Prevalence and clinical characteristics of Lynch syndrome-associated adrenocortical carcinoma.

Endometrial cancer has been associated with pathogenic variants in mismatch repair (MMR) genes, especially in the context of the hereditary Lynch Syndrome. More recently, pathogenic variants in genes of homology‐directed repair (HDR) have also been suggested to contribute to a subset of endometrial cancers. In the present hospital‐based study, we investigated the relative distribution of pathogenic MMR or HDR gene variants in a series of 342 endometrial cancer patients from the Oncology Clinic in Almaty, Kazakhstan. In comparison, we also sequenced 178 breast cancer patients from the same population with the same gene panel. Identified variants were classified according to ClinVar, ESM1b, and AlphaMissense prediction tools. We found 10 endometrial cancer patients (2.9%) carrying pathogenic or likely pathogenic variants in MMR genes (7 MSH6, 1 MSH2, 2 MUTYH), while 14 endometrial cancer patients (4.1%) carried pathogenic variants in HDR genes (4 BRCA2, 3 BRCA1, 3 FANCM, 2 SLX4, 1 BARD1, 1 BRIP1). In the breast cancer series, we found 8 carriers (4.5%) of pathogenic or likely pathogenic variants in MMR genes (2 MSH2, 2 MSH6, 4 MUTYH) while 12 patients (6.7%) harbored pathogenic or likely pathogenic HDR gene variants (5 BRCA1, 3 BRCA2, 1 BRIP1, 1 ERRC4, 1 FANCM, 1 SLX4). One patient who developed breast cancer first and endometrial cancer later carried a novel frameshift variant in MSH6. Our results indicate that MMR and HDR gene variants with predicted pathogenicity occur at substantial frequencies in both breast and endometrial cancer patients from the Kazakh population.

