Ethnicity-specific BRCA1, BRCA2, PALB2, and ATM pathogenic alleles in breast and ovarian cancer patients from the North Caucasus.

BACKGROUND: Mountain areas of the North Caucasus host several large ethnic communities that have preserved their national identity over the centuries. METHODS: This study involved high-grade serous ovarian cancer (HGSOC) and breast cancer (BC) patients from Dagestan (HGSOC: 37; BC: 198), Kabardino-Balkaria (HGSOC: 68; BC: 155), North Ossetia (HGSOC: 51; BC: 104), Chechnya (HGSOC: 68; BC: 79), Ingushetia (HGSOC: 19; BC: 103), Karachay-Cherkessia (HGSOC: 13; BC: 47), and several Armenian settlements (HGSOC: 16; BC: 101). The group of BC patients was enriched by young-onset and/or family history-positive and/or bilateral and/or receptor triple-negative cases. The entire coding region of BRCA1, BRCA2, PALB2, and ATM genes was analyzed by next-generation sequencing. RESULTS: A significant contribution of BRCA1/2 pathogenic variants (PVs) to HGSOC and BC development was observed across all North Caucasus regions (HGSOC: 19-39%; BC: 6-13%). Founder alleles were identified in all ethnic groups studied, e.g., BRCA1 c.3629_3630delAG in Chechens, BRCA2 c.6341delC in North Ossetians, BRCA2 c.5351dupA in Ingush, and BRCA1 c.2907_2910delTAAA in Karachays. Some BRCA1/2 alleles, particularly BRCA2 c.9895C > T, were shared by several nationalities. ATM PVs were detected in 14 patients, with c.1673delG and c.8876_8879delACTG alleles occurring twice each. PALB2 heterozygosity was observed in 5 subjects, with one variant seen in 2 unrelated women. CONCLUSION: This study adds to the evidence for the global-wide contribution of BRCA1/2 genes to HGSOC and BC morbidity, although the spectrum of their PVs is a subject of ethnicity-specific variations. The data on founder BRCA1/2 alleles may be considered when adjusting the BRCA1/2 testing procedure to the ethnic origin of patients.

ALK, ROS1, RET and NTRK1-3 Gene Fusions in Colorectal and Non-Colorectal Microsatellite-Unstable Cancers.

This study aimed to conduct a comprehensive analysis of actionable gene rearrangements in tumors with microsatellite instability (MSI). The detection of translocations involved tests for 5'/3'-end expression imbalance, variant-specific PCR and RNA-based next generation sequencing (NGS). Gene fusions were detected in 58/471 (12.3%) colorectal carcinomas (CRCs), 4/69 (5.8%) gastric cancers (GCs) and 3/65 (4.6%) endometrial cancers (ECs) (ALK: 8; RET: 12; NTRK1: 24; NTRK2: 2; NTRK3: 19), while none of these alterations were observed in five cervical carcinomas (CCs), four pancreatic cancers (PanCs), three cholangiocarcinomas (ChCs) and two ovarian cancers (OCs). The highest frequency of gene rearrangements was seen in KRAS/NRAS/BRAF wild-type colorectal carcinomas (53/204 (26%)). Surprisingly, as many as 5/267 (1.9%) KRAS/NRAS/BRAF-mutated CRCs also carried tyrosine kinase fusions. Droplet digital PCR (ddPCR) analysis of the fraction of KRAS/NRAS/BRAF mutated gene copies in kinase-rearranged tumors indicated that there was simultaneous co-occurrence of two activating events in cancer cells, but not genetic mosaicism. CRC patients aged above 50 years had a strikingly higher frequency of translocations as compared to younger subjects (56/365 (15.3%) vs. 2/106 (1.9%), p = 0.002), and this difference was particularly pronounced for tumors with normal KRAS/NRAS/BRAF status (52/150 (34.7%) vs. 1/54 (1.9%), p = 0.001). There were no instances of MSI in 56 non-colorectal tumors carrying ALK, ROS1, RET or NTRK1 rearrangements. An analysis of tyrosine kinase gene translocations is particularly feasible in KRAS/NRAS/BRAF wild-type microsatellite-unstable CRCs, although other categories of tumors with MSI also demonstrate moderate occurrence of these events.

Cost-Efficient Detection of NTRK1/2/3 Gene Fusions: Single-Center Analysis of 8075 Tumor Samples.

