Clinical versus molecular diagnosis of Gorlin syndrome: Relevance of diagnostic criteria depends on the age of patients.

BACKGROUND: Gorlin Syndrome (GS) is an autosomal dominant disorder characterised by a predisposition to basal cell carcinoma and developmental defects, and caused by pathogenic variants in PTCH1 or SUFU genes. OBJECTIVES: To ascertain the efficiency of molecular screening in a cohort of patients with a suspicion of GS and to describe patients' clinical and genetic characteristics. METHODS: 110 patients with a suspicion of GS, addressed to the Genetic Department of Bichat University Hospital for molecular screening were studied. Patients' clinical and paraclinical data were collected and analysed according to Evan's diagnosis criteria, and compared to molecular information. RESULTS: Among 110 probands, only 56% fulfill Evan's diagnosis criteria. 75% of patients who fulfill those criteria carry a PTCH1/SUFU pathogenic variation. We compared clinical and paraclinical data of 54 probands carrying a PTCH1/SUFU mutation with 56 probands without identified mutation. Among patients carrying a pathogenic variation in PTCH1 or SUFU genes, 30 years of age appears to be the cut off age after which all patients have a clear clinical GS. Indeed, after 30 years, all patients carrying a PTCH1/SUFU mutation fulfill the diagnosis criteria of Evans (82% meet the clinical criteria, and we reach 100% with complementary exams such as X-rays and ultrasound). Before 30 years of age, only 37% of mutated patients fulfilled the clinical diagnosis criteria's and we only reach 62% with simple complementary exams. Furthermore, we report 22 new mutations in PTCH1. CONCLUSIONS: Molecular screening of patients with GS who do not fulfill Evan's diagnostic criteria should only be offered in first intention to patients under 30 years of age. After 30 years, a careful clinical examination and complementary radiological exams should be enough to eliminate the diagnosis of GS among patients who do not fulfill diagnostic criteria.

Serum bikunin isoforms in congenital disorders of glycosylation and linkeropathies.

Bikunin (Bkn) isoforms are serum chondroitin sulfate (CS) proteoglycans synthesized by the liver. They include two light forms, that is, the Bkn core protein and the Bkn linked to the CS chain (urinary trypsin inhibitor [UTI]), and two heavy forms, that is, pro-α-trypsin inhibitor and inter-α-trypsin inhibitor, corresponding to UTI esterified by one or two heavy chains glycoproteins, respectively. We previously showed that the Western-blot analysis of the light forms could allow the fast and easy detection of patients with linkeropathy, deficient in enzymes involved in the synthesis of the initial common tetrasaccharide linker of glycosaminoglycans. Here, we analyzed all serum Bkn isoforms in a context of congenital disorders of glycosylation (CDG) and showed very specific abnormal patterns suggesting potential interests for their screening and diagnosis. In particular, genetic deficiencies in V-ATPase (ATP6V0A2-CDG, CCDC115-CDG, ATP6AP1-CDG), in Golgi manganese homeostasis (TMEM165-CDG) and in the N-acetyl-glucosamine Golgi transport (SLC35A3-CDG) all share specific abnormal Bkn patterns. Furthermore, for each studied linkeropathy, we show that the light abnormal Bkn could be further in-depth characterized by two-dimensional electrophoresis. Moreover, besides being interesting as a specific biomarker of both CDG and linkeropathies, Bkn isoforms' analyses can provide new insights into the pathophysiology of the aforementioned diseases.