SummaryBackgroundLynch syndrome is a rare familial cancer syndrome caused by pathogenic variants in the mismatch repair genes MLH1, MSH2, MSH6, or PMS2, that cause predisposition to various cancers, predominantly colorectal and endometrial cancer. Data are emerging that pathogenic variants in mismatch repair genes increase the risk of early-onset aggressive prostate cancer. The IMPACT study is prospectively assessing prostate-specific antigen (PSA) screening in men with germline mismatch repair pathogenic variants. Here, we report the usefulness of PSA screening, prostate cancer incidence, and tumour characteristics after the first screening round in men with and without these germline pathogenic variants.MethodsThe IMPACT study is an international, prospective study. Men aged 40–69 years without a previous prostate cancer diagnosis and with a known germline pathogenic variant in the MLH1, MSH2, or MSH6 gene, and age-matched male controls who tested negative for a familial pathogenic variant in these genes were recruited from 34 genetic and urology clinics in eight countries, and underwent a baseline PSA screening. Men who had a PSA level higher than 3·0 ng/mL were offered a transrectal, ultrasound-guided, prostate biopsy and a histopathological analysis was done. All participants are undergoing a minimum of 5 years' annual screening. The primary endpoint was to determine the incidence, stage, and pathology of screening-detected prostate cancer in carriers of pathogenic variants compared with non-carrier controls. We used Fisher's exact test to compare the number of cases, cancer incidence, and positive predictive values of the PSA cutoff and biopsy between carriers and non-carriers and the differences between disease types (ie, cancer vs no cancer, clinically significant cancer vs no cancer). We assessed screening outcomes and tumour characteristics by pathogenic variant status. Here we present results from the first round of PSA screening in the IMPACT study. This study is registered with ClinicalTrials.gov, NCT00261456, and is now closed to accrual.FindingsBetween Sept 28, 2012, and March 1, 2020, 828 men were recruited (644 carriers of mismatch repair pathogenic variants [204 carriers of MLH1, 305 carriers of MSH2, and 135 carriers of MSH6] and 184 non-carrier controls [65 non-carriers of MLH1, 76 non-carriers of MSH2, and 43 non-carriers of MSH6]), and in order to boost the sample size for the non-carrier control groups, we randomly selected 134 non-carriers from the BRCA1 and BRCA2 cohort of the IMPACT study, who were included in all three non-carrier cohorts. Men were predominantly of European ancestry (899 [93%] of 953 with available data), with a mean age of 52·8 years (SD 8·3). Within the first screening round, 56 (6%) men had a PSA concentration of more than 3·0 ng/mL and 35 (4%) biopsies were done. The overall incidence of prostate cancer was 1·9% (18 of 962; 95% CI 1·1–2·9). The incidence among MSH2 carriers was 4·3% (13 of 305; 95% CI 2·3–7·2), MSH2 non-carrier controls was 0·5% (one of 210; 0·0–2·6), MSH6 carriers was 3·0% (four of 135; 0·8–7·4), and none were detected among the MLH1 carriers, MLH1 non-carrier controls, and MSH6 non-carrier controls. Prostate cancer incidence, using a PSA threshold of higher than 3·0 ng/mL, was higher in MSH2 carriers than in MSH2 non-carrier controls (4·3% vs 0·5%; p=0·011) and MSH6 carriers than MSH6 non-carrier controls (3·0% vs 0%; p=0·034). The overall positive predictive value of biopsy using a PSA threshold of 3·0 ng/mL was 51·4% (95% CI 34·0–68·6), and the overall positive predictive value of a PSA threshold of 3·0 ng/mL was 32·1% (20·3–46·0).InterpretationAfter the first screening round, carriers of MSH2 and MSH6 pathogenic variants had a higher incidence of prostate cancer compared with age-matched non-carrier controls. These findings support the use of targeted PSA screening in these men to identify those with clinically significant prostate cancer. Further annual screening rounds will need to confirm these findings.FundingCancer Research UK, The Ronald and Rita McAulay Foundation, the National Institute for Health Research support to Biomedical Research Centres (The Institute of Cancer Research and Royal Marsden NHS Foundation Trust; Oxford; Manchester and the Cambridge Clinical Research Centre), Mr and Mrs Jack Baker, the Cancer Council of Tasmania, Cancer Australia, Prostate Cancer Foundation of Australia, Cancer Council of Victoria, Cancer Council of South Australia, the Victorian Cancer Agency, Cancer Australia, Prostate Cancer Foundation of Australia, Asociación Española Contra el Cáncer (AECC), the Instituto de Salud Carlos III, Fondo Europeo de Desarrollo Regional (FEDER), the Institut Català de la Salut, Autonomous Government of Catalonia, Fundação para a Ciência e a Tecnologia, National Institutes of Health National Cancer Institute, Swedish Cancer Society, General Hospital in Malmö Foundation for Combating Cancer.

Lynch syndrome is caused by variants in DNA mismatch repair (MMR) genes and associated with an increased risk of colorectal cancer (CRC). In patients with Lynch syndrome, CRCs can develop via different pathways. We studied associations between Lynch syndrome-associated variants in MMR genes and risks of adenoma and CRC and somatic mutations in APC and CTNNB1 in tumors in an international cohort of patients. We combined clinical and molecular data from 3 studies. We obtained clinical data from 2747 patients with Lynch syndrome associated with variants in MLH1, MSH2, or MSH6 from Germany, the Netherlands, and Finland who received at least 2 surveillance colonoscopies and were followed for a median time of 7.8 years for development of adenomas or CRC. We performed DNA sequence analyses of 48 colorectal tumors (from 16 patients with mutations in MLH1, 29 patients with mutations in MSH2, and 3 with mutations in MSH6) for somatic mutations in APC and CTNNB1. Risk of advanced adenoma in 10 years was 17.8% in patients with pathogenic variants in MSH2 vs 7.7% in MLH1 (P < .001). Higher proportions of patients with pathogenic variants in MLH1 or MSH2 developed CRC in 10years (11.3% and 11.4%) than patients with pathogenic variants in MSH6 (4.7%) (P= .001 and P= .003 for MLH1 and MSH2 vs MSH6, respectively). Somatic mutations in APC were found in 75% of tumors from patients with pathogenic variants in MSH2 vs 11% in MLH1 (P= .015). Somatic mutations in CTNNB1 were found in 50% of tumors from patients with pathogenic variants in MLH1 vs 7% in MSH2 (P= .002). Noneof the 3 tumors with pathogenic variants in MSH6 had a mutation in CTNNB1, but all had mutations in APC. In an analysis of clinical and DNA sequence data from patients with Lynch syndrome from 3 countries, we associated pathogenic variants in MMR genes with risk of adenoma and CRC, and somatic mutations in APC and CTNNB1 in colorectal tumors. If these findings are confirmed, surveillance guidelines might be adjusted based on MMR gene variants.

