Loss-of-function mutations of the TIE1 receptor tyrosine kinase cause late-onset primary lymphedema
Pascal Brouillard, … , Kari Alitalo, Miikka Vikkula
Pascal Brouillard, … , Kari Alitalo, Miikka Vikkula
Published May 31, 2024
Citation Information: J Clin Invest. 2024;134(14):e173586. https://doi.org/10.1172/JCI173586.
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Research Article Genetics Vascular biology Article has an altmetric score of 11

Loss-of-function mutations of the TIE1 receptor tyrosine kinase cause late-onset primary lymphedema

Abstract

Primary lymphedema (PL), characterized by tissue swelling, fat accumulation, and fibrosis, results from defects in lymphatic vessels or valves caused by mutations in genes involved in development, maturation, and function of the lymphatic vascular system. Pathogenic variants in various genes have been identified in about 30% of PL cases. By screening of a cohort of 755 individuals with PL, we identified two TIE1 (tyrosine kinase with immunoglobulin- and epidermal growth factor–like domains 1) missense variants and one truncating variant, all predicted to be pathogenic by bioinformatic algorithms. The TIE1 receptor, in complex with TIE2, binds angiopoietins to regulate the formation and remodeling of blood and lymphatic vessels. The premature stop codon mutant encoded an inactive truncated extracellular TIE1 fragment with decreased mRNA stability, and the amino acid substitutions led to decreased TIE1 signaling activity. By reproducing the two missense variants in mouse Tie1 via CRISPR/Cas9, we showed that both cause edema and are lethal in homozygous mice. Thus, our results indicate that TIE1 loss-of-function variants can cause lymphatic dysfunction in patients. Together with our earlier demonstration that ANGPT2 loss-of-function mutations can also cause PL, our results emphasize the important role of the ANGPT2/TIE1 pathway in lymphatic function.

Authors

Pascal Brouillard, Aino Murtomäki, Veli-Matti Leppänen, Marko Hyytiäinen, Sandrine Mestre, Lucas Potier, Laurence M. Boon, Nicole Revencu, Arin Greene, Andrey Anisimov, Miia H. Salo, Reetta Hinttala, Lauri Eklund, Isabelle Quéré, Kari Alitalo, Miikka Vikkula

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Figure 3

Analysis of TIE1 protein in HEK293T expressing the different TIE1 variants.

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Analysis of TIE1 protein in HEK293T expressing the different TIE1 varian...
(A and B) Western blotting of WT-TIE1 and the 3 variants in HEK293T cells transfected using a lentiviral vector. The truncated TIE1-Q682* variant is detected in cell lysate (A) only after 5 minutes of exposure, and is weak in the supernatant (B) after a 20-second exposure. Asterisks indicate the truncated Q682* polypeptide. The lanes were run on the same gel but were noncontiguous. (C) Relative TIE1 protein signals in the lysates and culture supernatants from n = 3 experiments like in A and B. (D) Flow cytometry analysis of TIE1 in transfected HEK293T cells. (E) Quantification of D from n = 3 experiments. Statistical significance in C and E was determined with Brown-Forsythe ANOVA with Dunnett’s post hoc test for multiple comparisons. Data shown as mean ± SEM. **P < 0.01, ***P < 0.001, ****P < 0.0001.