Mutations in Bcl9 and Pygo genes cause congenital heart defects by tissue-specific perturbation of Wnt/beta-catenin signaling

Bcl9 and Pygopus (Pygo) are obligate Wnt/beta-catenin cofactors in Drosophila, yet their contribution to Wnt signaling during vertebrate development remains unresolved. Combining zebrafish and mouse genetics, we document a conserved, beta-catenin-associated function for BCL9 and Pygo proteins during vertebrate heart development. Disrupting the beta-catenin-BCL9-Pygo complex results in a broadly maintained canonical Wnt response yet perturbs heart development and proper expression of key cardiac regulators. Our work highlights BCL9 and Pygo as selective beta-catenin cofactors in a subset of canonical Wnt responses during vertebrate development. Moreover, our results implicate alterations in BCL9 and BCL9L in human congenital heart defects.

BCL9 is an essential component of canonical Wnt signaling that mediates the differentiation of myogenic progenitors during muscle regeneration

Michel Aguet

Muscle stem cells and their progeny play a fundamental role in the regeneration of adult skeletal muscle. We have previously shown that activation of the canonical Wnt/beta-catenin signaling pathway in adult myogenic progenitors is required for their transition from rapidly dividing transient amplifying cells to more differentiated progenitors. Whereas Wnt signaling in Drosophila is dependent on the presence of the co-regulator Legless, previous studies of the mammalian ortholog of Legless, BCL9 (and its homolog, BCL9-2), have not revealed an essential role of these proteins in Wnt signaling in specific tissues during development. Using Cre-lox technology to delete BCL9 and BCL9-2 in the myogenic lineage in vivo and RNAi technology to knockdown the protein levels in vitro, we show that BCL9 is required for activation of the Wnt/beta-catenin cascade in adult mammalian myogenic progenitors. We observed that the nuclear localization of beta-catenin and downstream TCF/LEF-mediated transcription, which are normally observed in myogenic progenitors upon addition of exogenous Wnt and during muscle regeneration, were abrogated when BCL9/9-2 levels were reduced. Furthermore, reductions of BCL9/9-2 inhibited the promotion of myogenic differentiation by Wnt and the normal regenerative response of skeletal muscle. These results suggest a critical role of BCL9/9-2 in the Wnt-mediated regulation of adult, as opposed to embryonic, myogenic progenitors.

Elsevier2009

Pax6-dependent, but beta-catenin-independent, function of Bcl9 proteins in mouse lens development

Michel Aguet, Andreas Eduard Moor

Bcl9 and Bcl9l (Bcl9/9l) encode Wnt signaling components that mediate the interaction between beta-catenin and Pygopus (Pygo) via two evolutionarily conserved domains, HD1 and HD2, respectively. We generated mouse strains lacking these domains to probe the beta-catenin-dependent and beta-catenin-independent roles of Bcl9/9l and Pygo during mouse development. While lens development is critically dependent on the presence of the HD1 domain, it is not affected by the lack of the HD2 domain, indicating that Bcl9/9l act in this context in a beta-catenin-independent manner. Furthermore, we uncover a new regulatory circuit in which Pax6, the master regulator of eye development, directly activates Bcl9/9l transcription.

Cold Spring Harbor Laboratory Press2014

The Bcl9-beta-catenin interface as a potential therapeutic target for colorectal cancer

Andreas Eduard Moor

Aberrantly active Wnt signaling is the hallmark driver of colorectal cancer (CRC). Bcl9/9l proteins are components of the main transcriptional activation complex of canonical Wnt signaling and interact with beta-catenin via a highly conserved homology domain (HD2). Intestinal loss of Bcl9 affects wound healing and Lgr5+-cancer stem cell (CSC) maintenance, but does not perturb normal tissue homeostasis. The aim of the present thesis was to validate the Bcl9-Î²-catenin interaction as a potential target for modulating Wnt signaling and abolishing intestinal stemness traits in colorectal cancer. We investigated the role of the Bcl9-beta-catenin interaction in the mouse AOM-DSS chemical carcinogenesis CRC model. Subsequently, we validated our observations in an independent transgenic APC-Kras CRC model (truncated APC tumor suppressor and mutated Kras expressed in the intestine). The expression of Bcl9 proteins was abolished exclusively in the gastrointestinal epithelium using constitutive or inducible Cre-recombinase expressed under the control of the Villin promoter. To corroborate that the loss of Bcl9 phenotype was due to the abrogation of the Bcl9-beta-catenin interaction and not to a Î²-catenin-independent function of Bcl9, we made use of an additional Bcl9 mutant mouse strain in which only the HD2 of both Bcl9 proteins was deleted, selectively preventing the Bcl9-beta-catenin interaction. The inducible deletion of Bcl9 in established AOM-DSS tumors led to a loss in stem cell, Wnt and EMT gene expression signatures, recapitulating the phenotype that we previously described when Bcl9 was deleted constitutively. A 14d partial decrease of Bcl9 proved sufficient to suppress the expression of mesenchymal marker Vimentin in a cell autonomous fashion. Importantly, AOM-DSS tumors with Bcl9 proteins selectively lacking the HD2 beta-catenin interaction domain displayed the same phenotype as observed in tumors that entirely lacked Bcl9 proteins. Bcl9-knockout tumors induced in the Wnt active APC-Kras tumor model were compared with their wild-type counterparts. Wild-type APC-Kras mutant tumors displayed fewer mesenchymal traits when compared to AOM-DSS induced tumors. Global gene expression analysis by RNA sequencing confirmed a strong positive correlation between Bcl9/9l-dependent transcriptional changes in both independent tumor models. Genes differentially expressed between wild-type and Bcl9/9l ablated tumors were used to probe CRC databases for correlation with patient outcome and revealed a strong association with vastly improved disease-free and overall survival, independent of clinical and molecular parameters. We have shown that preventing the interaction of Bcl9 with beta-catenin in established tumors in Wnt-activated CRC models rapidly resulted in the loss of stemness and mesenchymal traits and concomitant induction of a more differentiated phenotype. Importantly, these loss-of-Bcl9 traits are prognostic for favorable outcome in CRC patients and we have not observed any overt anomalies upon intestinal ablation of Bcl9 in adult mice. Overall, our observations indicate that targeting the Bcl9-beta-catenin interaction in Wnt-activated tumors might be well tolerated and a generally applicable pharmacological strategy to target CSCs to potentially prevent tumor recurrence and improve progression free survival.

EPFL2014

The Bcl9-beta-catenin interface as a potential therapeutic target for colorectal cancer

Andreas Eduard Moor

EPFL2014