Abstract
BackgroundWnt signaling controls the balance between stem cell proliferation and differentiation and body patterning throughout development. Previous data demonstrated that non-canonical Wnts (Wnt5a, Wnt11) increased cardiac gene expression of circulating endothelial progenitor cells (EPC) and bone marrow-derived stem cells cultured in vitro. Since previous studies suggested a contribution of the protein kinase C (PKC) family to the Wnt5a-induced signalling, we investigated which PKC isoforms are activated by non-canonical Wnt5a in human EPC.Methodology/Principal FindingsImmunoblot experiments demonstrated that Wnt5a selectively activated the novel PKC isoform, PKC delta, as evidenced by phosphorylation and translocation. In contrast, the classical Ca2+-dependent PKC isoforms, PKC alpha and beta2, and one of the other novel PKC isoforms, PKC epsilon, were not activated by Wnt5a. The PKC delta inhibitor rottlerin significantly blocked co-culture-induced cardiac differentiation in vitro, whereas inhibitors directed against the classical Ca2+-dependent PKC isoforms or a PKC epsilon-inhibitory peptide did not block cardiac differentiation. In accordance, EPC derived from PKC delta heterozygous mice exhibited a significant reduction of Wnt5a-induced cardiac gene expression compared to wild type mice derived EPC.Conclusions/SignificanceThese data indicate that Wnt5a enhances cardiac gene expressions of EPC via an activation of PKC delta.
Highlights
Various different types of adult stem or progenitor cells were shown to express cardiac genes and acquire a cardiac phenotype, when exposed to a cardiogenic environment
Pharmacological inhibitor as well as genetic ablation in vivo, we identify the novel protein kinase C (PKC) isoform, PKC delta, to importantly contribute to cardiac gene expression in endothelial progenitor cells (EPC), indicating that PKC delta is a key target of the non-canonical Wnt pathway
Addition of Wnt5a increased cardiac gene expression First, we investigated the effect of two different doses of Wnt5a
Summary
Various different types of adult stem or progenitor cells were shown to express cardiac genes and acquire a cardiac phenotype, when exposed to a cardiogenic environment. Wnt-11 was shown to increase cardiac gene expressions in EPC and bone marrow derived mesenchymal stem cells [11,12], and Wnt-11 induced cardiomyogenic differentiation in unfractionated bone marrow mononuclear cells [13]. Non-canonical Wnt signaling enhances differentiation of Sca1+/c-kit+ adipose-derived murine stromal cells into spontaneously beating cardiomyocytes [14]. These data suggest that non-canonical Wnts such as Wnt5a and Wnt might be interesting candidates to enhance cardiac gene expression in adult progenitor cells. Previous data demonstrated that non-canonical Wnts (Wnt5a, Wnt11) increased cardiac gene expression of circulating endothelial progenitor cells (EPC) and bone marrow-derived stem cells cultured in vitro. Since previous studies suggested a contribution of the protein kinase C (PKC) family to the Wnt5a-induced signalling, we investigated which PKC isoforms are activated by non-canonical Wnt5a in human EPC
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