1520 Background: Lynch syndrome (LS), caused by germline pathogenic variants in mismatch repair (MMR) genes, results in increased risk of colorectal, endometrial, and other cancers. LS has a prevalence of ~1 in 440 in European ancestry populations; prevalence data in other populations are limited. We identified and characterized carriers of pathogenic MMR gene variants in the multi-ethnic Bio Me Biobank in New York City. Methods: Exome sequence data from ~31,000 Bio Me participants were evaluated for known (per ClinVar) and predicted (loss-of-function) pathogenic variants in MMR genes. Population groups were defined by genetic ancestry. Participant questionnaires and electronic health records (EHRs) of carriers were reviewed for personal or family history of malignancy. Results: We identified 48 carriers of 33 distinct pathogenic variants in PMS2 (48%), MLH1 (27%), MSH6 (15%), and MSH2 (10%), for an estimated prevalence of ~1/640 in the Bio Me Biobank. Prevalence was higher among individuals of Non-Jewish European (N = 14; 1/400) and African (N = 14; 1/490) ancestries, compared to Puerto Rican (N = 8; 1/640), Ashkenazi Jewish (N = 6; 1/690), and other/mixed (N = 6) ancestries. Carriers had a median age of 56 (range 27 to 77) years and were 50% female. Overall rate of malignancy among carriers was 38%, with the lowest rate in PMS2 (26%) and the highest rate in MSH6 (57%) variant carriers. We found a high prevalence of endometrial cancer (21% of female carriers) and a lower prevalence of colorectal cancer (4% of all carriers). Only 2 carriers (4%) had a diagnosis of LS in their EHRs, and only 1 carrier met Amsterdam diagnostic criteria for LS. Conclusions: These data show that ~0.15% of participants in a multi-ethnic biobank are carriers of pathogenic MMR gene variants and suggest that the prevalence is higher in European and lower in non-European ancestry populations. Notably, most carriers do not have a clinical diagnosis of LS and do not meet diagnostic criteria for LS. Carriers demonstrate variable rates of cancer, which may contribute to under-diagnosis of LS. Genomic screening for pathogenic MMR variants may lead to earlier diagnosis of LS and improved outcomes.

Simple SummaryLynch syndrome is the most common form of hereditary colorectal cancer associate to variants in Mismatch Repair (MMR) genes. Unfortunately, a large amount of variants identified in these genes remain of uncertain significance. Therefore, many individuals with a clinical suspicion of LS receive a diagnosis of Lynch-like syndrome. This review summarizes the main aspects of Lynch syndrome and recent advances in the molecular diagnosis and, in particular the main factors that determine the loss of expression of MMR genes.Hereditary non-polyposis colorectal cancer is also known as Lynch syndrome. Lynch syndrome is associated with pathogenetic variants in one of the mismatch repair (MMR) genes. In addition to colorectal cancer, the inefficiency of the MMR system leads to a greater predisposition to cancer of the endometrium and other cancers of the abdominal sphere. Molecular diagnosis is performed to identify pathogenetic variants in MMR genes. However, for many patients with clinically suspected Lynch syndrome, it is not possible to identify a pathogenic variant in MMR genes. Molecular diagnosis is essential for referring patients to specific surveillance to prevent the development of tumors related to Lynch syndrome. This review summarizes the main aspects of Lynch syndrome and recent advances in the field and, in particular, emphasizes the factors that can lead to the loss of expression of MMR genes.

