Mitogenome germline mutations and colorectal cancer risk in Polish population.

INTRODUCTION: To date, several nuclear DNA variants have been shown to be associated with increased risk of developing colorectal cancer. Despite the fact that mitochondria play an important role in carcinogenesis, little is known about inherited mitochondrial DNA mutations that could be involved in this disease. Thus, potential associations between inherited mutations in the entire mitochondrial genomes and colorectal cancer were analysed in this study. MATERIAL AND METHODS: Two hundred mitogenome sequences determined for colorectal cancer patients and healthy individuals from Poland were used to investigate the association between mtDNA alleles or haplogroups and colorectal cancer. Additional mtDNA control region haplotypes determined for 1353 individuals from the general Polish population were used for comparison of haplogroup and certain allele frequencies between case and control groups. RESULTS: The non-R clades together with their diagnostic T alleles at positions 12705 and 16223 were observed with higher frequencies in healthy individuals than in colorectal cancer patients. Nevertheless, the differences of the R macrohaplogroup (as well as 12705 or 16223 alleles) frequencies between cases and controls were statistically insignificant after Bonferroni correction. Most of the non-R clades were of Asian and African origin, but none of them were prevalent in the control group. Moreover, neither mtDNA alleles nor haplogroups were associated with clinicopathological parameters of colorectal cancer patients. CONCLUSIONS: Contrary to some previous reports, the findings of this study do not support the hypothesis that mitochondrial DNA variants contribute to inherited predisposition to colorectal cancer.

The α-synuclein hereditary mutation E46K unlocks a more stable, pathogenic fibril structure.

Aggregation of α-synuclein is a defining molecular feature of Parkinson's disease, Lewy body dementia, and multiple systems atrophy. Hereditary mutations in α-synuclein are linked to both Parkinson's disease and Lewy body dementia; in particular, patients bearing the E46K disease mutation manifest a clinical picture of parkinsonism and Lewy body dementia, and E46K creates more pathogenic fibrils in vitro. Understanding the effect of these hereditary mutations on α-synuclein fibril structure is fundamental to α-synuclein biology. We therefore determined the cryo-electron microscopy (cryo-EM) structure of α-synuclein fibrils containing the hereditary E46K mutation. The 2.5-Å structure reveals a symmetric double protofilament in which the molecules adopt a vastly rearranged, lower energy fold compared to wild-type fibrils. We propose that the E46K misfolding pathway avoids electrostatic repulsion between K46 and K80, a residue pair which form the E46-K80 salt bridge in the wild-type fibril structure. We hypothesize that, under our conditions, the wild-type fold does not reach this deeper energy well of the E46K fold because the E46-K80 salt bridge diverts α-synuclein into a kinetic trap-a shallower, more accessible energy minimum. The E46K mutation apparently unlocks a more stable and pathogenic fibril structure.

Germline CHEK2 Gene Mutations in Hereditary Breast Cancer Predisposition - Mutation Types and their Biological and Clinical Relevance.

BACKGROUND: Hereditary mutations in the CHEK2 gene (which encodes CHK2 kinase) contribute to a moderately increased risk of breast cancer (BC) and other cancers. Large variations in the frequency of CHEK2 mutations and the occurrence of variants of unknown clinical significance (VUS) complicate estimation of cancer risk in carriers of germline CHEK2 mutations. PATIENTS AND METHODS: We performed mutation analysis of 1,526 high-risk Czech BC patients and 3,360 Czech controls. Functional analysis was performed for identified VUS using a model system based on a human RPE1-CHEK2-KO cell line harboring biallelic inactivation of endogenous CHEK2. RESULTS: The frequency of ten truncating CHEK2 variants differed markedly between BC patients (2.26%) and controls (0.11%; p = 4.1 × 1012). We also found 23 different missense variants in 4.5% patients and in 4.0% of controls. The most common was p.I157T, which was found in patients and controls with the same frequency. Functional analysis identified nine functionally deleterious VUS, another nine functionally neutral VUS, and four intermediate VUS (including p.I157T). We found that carriers of truncating CHEK2 mutations had a high BC risk (OR 8.19; 95% CI 4.11-17.75), and that carriers of functionally deleterious missense variants had a moderate risk (OR 4.06; 95% CI, 1.37-13.39). Carriers of these mutations developed BC at 44.4 and 50.7 years, respectively. Functionally neutral and functionally intermediate missense variants did not increase the BC risk. BC in CHEK2 mutation carriers was frequently ER-positive and of higher grade. Notably, carriers of CHEK2 mutations developed second cancers more frequently than BRCA1/BRCA2/PALB2/p53 or mutation non-carriers. CONCLUSION: Hereditary CHEK2 mutations contribute to the development of hereditary BC. The associated cancer risk in mutation carriers increases with the number of affected individuals in a family. Annual follow-up with breast ultrasound, mammography, or magnetic resonance imaging is recommended for asymptomatic mutation carriers from the age of 40. Surgical prevention and specific follow-up of other tumors should be considered based on family cancer history. The work was supported by grants from the Czech Health Research Council of the Ministry of Health of the Czech Republic NR 15-28830A, 16-29959A, NV19-03-00279, projects of the PROGRES Q28/LF1, GAUK 762216, SVV2019 / 260367, PRIMUS/17/MED/9, UNCE/MED/016, Progress Q26, LQ1604 NPU II and project AVČR Qualitas. The analysis of a set of unselected controls was made possible by the existence and support of the scientific infrastructure of the National Center for Medical Genomics (LM2015091) and its project aimed at creating a reference database of genetic variants of the Czech Republic (CZ.02.1.01/0.0/0.0/16_013/0001634). The authors declare they have no potential conflicts of interest concerning drugs, products, or services used in the study. The Editorial Board declares that the manuscript met the ICMJE recommendation for biomedical papers. Submitted: 2. 4. 2019 Accepted: 14. 5. 2019.

Mutation analysis of the PALB2 gene in unselected pancreatic cancer patients in the Czech Republic.

Pancreatic ductal adenocarcinoma (PDAC) has the worst prognosis among common solid cancer diagnoses. It has been shown that up to 10% of PDAC cases have a familial component. Characterization of PDAC-susceptibility genes could reveal high-risk individuals and patients that may benefit from tailored therapy. Hereditary mutations in PALB2 (Partner and Localizer of BRCA2) gene has been shown to predispose, namely to PDAC and breast cancers; however, frequencies of mutations vary among distinct geographical populations. Using the combination of sequencing, high-resolution melting and multiplex ligation-dependent probe amplification analyses, we screened the entire PALB2 gene in 152 unselected Czech PDAC patients. Truncating mutations were identified in three (2.0%) patients. Genotyping of found PALB2 variants in 1226 control samples revealed one carrier of PALB2 truncating variant (0.08%; P = 0.005). The mean age at PDAC diagnosis was significantly lower among PALB2 mutation carriers (51 years) than in non-carriers (63 years; P = 0.016). Only one patient carrying germline PALB2 mutation had a positive family breast cancer history. Our results indicate that hereditary PALB2 mutation represents clinically considerable genetic factor increasing PDAC susceptibility in our population and that analysis of PALB2 should be considered not only in PDAC patients with familial history of breast or pancreatic cancers but also in younger PDAC patients without family cancer history.