The majority of NTRK1, NTRK2, and NTRK3 rearrangements result in increased expression of the kinase portion of the involved gene due to its fusion to an actively transcribed gene partner. Consequently, the analysis of 5'/3'-end expression imbalances is potentially capable of detecting the entire spectrum of NTRK gene fusions. Archival tumor specimens obtained from 8075 patients were subjected to manual dissection of tumor cells, DNA/RNA isolation, and cDNA synthesis. The 5'/3'-end expression imbalances in NTRK genes were analyzed by real-time PCR. Further identification of gene rearrangements was performed by variant-specific PCR for 44 common NTRK fusions, and, whenever necessary, by RNA-based next-generation sequencing (NGS). cDNA of sufficient quality was obtained in 7424/8075 (91.9%) tumors. NTRK rearrangements were detected in 7/6436 (0.1%) lung carcinomas, 11/137 (8.0%) pediatric tumors, and 13/851 (1.5%) adult non-lung malignancies. The highest incidence of NTRK translocations was observed in pediatric sarcomas (7/39, 17.9%). Increased frequency of NTRK fusions was seen in microsatellite-unstable colorectal tumors (6/48, 12.5%), salivary gland carcinomas (5/93, 5.4%), and sarcomas (7/143, 4.9%). None of the 1293 lung carcinomas with driver alterations in EGFR/ALK/ROS1/RET/MET oncogenes had NTRK 5'/3'-end expression imbalances. Variant-specific PCR was performed for 744 tumors with a normal 5'/3'-end expression ratio: there were no rearrangements in 172 EGFR/ALK/ROS1/RET/MET-negative lung cancers and 125 pediatric tumors, while NTRK3 fusions were detected in 2/447 (0.5%) non-lung adult malignancies. In conclusion, this study describes a diagnostic pipeline that can be used as a cost-efficient alternative to conventional methods of NTRK1-3 analysis.

Combined CYP1A1/GSTM1 at-risk genotypes are overrepresented in squamous cell lung carcinoma patients but underrepresented in elderly tumor-free subjects.

PURPOSE: Polycyclic aromatic hydrocarbons are activated by cytochrome P450 1A1 (CYP1A1) and inactivated by glutathione S-transferase mu (GSTM1). Therefore, it is expected that a combination of proficient CYP1A1 genotype with deficient GSTM1 variant would result in particularly elevated lung cancer (LC) risk, especially for squamous cell carcinoma (SCC). This study was aimed to validate whether the CYP1A1-C (3801) (CYP1A1*2) allele has an unfavorable significance alone and/or in combination with the GSTM1 deficiency. METHODS: We compared the distribution of CYP1A1 and GSTM1 genotypes in LC patients (n=141), healthy donors (HD, n=204), and elderly tumor-free smokers and non-smokers (ED, n=246). RESULTS: CYP1A1*2 allele carriers demonstrated a clear-cut association with SCC: the adjusted odds ratios (OR) were 2.22 (95% CI=1.06-4.63) and 2.27 (95% CI=1.14-4.52) when HD and ED were used as referents, respectively. CYP1A1*2(+)/GSTM1(-) combined genotypes were overrepresented in the SCC patients (14/70, 20.0%) and underrepresented in the ED (19/246, 7.7%) as compared to the intermediate prevalence in the HD (26/204, 12.7%); the adjusted OR for SCC versus ED reached 3.85 (95% CI=1.43-10.33). CONCLUSIONS: In agreement with some literature data, our results support the concerted role of CYP1A1 and GSTM1 at-risk genotypes in SCC predisposition.

'Comparison of extremes' approach provides evidence against the modifying role of NAT2 polymorphism in lung cancer susceptibility.

NAT2 (arylamine N-acetyltransferase 2) polymorphism, being a key determinant of individual variations in acetylation capacity, is suspected to modify the risk of carcinogen-related malignancies. As tobacco smoke and other inhaled hazards contain a variety of NAT2 substrates, the relationship between NAT2 phenotype and lung cancer (LC) risk has been a subject of intensive research, however different case-control studies produced controversial data. In the present report, we employed a novel 'comparison of extremes' approach, i.e. we compared the distribution of NAT2 genotypes in lung cancer patients (LC, n=178) not only to the population controls (healthy donors (HD), n=364), but also to the subjects with a putative cancer-resistant constitution (elderly tumor-free smokers and non-smokers (ED), n=351). Frequencies of homozygous rapid, heterozygous rapid and slow acetylators were 6, 39 and 56% in LC, 8, 32 and 60% in HD, and 6, 35 and 59% in ED, respectively. Comparison of the NAT2 genotype frequencies between affected and non-affected individuals did not reveal any statistical deviations, irrespectively of smoking history, gender, age, or histological type of LC. Adjusted odds ratio for rapid vs. slow acetylators was 1.12 (95% confidence intervals (CI): 0.73-1.74) comparing LC vs. HD, and 1.10 (95% CI: 0.74-1.62) comparing LC vs. ED. Similar distribution of NAT2 acetylator genotypes both in tumor-prone and in tumor-resistant groups suggests that, despite the presence of NAT2 carcinogenic substrates in tobacco smoke, NAT2 polymorphism does not play a noticeable role in lung cancer susceptibility.

CYP17 genetic polymorphism in endometrial cancer: are only steroids involved?