Lynch syndrome (LS) increases the risk of various cancers, including colorectal cancer, endometrial cancer and gastric cancer (GC). The incidence of LS among microsatellite instability-high (MSI-H) GC and their association in South Korea remains underexplored. This study investigates LS-associated pathogenic germline variants in MSI-H GC patients using whole-exome sequencing (WES) on normal tissues. This retrospective study included patients who underwent gastrectomy for GC at Soonchunhyang University Bucheon and Cheonan Hospitals from January 2011 to October 2023. Among 1,537 patients screened for MSI status, 127 (8.3%) were identified as MSI-H. WES was performed on normal tissues from 123 patients. Pathogenic/likely pathogenic (P/LP) variants in mismatch repair (MMR) genes were identified using in silico models and protein loss assessments in corresponding tumor tissues. Of the 127 MSI-H GC cases, characteristics aligned with typical MSI-H GC. The average age was 70.02 years, with 98 (77.2%) located in the lower body and 81 (63.8%) of the intestinal type. All five MSI markers were positive in 46.5% of cases, whereas four markers were positive in 27.6%. Of the MSI-H GCs, 10 LS candidates were identified. Three patients had known P/LP variants [MLH1 (c.1758dup), MSH6 (c.3261dup), MSH2 (c.1241T>C)]. Seven patients had variants of unknown significance (VUS) in MMR genes. Six (4.9%) patients were identified as having LS or possible LS, including one patient with the MLH1 (c.1153C>T) variant previously classified as VUS but now considered LS-associated. This large-scale screening for LS in MSI-H GC patients using retrospective samples confirmed the lower incidence of LS than those of colorectal or endometrial cancer and GC patients in Western countries, emphasizing the need for clinical consideration in managing MSI-H GC patients.

Lynch syndrome (LS) is a hereditary cancer syndrome caused by pathogenic germline variants in mismatch repair (MMR) genes, which predisposes to various types of cancers showing deficient MMR (dMMR). Identification of LS probands is crucial to reduce cancer-related deaths in affected families. Although universal screening is recommended for colorectal and endometrial cancers, and age-restricted screening is proposed as an alternative, LS screening covering a broader spectrum of cancer types is needed. In the current study, we elucidated the rate of dMMR tumors and evaluated the outcome of LS screening in young-onset extra-colorectal LS-associated cancers. Immunohistochemistry for MMR proteins were retrospectively performed in a total of 309 tissue samples of endometrial, non-mucinous ovarian, gastric, urothelial, pancreatic, biliary tract, and adrenal cancers in patients < 50years of age. Clinicopathological information and the results of genetic testing were obtained from medical charts. There were 24 dMMR tumors (7.8%) including 18 endometrial, three ovarian, two urothelial, and one gastric cancer. Co-occurrence of colorectal cancer and family history of LS-associated cancers was significantly enriched in patients with dMMR tumors. Among the 16 patients with dMMR tumors who were informed of the immunohistochemistry results, five with endometrial and one with urothelial cancer were diagnosed as LS with positive pathogenic variants in MMR genes. We report the outcome of immunohistochemistry for MMR proteins performed in multiple types of young-onset extra-colorectal LS-associated cancers. Our study demonstrates the feasibility of a comprehensive LS screening program incorporating young-onset patients with various types of extra-colorectal LS-associated cancers.

Lynch syndrome (LS) is a common hereditary cancer syndrome caused by heterozygous germline pathogenic variants in DNA mismatch repair (MMR) genes. Splicing defect constitutes one of the major mechanisms for MMR gene inactivation. Using RT-PCR based RNA analysis, we investigated 24 potential spliceogenic variants in MMR genes and determined their pathogenicity based on refined splicing-related American College of Medical Genetics and Genomics/Association for Molecular Pathology (ACMG/AMP) criteria. Aberrant transcripts were confirmed in 19 variants and 17 of which were classified as pathogenic including 11 located outside of canonical splice sites. Most of these variants were previously reported in LS patients without mRNA splicing assessment. Thus, our study provides crucial evidence for pathogenicity determination, allowing for appropriate clinical follow-up. We also found that computational predictions were globally well correlated with RNA analysis results and the use of both SPiP and SpliceAI software appeared more efficient for splicing defect prediction.

