We previously identified a mammalian Set1A complex analogous to the yeast Set1/COMPASS histone H3-Lys4 methyltransferase complex (Lee, J. . Both Set1A and Set1B are widely expressed. Inducible expression of the carboxyl terminus of either Set1A or Set1B decreases steady-state levels of both endogenous Set1A and Set1B protein, but does not alter the expression of the non-catalytic components of the Set1 complexes. A 123-amino acid fragment upstream of the Set1A SET domain is necessary for interaction with CFP1, Ash2, Rbbp5, and Wdr5. This protein domain is also required to mediate feedback inhibition of Set1A and Set1B expression, which is a consequence of reduced Set1A and Set1B stability when not associated with the methyltransferase complex. Confocal microscopy reveals that Set1A and Set1B each localize to a largely non-overlapping set of euchromatic nuclear speckles, suggesting that Set1A and Set1B each bind to a unique set of target genes and thus make non-redundant contributions to the epigenetic control of chromatin structure and gene expression.
p38a mitogen-activated protein kinase (MAPK) is activated in cancer cells in response to environmental factors, oncogenic stress, radiation, and chemotherapy. p38a MAPK phosphorylates a number of substrates, including MAPKAP-K2 (MK2), and regulates the production of cytokines in the tumor microenvironment, such as TNF-a, interleukin-1b (IL-1b), . p38a MAPK is highly expressed in human cancers and may play a role in tumor growth, invasion, metastasis, and drug resistance. LY2228820 dimesylate (hereafter LY2228820), a trisubstituted imidazole derivative, is a potent and selective, ATP-competitive inhibitor of the a-and b-isoforms of p38 MAPK in vitro (IC 50 ¼ 5.3 and 3.2 nmol/L, respectively). In cellbased assays, LY2228820 potently and selectively inhibited phosphorylation of MK2 (Thr334) in anisomycinstimulated HeLa cells (at 9.8 nmol/L by Western blot analysis) and anisomycin-induced mouse RAW264.7 macrophages (IC 50 ¼ 35.3 nmol/L) with no changes in phosphorylation of p38a MAPK, JNK, ERK1/2, c-Jun, ATF2, or c-Myc 10 mmol/L. LY2228820 also reduced TNF-a secretion by lipopolysaccharide/IFNg-stimulated macrophages (IC 50 ¼ 6.3 nmol/L). In mice transplanted with B16-F10 melanoma, tumor phospho-MK2 (p-MK2) was inhibited by LY2228820 in a dose-dependent manner [threshold effective dose (TED) 70 ¼ 11.2 mg/kg]. Significant target inhibition (>40% reduction in p-MK2) was maintained for 4 to 8 hours following a single 10 mg/kg oral dose. LY2228820 produced significant tumor growth delay in multiple in vivo cancer models (melanoma, non-small cell lung cancer, ovarian, glioma, myeloma, breast). In summary, LY2228820 is a p38 MAPK inhibitor, which has been optimized for potency, selectivity, drug-like properties (such as oral bioavailability), and efficacy in animal models of human cancer. Mol Cancer Ther; 13(2); 364-74. Ó2013 AACR.
Glioblastoma multiforme (GBM) is among the most aggressive tumor types and is essentially an incurable malignancy characterized by resistance to chemo-, radio-, and immunotherapy. GBM is maintained by a hierarchical cell organization that includes stem-like, precursor, and differentiated cells. Recurrence and maintenance of the tumor is attributed to a small population of undifferentiated tumor-initiating cells, defined as glioblastoma stem-like cells (GSLCs). This cellular hierarchy offers a potential treatment to induce differentiation of GSLCs away from tumor initiation to a more benign phenotype or to a cell type more amenable to standard therapies. Bone morphogenetic proteins (BMPs), members of the TGF-b superfamily, have numerous biological activities including control of growth and differentiation. In vitro, a BMP7 variant (BMP7v) decreased primary human GSLC proliferation, endothelial cord formation, and stem cell marker expression while enhancing neuronal and astrocyte differentiation marker expression. In subcutaneous and orthotopic GSLC xenografts, which closely reproduce the human disease, BMP7v decreased tumor growth and stem cell marker expression, while enhancing astrocyte and neuronal differentiation compared with control mice. In addition, BMP7v reduced brain invasion, angiogenesis, and associated mortality in the orthotopic model. Inducing differentiation of GSLCs and inhibiting angiogenesis with BMP7v provides a potentially powerful and novel approach to the treatment of GBM.
CXXC finger protein 1 (Cfp1), encoded by the CXXC1 gene, is a component of the euchromatic Setd1A histone H3K4 methyltransferase complex, and is a critical regulator of histone methylation, cytosine methylation, cellular differentiation, and vertebrate development. Murine embryonic stem (ES) cells lacking Cfp1 (CXXC1−/−) are viable but show increased levels of global histone H3K4 methylation, suggesting that Cfp1 functions to inhibit or restrict the activity of the Setd1A histone H3K4 methyltransferase complex. The studies reported here reveal that ES cells lacking Cfp1 contain decreased levels of Setd1A and show subnuclear mislocalization of both Setd1A and trimethylation of histone H3K4 with regions of heterochromatin. Remarkably, structure–function studies reveal that expression of either the N‐terminal fragment of Cfp1 (amino acids 1–367) or the C‐terminal fragment of Cfp1 (amino acids 361–656) is sufficient to restore appropriate levels of Setd1A in CXXC1−/− ES cells. Furthermore, functional analysis of various Cfp1 point mutations reveals that retention of either Cfp1 DNA‐binding activity or association with the Setd1 histone H3K4 methyltransferase complex is required to restore normal Setd1A levels. In contrast, expression of full‐length Cfp1 in CXXC1−/− ES cells is required to restrict Setd1A and histone H3K4 trimethylation to euchromatin, indicating that both Cfp1 DNA‐binding activity and interaction with the Setd1A complex are required for appropriate genomic targeting of the Setd1A complex. These studies illustrate the complexity of Cfp1 function, and identify Cfp1 as a regulator of Setd1A genomic targeting.
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