Initiation and/or promotion of endometrial cancer is known to be associated with estrogen and androgen (androstenedione) excess as well as with hyperinsulinemia/insulin resistance. It is possible that some allelic polymorphisms of the genes involved in steroidogenesis or steroid metabolism contribute to endometrial cancer susceptibility. We evaluated here the role of CYP17 biallelic (MspAI) polymorphism in 114 endometrial cancer patients compared with 182 healthy women. Our data demonstrated that A2/A2 CYP17 genotype, considered on the basis of initial breast cancer studies as 'unfavorable', was under-represented in endometrial cancer group (odds ratio 0.48, 95% confidence interval 0.25-0.89) that confirmed results of two other recent investigations. Carriers of this genotype were characterized by having lower blood insulin (by 120 min of oral glucose tolerance test 36.7+/-3.9 microU/ml vs. 90.4+/-16.7 microU/ml in postmenopausal women with A1/A1 genotype, P=0.04) and C-peptide levels (after night fasting 575.2+/-78.3 pg/ml vs. 978.9+/-115.7 pg/ml, respectively, P=0.04). No significant difference was found between the mean concentrations of testosterone, dehydroepiandrosterone sulfate and estradiol concentrations in patients-carriers of separate CYP17 genotypes. Thus, CYP17 polymorphism (namely, carrying the 'normal' A1/A1 genotype) might be one of the risk factors for endometrial cancer development. A1/A1 CYP17 variant may be associated with untraditional (non-steroidal) pathways that calls for corresponding preventive measures in high-risk groups.

A novel approach for assessment of cancer predisposing roles of GSTM1 and GSTT1 genes: use of putatively cancer resistant elderly tumor-free smokers as the referents.

We applied an alternative approach to assess the controversial evidence for the role of GSTM1 and GSTT1 deficiencies (null genotypes) in cancer susceptibility. In this study setting, the prevalence of GSTM1 and GSTT1 null genotypes in the lung cancer patients (LCs, n = 167) were compared with those in the group of putatively cancer resistant individuals, i.e. elderly tumor-free donors (EDs, n = 324). Healthy middle-aged donors (HDs, n = 339) were used as another comparison group. Our results support the previous conclusions of a modest protective effect associated with presence of at least one functional copy of GSTM1 gene; the prevalence of GSTM1 deficiency in LCs (54%) did not differ from that observed in HDs (54%), but showed a significant increase when compared with EDs (45%) (OR = 1.46, 95% CI = 1.00-2.12). Furthermore, in agreement with mechanistic considerations, the GSTM1 null genotypes were more prevalent in squamous cell carcinoma patients (58%) and in lung cancer patients with seemingly low cumulative carcinogen exposure dose (non-smokers: 63%; patients aged below 50 years: 76%). Contrary to GSTM1, no significant effect in the lung cancer proneness was observed for the GSTT1 genotypes. The results of this study are thus in good agreement with the body of literature data, including several published meta-analyses. Consequently, the suggested study design involving additional "cancer resistant" group of non-affected subjects appears to provide highly demonstrative data and to be well suited for pilot investigations and for resolving controversial issues.

Concordance of allelic imbalance profiles in synchronous and metachronous bilateral breast carcinomas.

Bilateral breast cancer (biBC) is a common form of breast cancer; however, it has not been subjected to systematic comparative genetic studies. We allelotyped 28 biBCs on 14 chromosomal arms, addressing 2 lines of questions: (i) does comparison of genetic profiles disclose contralateral metastases misdiagnosed as second primaries? and (ii) do shared environmental and host factors drive the development of true biBC along similar genetic routes? Allelotyping provided unambiguous proof for distinct clonality in 23 of 28 cases. In another 4 biBCs, the genotyping data did not exclude the hypothesis of metastatic spread, whereas clinical and histologic data were in favor of bilaterality. Thus the question of clonality remained open only for 1 case, in which the paired tumors shared both histologic features and allelotypes. We conclude that the vast majority if not all biBCs are of independent clonal origin. Next, we assessed the similarity of genetic pathways in distinct categories of biBC. It was assumed that the coexistence of allelic imbalance (AI) in 1 tumor and retention of heterozygosity (N) in the contralateral neoplasm corresponds to the distinct genetic profiles, whereas the remaining combinations (AI/AI or N/N) suggest a match of allelic status for a given polymorphic marker. When these allelic matches were pooled, it turned out that synchronous biBC displayed a significantly higher similarity score than metachronous biBC (64/77 [83%] vs. 162/267 [61%]; p = 0.0003). In addition, an increased similarity of allelic profiles was observed in the premenopausal biBC (76/101 [75%]) compared with postmenopausal cases (111/173 [64%]) or tumor pairs separated by the onset of menopause (39/70 [56%]; p = 0.014). Overall, our data suggest that sharing natural histories of the disease, which is more evident in synchronous and/or premenopausal forms of biBC, may result in a similarity of molecular portraits in bilateral breast tumors.