Baseline psychologic impact for Lynch syndrome patients undergoing risk reducing surgery versus annual surveillance (448)

BackgroundRecent research in male infertility genetics has identified numerous candidate genes, some of which were also involved in DNA repair. Mismatch repair (MMR) genes, such as MSH4 and MSH5, have been linked to male infertility due to their role in meiosis, suggesting that other MMR genes may also contribute to impaired spermatogenesis. To investigate the role of MMR genes in male infertility, we first conducted a systematic review focusing on their involvement in impaired spermatogenesis, which was followed by a multicenter cohort study assessing the occurrence of rare deleterious variants in MMR genes among men with severely impaired fertility. The present study aimed to assess the contribution of MMR genes to male infertility and to evaluate their potential clinical utility in the diagnostic workup of men with severely impaired fertility.MethodsA systematic review was conducted through a PubMed database search with a focus on the role of MMR genes in spermatogenesis. We additionally prepared a cohort study, including whole-exome sequencing data from 244 infertile men presenting azoospermia or severe oligozoospermia (< 5 million spermatozoa/ml). Rare, deleterious variants in MMR genes were classified using the ACGS Guidelines for Variant Classification 2020.ResultsFollowing a systematic review of the literature, we gathered robust evidence supporting the strong involvement of MSH4 and MSH5 variants in male infertility, moderate evidence for MLH3, and limited evidence for other MMR genes. From our cohort, we identified likely pathogenic or pathogenic variants in two individuals: one with two MSH4 variants and another with a PMS2 variant.ConclusionsThe present study identifies MSH4 and MSH5 as strong candidate genes for male infertility, supporting the integration of their testing into the clinical diagnosis of infertile men, particularly those exhibiting non-obstructive azoospermia. Although current evidence suggests that genetic variants in most MMR genes do not cause infertility, genetic defects in MMR genes can still impair spermatogenesis due to their critical role in sperm DNA repair and maintenance of genome integrity.Supplementary InformationThe online version contains supplementary material available at 10.1186/s12958-025-01493-x.

Lynch Syndrome: A Single Hereditary Cancer Syndrome or Multiple Syndromes Defined by Different Mismatch Repair Genes?

Colorectal cancer is the second leading cause of cancer-related deaths in women and men in Algeria. Lynch syndrome (LS) is an autosomal dominant disease caused by heterozygous germline pathogenic variants in mismatch repair genes (MMR) and frequently predisposes to colorectal cancer. However, data about MMR germline pathogenic variants in Algerian patients are limited. This first nationwide study aims to describe clinicopathologic features and germline variants in MMR genes in Algerian families with suspected LS. Sixty-four (64) families with suspected LS were studied. Index cases with LS who fulfilled Amsterdam criteria were screened by PCR-direct sequencing for germline variants in MMR genes: MLH1 (exons 1, 9, 10, 13, 16), MSH2 (exons 5, 6, 7, 12), MSH6 (exons 4 and 8) and PMS2 (exons 6 and 10). We selected these specific risk exons genes since they have a higher probability of harboring pathogenic variants. In addition, two unrelated LS patients were screened by next-generation sequencing using a cancer panel of 30 hereditary cancer genes. Six germline pathogenic variants and one germline likely pathogenic variant were identified in 19 (29.68%) families (4 MLH1, 2 MSH2 and 1 MSH6). Of index cases and relatives who underwent genetic testing (n=76), 30 (39.47%) had MMR pathogenic gene variants, one (0.13%) had MMR gene likely pathogenic variant and three had MMR variant of uncertain significance, respectively. Two novel germline pathogenic variants in MLH1 (2) and one germline likely pathogenic variant in MSH6 (1) never published in individuals with LS have been detected in the present study. The recurrent MLH1 germline pathogenic variant c.1546C>T has been found in nine LS families, six of them related with two large kindreds, from four North central provinces of Algeria. In addition, the common MSH2 germline pathogenic variant c.942+3A>T has been detected in five unrelated patients with a strong LS family history. The accumulative knowledge about clinicopathological and genetic characteristics of LS in Algerian patients will impact clinical management in the areas of both prevention and treatment.

