Abstract
AbstractBackgroundBirt-Hogg-Dubé syndrome (BHDS) is a rare monogenic condition mostly associated with germline mutations at FLCN. It is characterized by either one or more manifestations of primary spontaneous pneumothorax (PSP), skin fibrofolliculomas and renal carcinoma. Here, we comprehensively studied germline mutations in BHDS patients and asymptomatic members from 15 Indian families.MethodsTargeted amplicon NGS and Sanger sequencing was performed to detect germline mutations at FLCN in 31 clinically diagnosed patients and 74 asymptomatic family members. Functional effects and protein-protein interaction of FLCN variants were evaluated in-silico and molecular docking method. Family-based association study between pathogenic mutations and BHDS was also performed. Germline mutations at genes associated with phenotypically similar diseases were also addressed in few families.ResultsSix different types of pathogenic FLCN mutations were observed in the patients. Two of them: 11-nucleotide deletion (c.1150_1160delGTCCAGTCAGC) and splice acceptor mutation (c.1301-1G>A), were novel mutations. Two unreported Clinvar pathogenic mutations: stop-gain (c.634C>T) and 4-nucleotide duplication (c.1329_1332dupAGCC), and known mutations: hotspot mutation (c.1285delC) and splice donor mutations (c.1300+1G>A) were also detected. All these mutations greatly affected the protein stability and FLCN-FNIP2 protein interaction. Family-based association studies suggested pathogenic FLCN mutations are significantly associated with BHDS. Two pathogenic SNPs, rs1801133 and rs138189536, at MTHFR, associated with Homocystinuria, were found in one family.ConclusionPathogenic mutations at FLCN may play key roles in deregulating metabolic pathways leading to disease pathogenesis. Instead of FLCN mutations, MTHFR pathogenic SNPs were also detected in clinically diagnosed BHDS patients, therefore, genetic evaluation is necessary to avoid confounding diagnosis.
Publisher
Cold Spring Harbor Laboratory