The use of segregation analysis in interpretation of sequence variants in SMAD3: A case report.

BACKGROUND: While representing a significant improvement, the introduction of next-generation sequencing in genetic diagnosis also prompted new challenges. Despite widely recognized consensus guidelines for the interpretation of sequence variants, many variants remain unclassified or are discordantly interpreted. In heritable thoracic aortic aneurysms with dissection (HTAAD), most cases are caused by a heterozygous, private missense mutation, possibly contributing to the relatively common reports of variants with uncertain significance in this group. Segregation analysis necessitates advanced likelihood-based methods typically inaccessible to non-experts and is hampered by reduced penetrance, possible phenocopies, and non-availability of DNA from deceased relatives. METHODS: In this report, challenges in variant interpretation and the use of segregation analyses were illustrated in two families with a suspected HTAAD disorder. The R package segregatr, a novel implementation of full-likelihood Bayes factor (FLB), was performed to explore the cosegregation of the variants in these families. CONCLUSION: Using the R package segregatr, cosegregation in the reported families concluded with strong and supporting evidence for pathogenicity. Surveillance of families in a multidisciplinary team enabling systematic phenotype description for standardized segregation analysis with a robust calculation method may be imperative for reliable variant interpretation in HTAAD.

Markers of extracellular matrix remodeling and systemic inflammation in patients with heritable thoracic aortic diseases.

Background: In approximately 20% of patients with thoracic aortic aneurysms or dissections a heritable thoracic aortic disease (HTAD) is suspected. Several monogenic connective tissue diseases imply high risk of aortic disease, including both non-syndromic and syndromic forms. There are some studies assessing inflammation and extracellular matrix remodeling in patients with non-hereditary aortic disease, but such studies in patients with hereditary diseases are scarce. Aims: To quantify markers of extracellular matrix (ECM) and inflammation in patients with vascular connective tissue diseases versus healthy controls. Methods: Patients with Loeys-Dietz syndrome (LDS, n = 12), Marfan syndrome (MFS, n = 11), and familial thoracic aortic aneurysm 6 (FTAA6, n = 9), i.e., actin alpha 2 (ACTA2) pathogenic variants, were recruited. Exome or genome sequencing was performed for genetic diagnosis. Several markers of inflammation and ECM remodeling were measured in plasma by enzyme immunoassays. Flow cytometry of T-cell subpopulations was performed on a subgroup of patients. For comparison, blood samples were drawn from 14 healthy controls. Results: (i) All groups of HTAD patients had increased levels matrix metalloproteinase-9 (MMP-9) as compared with healthy controls, also in adjusted analyses, reflecting altered ECM remodeling. (ii) LDS patients had increased levels of pentraxin 3 (PTX3), reflecting systemic inflammation. (iii) LDS patients have increased levels of soluble CD25, a marker of T-cell activation. Conclusion: Our data suggest that upregulated MMP-9, a matrix degrading enzyme, is a common feature of several subgroups of HTAD. In addition, LDS patients have increased levels of PTX3 reflecting systemic and in particular vascular inflammation.

Diagnostics of Hereditary Connective Tissue Disorders by Genetic Next-Generation Sequencing.

Aims: This quality analysis study was designed to review the indications, reports, and clinical consequences of 438 diagnostic next-generation sequencing (NGS) gene panel analyses for hereditary connective tissue disorders (HCTD). Methods: Molecular analyses were retrieved from laboratory databases and patient records, and compared to the clinical information in the requisition and classified according to the Human Phenotype Ontology. Results: In 123 of 438 NGS analyses, 156 sequence variants were reported in 33 of 54 genes analyzed. NGS analyses and, in some cases, postanalytic assessment resulted in identification of pathogenic variants in 40 (9%) of patients, and variants of uncertain significance were identified in 83 (19%) of cases analyzed. While cardiovascular abnormalities were the most common phenotype noted in the requisitions, no specific organ system could be identified in which the reported symptoms provided an actionable indication for the analysis. Certain health issues recorded in the patients' records were found to be frequently left out of requisitions. Conclusions: The interpretation of genetic sequence variants continues to be a significant challenge in HCTD. Although not associated with the highest diagnostic yield, cardiovascular disease and family history may be suitable indications for NGS due to the clinical consequences of the identification of a known or likely causative sequence variant for a vascular HCTD in patients and relatives.