Lynch syndrome is characterised by heterozygous germline mutations in the MisMatch Repair (MMR) genes and an increased risk of cancer. Previous population estimates based on cohorts with colorectal cancer suggest one in 300 people have a disease-causing variant. This study calculated the population frequency of Lynch syndrome from Predicted pathogenic variants in MMR genes in the general population. MLH1, MSH2, MSH6 and PMS2 variants were downloaded from gnomAD v.2.1, and annotated in ANNOVAR. Our population frequencies of heterozygous Predicted pathogenic variants were calculated from the sum of structural, null, rare computationally-damaging missense changes, and founder variants. Population frequencies were also derived from the proposed ClinGen variant specifications, and from pathogenic variants in the ClinVar, LOVD or InSiGHT websites. Predicted pathogenic variants were found in one in 94 people in gnomAD v.2.1.1 using our strategy, and one in 122, 203, 199 or 594 using the proposed ClinGen specifications, and the ClinVar, LOVD or InSiGHT databases, respectively. The frequencies derived from ClinVar (one in 203) and LOVD (one in 199) were based on accurate assessments of penetrant variants since they were largely derived from patient testing, but were underestimates because not all gnomAD variants had been assessed. Our strategy and that of the proposed ClinGen specifications examined each variant in gnomAD and resulted in more common population frequencies but some assessments may have been inaccurate, and variants incompletely penetrant. The number of Predicted pathogenic MMR gene variants in the general population suggests that Lynch syndrome is more common than reported previously.Supplementary InformationThe online version contains supplementary material available at 10.1038/s41598-025-17881-7.

Lynch syndrome (LS) is a hereditary cancer predisposition syndrome caused by germline pathogenic variants of DNA mismatch repair (MMR) genes. To diagnose LS, the microsatellite instability (MSI) test or immunohistochemistry of MMR enzymes is used as a conventional clinical screening method for all patients with colorectal and endometrial cancers. Recently, patients with advanced-stage cancers have undergone comprehensive genomic profiling (CGP), which is useful not only for the detection of molecularly targeted personalized therapies, but also for the screening of hereditary cancer syndromes by determining presumed germline pathogenic variants (PGPVs). Between January 2020 and April 2024, 1583 patients underwent CGP at our institute. PGPVs in MMR genes were detected in 19 patients. Although one patient died prior to the disclosure of the results and eight patients declined confirmatory genetic testing, the remaining ten patients underwent confirmatory genetic tests, of whom six were found to have a hereditary origin. Two additional patients were diagnosed with LS using tumor-normal paired CGP. Eventually, a total of eight patients were diagnosed with LS. Herein, we describe two patients with microsatellite-stable cancer who could not be diagnosed using conventional clinical screening or MSI testing. Furthermore, we showed that pathogenic variants of MMR genes do not always correlate with high MSI prediction scores in several cancer types in The Cancer Genome Atlas (TCGA) dataset analysis. These findings highlight the usefulness of CGP as a screening tool to identify individuals with possible LS, especially when conventional criteria and MSI/MMR testing fail.

BackgroundThe genetic mechanisms for families who meet the clinical criteria for Lynch syndrome (LS) but do not carry pathogenic variants in the mismatch repair (MMR) genes are still undetermined. We aimed to study the potential contribution of genes other than MMR genes to the biological and clinical characteristics of Norwegian families fulfilling Amsterdam (AMS) criteria or revised Bethesda guidelines.MethodsThe Hereditary Cancer Biobank of the Norwegian Radium Hospital was interrogated to identify individuals with a high risk of developing colorectal cancer (CRC) for whom no pathogenic variants in MMR genes had been found in routine diagnostic DNA sequencing. Forty-four cancer susceptibility genes were selected and analyzed by using our in-house designed TruSeq amplicon-based assay for targeted sequencing. RNA splicing- and protein-dedicated in silico analyses were performed for all variants of unknown significance (VUS). Variants predicted as likely to affect splicing were experimentally analyzed by resorting to minigene assays.ResultsWe identified a patient who met the revised Bethesda guidelines and carried a likely pathogenic variant in CHEK2 (c.470 T > C, p.I157T). In addition, 25 unique VUS were identified in 18 individuals, of which 2 exonic variants (MAP3K1 c.764A > G and NOTCH3 c.5854G >A) were analyzed in the minigene splicing assay and found not to have an effect on RNA splicing.ConclusionsAmong high-risk CRC patients that fulfill the AMS criteria or revised Bethesda guidelines, targeted gene sequencing identified likely pathogenic variant and VUS in other genes than the MMR genes (CHEK2, NOTCH3 and MAP3K1). Our study suggests that the analysis of genes currently excluded from routine molecular diagnostic screens may confer cancer susceptibility.