Central and Eastern Europeans, 86 I171V increased breast cancer risk among Poles, 87 and RAD50 687delT was associated with a relative risk of 4.3 for breast cancer. 88However, no deleterious mutation in these 2 genes was found in 384 non-BRCA1/BRCA2 hereditary breast cancers in Chinese. 89Thus, there is no evidence to recommend RAD50 and NBS1 for genetic testing in China.

CONCLUSIONS
BRCA1 and BRCA2 are the most important genetic factors in hereditary breast cancer in the Han Chinese population, but the mutation rates are lower than in other ethnic groups.Future efforts should emphasize development of a model that predicts BRCA1/BRCA2 mutation, so as to avoid unnecessary mutation-negative genetic testing.The characteristics of BRCA1/BRCA2 mutations in the Chinese population suggest that screening may detect founder mutations.Subsequent founder mutation-negative cases could be detected in exon 11.If all the above results are negative, other exons should be tested.This process can improve detection efficiency and reduce the overall cost of testing.More research on noncoding regions is needed.Also, as in other populations, large genomic rearrangements warrant the attention of researchers in mainland China.Although germline mutations in TP53 and PALB2 are rare, Chinese with BRCA1/BRCA2 mutation-negative high-risk breast cancer should be screened for these 2 genes.Moreover, CHEK2 H371Y should be considered in genetic testing.CHEK2 1100delC, RAD50, and NBS1 do not appear to correlate with breast cancer in the Chinese population and should not be considered in genetic testing.There is a need for comprehensive studies of germline mutations in other genes, such as CDH1, PTEN, ATM, and BRIP1.In addition, 2 other high penetrance breast cancer susceptibility genes-STK11 and NF1-have not been reported in the Chinese population.These genes cause autosomal dominant hereditary diseases such as Peutz-Jeghers syndrome and neurofibromatosis I, respectively, and need to be carefully investigated.The role of SNPs of these genes in breast cancer is not clear.However, at present, these genes have no value in genetic counseling for breast cancer risk in China.In total, susceptibility genes explain breast cancer etiology in less than 20% of Chinese women at high risk of breast cancer.Further studies are needed so as to identify other susceptibility genes.The development of new technologies, such as next generation sequencing and proteomics technology, has led to new ideas in the search for new susceptibility genes.
The main purpose of research on hereditary breast cancer is to identify high-risk individuals and develop early interventions, including intensive clinical examination and preventive measures that reduce breast cancer morbidity and mortality.However, preventive intervention reports on individuals at high risk of breast cancer are limited in the Chinese population.Thus, in China, and especially in mainland Chinese patients and clinicians, there is insufficient understanding of the importance of genetic screening and counseling.Therefore, comprehensive genetic counseling agencies for patients should be improved, to give them the necessary clinical, social, and psychological support.Research on hereditary breast cancer in China still has a long road ahead.

ONLINE ONLY MATERIALS
eTable 1. Disease-associated BRCA1 germline mutations in Chinese women with high-risk breast cancer.eTable 2. Disease-associated BRCA2 germline mutations in Chinese women with high-risk breast cancer.

Table 1 .
Disease-associated BRCA1 germline mutations in Chinese with breast/ovarian cancer

Table 2 .
41sease-associated BRCA2 germline mutations in Chinese with breast/ovarian cancer Chen et al40detected an upstream promoter sequence of −397-+123 bp in BRCA2 in 357 Chinese Han patients with familial or early-onset breast cancer.No pathogenic mutation was found.Chan et al41reported that in a Chinese population the BRCA1 promoter region polymorphism rs11655505 significantly reduces breast cancer risk in genotypes CT/TT (OR = 0.64, 95% CI = 0.47-0.88,P = 0.005) as compared with the CC genotype.However, Verderio et al 39breviations: HBC, hereditary breast cancer; HOBC, hereditary breast/ovarian cancer; Early-BC, Early-onset breast cancer; SBC, sporadic breast cancer; OC, ovarian cancer; FS, frameshift mutation; NS, nonsense mutation; SS, splice-site mutation; PCR, polymerase chain reaction; SSCP, single-strand conformation polymorphism; SEQ, sequencing; DHPLC, denaturing high-performance liquid chromatography.BRCA1 in 108 high-risk Singaporean Chinese patients and found large genomic rearrangements in 2 cases.They then used the P087 MLPA kit to reanalyze all results and found that 1 case was false-positive and that the other case had a confirmed exon 13 duplication (g.41 220_49682dup8463).2.3 Non-coding regions and single nucleotide polymorphismThere have been reports of mutations in non-coding regions.Wang et al39reported an 118A>T mutation in the 5′untranslated region of the BRCA1 gene in sporadic breast cancers.This mutation might downregulate translational efficiency of the protein.

Table 3 .
Recurrent germline mutations of BRCA1 and BRCA2 in the Chinese population

Table 4 .
Germline mutations of other genes in Chinese with BRCA1/BRCA2-negative breast cancer 85ng et al81reported PTEN mutations in 22% (11/50) of breast cancers in China, but the germline mutations have not been studied.3.7 ATMThe protein expressed by the ATM gene plays a role in DNA double-stranded break repair pathways by upstreaming the BRCA1 gene.Biallelic mutations of the ATM gene cause ataxia telangiectasia, which manifests as cerebellar ataxia, immune deficiency, and a variety of tumors such as leukemia, lymphoma, glioma, medulloblastoma, and breast cancer.The role of ATM as a risk factor for breast cancer has been discussed for nearly 20 years, and the estimated relative risk is 1.3 to 12.7.82Renwicketal83reportedATMmutations in 12 of 441 breast cancer cases with BRCA1/BRCA2-negative mutations.The mutation rate was 0.38% (2/521) in healthy controls, suggesting a relative risk of 2.37 for breast cancer.Currently, no germline mutations have been found in the Chinese population, and only a small number of ATM SNPs have been reported as risk factors for breast cancer.In a 2-stage case-control study Ye et al84reported that the ATM polymorphisms rs1800054, rs1800058, rs664143, rs228589, and rs1003623 had no role in breast cancer.Wang et al85studied 360 samples from Han Chinese and reported that, by interacting with BRCA1 rs4793191 and BRCA2 rs9567623, the ATM polymorphism rs611646 might have a role in breast cancer risk.It remains to be confirmed in a germline mutations study whether ATM is the breast cancer susceptibility gene in Chinese.The role of the gene SNP in increasing breast cancer risk has not been widely studied.There is no basis for clinical ATM genetic counseling at this time.