RAP1-mediated MEK/ERK pathway defects in Kabuki syndrome
Nina Bögershausen, … , Nicholas Katsanis, Bernd Wollnik
Nina Bögershausen, … , Nicholas Katsanis, Bernd Wollnik
Published August 17, 2015
Citation Information: J Clin Invest. 2015;125(9):3585-3599. https://doi.org/10.1172/JCI80102.
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RAP1-mediated MEK/ERK pathway defects in Kabuki syndrome

Abstract

The genetic disorder Kabuki syndrome (KS) is characterized by developmental delay and congenital anomalies. Dominant mutations in the chromatin regulators lysine (K)–specific methyltransferase 2D (KMT2D) (also known as MLL2) and lysine (K)–specific demethylase 6A (KDM6A) underlie the majority of cases. Although the functions of these chromatin-modifying proteins have been studied extensively, the physiological systems regulated by them are largely unknown. Using whole-exome sequencing, we identified a mutation in RAP1A that was converted to homozygosity as the result of uniparental isodisomy (UPD) in a patient with KS and a de novo, dominant mutation in RAP1B in a second individual with a KS-like phenotype. We elucidated a genetic and functional interaction between the respective KS-associated genes and their products in zebrafish models and patient cell lines. Specifically, we determined that dysfunction of known KS genes and the genes identified in this study results in aberrant MEK/ERK signaling as well as disruption of F-actin polymerization and cell intercalation. Moreover, these phenotypes could be rescued in zebrafish models by rebalancing MEK/ERK signaling via administration of small molecule inhibitors of MEK. Taken together, our studies suggest that the KS pathophysiology overlaps with the RASopathies and provide a potential direction for treatment design.

Authors

Nina Bögershausen, I-Chun Tsai, Esther Pohl, Pelin Özlem Simsek Kiper, Filippo Beleggia, E. Ferda Percin, Katharina Keupp, Angela Matchan, Esther Milz, Yasemin Alanay, Hülya Kayserili, Yicheng Liu, Siddharth Banka, Andrea Kranz, Martin Zenker, Dagmar Wieczorek, Nursel Elcioglu, Paolo Prontera, Stanislas Lyonnet, Thomas Meitinger, A. Francis Stewart, Dian Donnai, Tim M. Strom, Koray Boduroglu, Gökhan Yigit, Yun Li, Nicholas Katsanis, Bernd Wollnik

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Figure 10

Rap1 signals via RAF1 in early zebrafish development.

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Rap1 signals via RAF1 in early zebrafish development. (A) Western blot a...
(A) Western blot analysis for the lysates from 10 somites stage (midsomitic stage) zebrafish embryos. Depletion of rap1 and kmt2d elevates the abundance of pMEK1/2 in comparison with control embryos. Expression of WT but not RAP1AR163T mRNA reduces the activation of MEK1/2. Relative level of pMEK abundance is summarized in the lower panel. *P < 0.05, n = 3. (B) rap1aMO (1 ng) and rap1b (1 ng) were injected into embryos. Coinjection of raf1MO ameliorates the CE defects in rap1 morphants. ***P < 0.001, χ2 test. Error bars show SEM. (C) Coinjection of raf1MO ameliorates the jaw defects in rap1 morphants. ***P < 0.001, 2-tailed Student’s t test (n = 10). (D) rap1aMO (0.5 ng) and rap1b (0.5 ng) were injected into embryos. MAPK activator PAF-C16 induces CE defects in WT embryos and enhances the CE defects of rap1 morphants. Statistical analysis using the χ2 test. Error bars show SEM. (E) MAPK activator PAF-C16 enhances the jaw defects in rap1 morphants. Statistical analysis using a 2-tailed Student’s t test (n > 20). Error bars show SEM.