Dominant mutations in the FOXC2 gene cause a form of lymphedema primarily of the limbs that usually develops at or after puberty. In 90-95% of patients, lymphedema is accompanied by distichiasis. FOXC2 is a member of the forkhead/winged-helix family of transcription factors and plays essential roles in different developmental pathways and physiological processes. We previously described six unrelated families with primary lymphedema-distichiasis in which patients showed different FOXC2 mutations located outside of the forkhead domain. Of those, four were missense mutations, one a frameshift mutation, and the last a stop mutation. To assess their pathogenic potential, we have now examined the subcellular localization and the transactivation activity of the mutated FOXC2 proteins. All six FOXC2 mutant proteins were able to localize into the nucleus; however, the frameshift truncated protein appeared to be sequestered into nuclear aggregates. A reduction in the ability to activate FOXC1/FOXC2 response elements was detected in 50% of mutations, while the remaining ones caused an increase of protein transactivation activity. Our data reveal that either a complete loss or a significant gain of FOXC2 function can cause a perturbation of lymphatic vessel formation leading to lymphedema.
A whole exome sequencing approach was recently used to detect a CELSR1 truncating variant associated with lymphedema in a large pedigree. Since this first report, no other similar associations have been reported in the literature. Here, we present the genetic results of 95 probands tested using a next generation sequencing panel that covered all known lymphedema-associated genes, including CELSR1. Five out of 95 probands (5.3%) were found to carry novel loss-of-function variants in CELSR1.Family segregation studies were possible in four out of five probands and showed possible sex-specific differences: CELSR1 variants showed almost complete penetrance in females and were associated with early-onset lymphedema, whereas in males they showed incomplete penetrance and were associated with late onset of the condition. Since the percentage of lymphedema patients carrying CELSR1 variants is not negligible, we do not hesitate to recommend including this gene in routine genetic testing. K E Y W O R D S
TIE1 is a cell surface protein expressed in endothelial cells. Involved in angiogenesis and lymphangiogenesis, including morphogenesis of lymphatic valves, TIE1 is important for lymphatic system functional integrity. The main purpose of this study was to identify different variants in the TIE1 gene that could be associated with lymphatic malformations or dysfunction and predisposition for lymphedema. In a cohort of 235 Italian lymphedema patients, who tested negative for variants in known lymphedema genes, we performed a further test for new candidate genes, including TIE1. Three probands carried different variants in TIE1. Two of these segregated with lymphedema or lymphatic dysfunction in familial cases. Variants in TIE1 could contribute to the onset of lymphedema. On the basis of our findings, we propose TIE1 as a candidate gene for comprehensive genetic testing of lymphedema.
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